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1000+ Electronics Engineering Presentation Topics

These are 1000+ Presentation Topics for Electronics Engineering Students, Researchers, Teachers, and other professionals. Here we have given the latest and best electronics engineering presentation topics which can be used for PowerPoint paper presentations, seminars, webinars, oral or PPT presentations and discussions.

List of presentation topics for electronics engineering

These are the latest Presentation Topics for Electronics Engineering students.

Table of Contents

3G vs WiFi Wireless Internet Access

4G Wireless technology

5G Wireless technology

64-Point FT Chip

Air Powered Car

All-Optical Transistor

An Optical Switch Based on a Single Nano-Diamond

Artificial retina using thin-film transistor technology

Automatic solar tracker

Bio Battery

Brushless DC motor

Bubble Power

Carbon Nanotubes

Cellular Radio

Concentrating collectors

Detection and Tracking Algorithms for IRST

Digital Imaging

Drawing and Writing in Liquid With Light

DSP based motor control

E-Paper Technology

Electronics advance moves closer to a world beyond silicon

Electrooculography

Embedded system in automobiles

Embedded System Security

Fractal Robots

High-Speed Packet Access (HSPA)

How Advanced Solar Cells Work?

Humanoid Robot

IBOC (In-band on-channel)

Impedance Glottography

Integrated Circuits: The Dominator of Electronics

Is the electronics sector still waiting for the economy to recover?

Kirlian photography

Matrix inversion generator architecture

Microelectronic Pill

MIMO Technology

Mobile Phone Cloning

Money Pad Future Wallet

Nano-Optics

Nanomachines

New Techniques Produce Cleanest Graphene

The new way to dissolve semiconductors

Next-Generation Semiconductors Synthesis

Observer-Based Sensorless Control

Paper battery

Plastic Photovoltaics

Plastic Semiconductors

Riding an electron wave into the future of microchip fabrication

Smart antennas

Synaptic transistor

The power of wireless devices

Turning Plastic Bags Into High-Tech Materials

Use of DNA to assemble a graphene transistor

Wireless Communication technologies

Witricity (WIRELESS ELECTRICITY)

Wi-Vi technology

World’s Smallest FM Radio Transmitter

More Electronics Engg. Topics (Alphabetical List)

Here is the list of thousands of presentation ideas for presentations for electronics and telecommunication engineering students.

21st Century Electronic Devices

3 Axis Digital Accelerometer

3- D IC’s

3-D Chip Stacking Technique

3D Internet

3D optical Data Storage Technology

3D Solar Cell Technology

3-Dimensional Printing

3G Vs. 4G mobile Networks

5G Wireless Systems

6.5 digit professional multimeters

A 64 Point Fourier Transform Chip

A Basic Touch-Sensor Screen System

AC Performance of Nanoelectronics

Accident identification with auto dialler

Acoustic to articulatory inversion

Active pixel sensor

Adaptive Active Phased Array Radars

Adaptive Blind Noise Suppression

Adaptive Cruise Control

Adaptive Missile Guidance Using GPS

Adaptive Multipath Detection

Adaptive Optics in Ground-Based Telescopes

Adhoc Networks

Advanced electronic war equipment

Advanced Mobile Presence Technology

Advanced Packet Classification Technique

Advanced Plastics

Advances in DCS Systems

Advances in motion-capture technology

Advances in Thin-Film Technology

Advertising display using LED & LCD

AFM ultrafast Imaging

Agricultural Plant watering systems

AI for Speech Recognition

Air pollution monitor

All-flash microcontrollers

Aluminum Electrolytic Capacitors

Amplifiers: single-and multi-stage

An Efficient Algorithm for iris pattern

Analog Circuits

Analogue CMOS

Analog Gyros

Analog-Digital Hybrid Modulation

Analog-Digital Hybrid Modulation for improved efficiency over Broadband Wireless Systems

Analysis of electromechanical systems employing microcomputers

Animatronics

ANN for misuse detection

Antenna Effect in VLSI Designs

Anthropomorphic Robot hand: Gifu Hand II

Antiroll suspension system

Aperture Synthesis (SAR and ISAR)

Application-Specific IC’s (ASICS)

Applications of dual-axis Accelerometers

Applications of Fuel cells

Architectural requirements for a DSP processer

Articulatory synthesis

Artificial Eye

Artificial immune system.

Artificial intelligence for speech recognition

Artificial Intelligence In Power Station

Artificial Intelligence Substation Control

Artificial Neural Network Systems

Artificial neural networks

Aspheric lenses

Astrophotography

Asymmetric digital subscriber line

Asynchronous Chips

Asynchronous Transfer Mode

ATM with an eye

Augmented Reality

Automated eye-pattern recognition systems

Automated Optical Inspection

Automated Remote Data Logger

Automatic Electric billing system

Automatic Number Plate Recognition

Automatic Railway Gate Controller

Automatic taxi trip sensing and indication system through GSM

Automatic Teller Machine

Automotive Infotainment

Autonomous Underwater Vehicle

Avalanche diode

Avalanche photo diode

Baseband processor for licence-free digital PMR radios

Bench top wind tunnels

Bio Telemetry

Bioinformatics

Biologically inspired robots

Bio-metrics

Bio-Molecular Computing

Bioreactors

BIT for Intelligent system design

Blu Ray Disc

Blue Gene Supercomputer

Blue tooth technology

Bluetooth based smart sensor networks

Bluetooth Network Security

Boiler Instrumentation and Controls

Border Security Using Wireless Integrated Network Sensors

Brain Chips

Brain finger printing

Brain-computer interface

Brake Assisting Systems

Broadband Wireless Systems

Broadcasting as a Communication Primitive in Intercommunication Networks

Brushless Motors

Buffer overflow attack: A potential problem and its Implications

Business Process Execution Language (BPEC)

Capacitive Sensors

Carbon Chips

Carbon Nanotube Flow Sensors

Carbon Nanotubes -Adaptations & Applications

Cargo storage in space

Case Modeling

Cauchy’s and Euler’s equations

CCD vs. CMOS – Image

CCD: Charge-coupled device

CDMA & CDMA 1x Ev-Do

Cellonics Technology

Cellular Communications

Cellular Digital Packet Data

Cellular geolocation

Cellular Neural Network

Cellular Positioning

Cellular Technologies and Security

Cellular through Remote Control Switch

Chameleon Chip

Chip Morphing

Chip stacking Technology

Cholestric Flexible Displays(Ch LCDs)

Class-D Amplifier

Clockless Chips

Clos Architecture in OPS

Code Division Duplexing

Code Division Multiple Access

Collision warning system

Common Address Redundancy Protocol

Communication Onboard High-Speed Public Transport Systems

Compact peripheral component interconnect (CPCI)

Computational Optical Sensing and Imaging

Computer Aided Field Of Vision

Computer memory based on the protein

Concentrating Collectors

Contactless energy transfer system

Content-based image and video retrieval

Continuous phase modulation

Control system compensators

Convergence of Microcontrollers And DSPs

Co-operative cache based data access in ad hoc networks

Cordless power controller

Core Connecting Rod Design

Cortex M3 Micro controllers

Cross-media content production

CRT Display

Cruise Control Devices

Crusoe Processor

Cryptology in communication systems

Crystaline Silicon Solar Cells

CT Scanning

CVT: Continuously variable transmission

Cyberterrorism

Data Compression Techniques

Data Loggers

DD Using Bio-robotics

Deep-Submicron Effects and Challenges

Delay Tolerant Networking

Dense wavelength division multiplexing

Design of 2-D Filters using a Parallel Processor Architecture

Development of transistors

Digit recognition using neural network

Digital Audio Broadcasting

Digital Audio’s Final Frontier-Class D Amplifier

Digital Cinema

Digital circuits

Digital filtering techniques-Aliasing

Digital HUBBUB

Digital Micro-mirror Device

Digital quartz MEMS for stabilisation and motion sensing

Digital Signal Processing

Digital steganography

Digital stopwatch

Digital Subscriber Line

Digital Visual Interface

Direct Current Machines

Direct Hydrocarbons for Fuel Cells

Direct to Home Television (DTH)

Discrete-time Fourier Transform

Display technology

Disposable Nano Pumps

Distributed COM

Distributed Integrated Circuits

Distrubuated control System

DLNA: Digital Living Network Alliance Technology

DLP: Digital Light Processing

DNA Based Computing

Driving Optical Network Evolution

DSP Enhanced FPGA

DSP Processor

DTCP: Digital Transmission Content Protection

DTL (Diode–transistor logic)

Dual Energy X-ray Absorpiomsetry

DV Libraries and the Internet

Dynamic virtual private network

Dynamic VPN

Earth Simulator

Earthing transformers For Power systems

EC2 Technology

ECC: Elliptical curve cryptography

ECL (Emitter-coupled logic)

EDGE: Enhanced Data for GSM Evolution

EDRAM: Embedded Dynamic random-access memory

E-Intelligence

Elecromagnetic Valves

Electrical Impedance Tomography Or EIT

Electricity from the sun’s energy – photo-voltaic cells

Electro Dynamic Tether

Electromagnetics

Electronic Cooling and Thermal Issues in Microelectronics

Electronic Data Interchange

Electronic Devices

Electronic exchange& optical fiber network

Electronic humidity sensor

Electronic paper

Electronic Road Pricing System~

Electronic voting machine

Electronics Meet Animal Brains

Electronmagnetic Bomb

Element Management System

Embedded System in Automobiles

Embedded systems

Embedded Systems and Information Appliances

Embedded Systems In Automobiles

Embedded Web Technology

Embryonic approach towards integrated circuits

Embryonics Approach towards Integrated Circuits

Emergency Control of Power systems

Energy efficient turbo systems

Enhanced Data rates for Global Evolution

Enhanced data rates for gsm evolution (edge).

Environmental Remediation Systems

EPG: Electronic Program(me) Guide

EUV Lithography

Evolution Of Embedded System

Extended Markup Language

Extreme ultraviolet lithography

Eye Gaze Human-Computer Interface

Eye gaze systems

Fabrication of Si solar cells for concentrator applications

Face Recognition Technology

Face recognition using artificial neural networks.

Face Recognition Using Neural Network

Fast convergemce algorithms for active noise control in vehicles

Fault Diagnosis Of Electronic System using AI

FDDI: Fiber Distributed Data Interface

FED: field emission display

Femtotechnology

FFT: Fast Fourier transform

Field Emission Display Screens

Field-effect transistors

Field-programmable gate array

FinFET Technology

Finger print based library management system

First order equation (linear and nonlinear)

FLASH PIC micro Micro controllers

Flexible CRT Displays

Flexible Power Gateways

Flip Chip Technology

Floating gate Transistor

Fluid Focus Lens (18)

Fluorescent Multi-layer Disc

Flyash Utilisation

Fly-By-Wire technologies

Flying Robots

FM direction finder

FOC: Fibre Optic Communication

FPGA in Space

FPGA: Field Programmable Gate arrays Technology

Fractal Antennas

Fractal Image Compression

Fractal Robot

FRAM (Ferroelectric RAM)

Free space laser communication

Free Space Optics

Free-Core LVDT Position Sensors

Frequency Division Multiple Access

Fusion Memory

Fuzzy based Washing Machine

Fuzzy Logic

Gaic algorithm for iris comparison

Gas Transfer Systems

Gauss and Green’s theorems

General packet radio system

Genetic Programming

Glass computer memory for reduced cost of medical imaging

Global Positioning System

Global System for Mobiles

GNSS Augmentation Systems

Graphics processing unit

Grating Light Valve (GLV) Display Technology

Greenhouse Gas Control Technologies

GSM Based remote measurement of electricity and control system for home

GSM Security and Encryption

Guided Missiles

Hall Sensor Applications

Handheld Radiation detector

Harsh Environment LVDT Position Sensors

HART Communication

Harvesting Wave power

HBTs: Heterojunction Bipolar Transistors

Heliodisplay

HEMT Modeling and Fabrication

High Altitude Aeronautical Platforms

High Capacity Flash Chips

High-frequency RF design

High Performance Computing On Grid Databases

High Performance DSP Architectures

High Speed Packet Access HSPA

High-Speed Uplink Packet Access (HSUPA)(84)

High-speed USB chips

High-Temperature LVDT

High-availability power systems Redundancy options

Higher-order linear differential equations with constant coefficients

HIPPI (High-Performance Parallel Interface)

HMDI- New Digital Video Interface

Holographic Associative Memory

Holographic Data Storage

Holographic Memory

Holographic Versatile Disc (HVD)

Home Audio Video Interpretability (HAVi)

Home Networking

Homeplug – powerline communication

Hot Standby Routing Protocol (HSRP)

Hot Swapping

Humanoids Robotics

Human-Robot Interaction

Hydrogen Super Highway

Hydrophones

HY-Wire Cars

IBOC Technology

Illumination With Solid State Lighting (4)

Image Authentication Techniques

Image Coding Using Zero Tree Wavelet

Image compression

Image processing techniques in PCB inspection systems

Image Sensors

Imaging radar

Imbricate cryptology

Immersion Lithography

I-Mode (Information Mode)

Implementation of Zoom FFT in Ultrasonic Blood Flow Analysis

Improving Multi-Path Radio Reception

Indoor Geolocation

Infinite Dimensional Vector Space

IN-MOTION RADIOGRAPHY

Innovation at Bell Labs

Instruction detection system

Integer Fast Fourier Transform

Integrated Power Electronics Module

Integrated sensor systems, and radio-frequency systems

Integrated Vehicle Health Management Technology

Integrated Voice and Data

Intel express chipsets

Intelligent RAM (IRAM)

Intelligent Sensors

Intelligent transport

Intelligent Wireless Video Camera

Interactive Voice Response System

Interferometry

Intermediate band quantum dot solar cells

Internet Cryptography

Internet Protocol Television

Intervehicle Communication

Introduction to the Internet Protocols

Inverse Multiplexing over ATM

Ion Conductivity Of Solid Oxide Fuel Cell

Iontophoresis

IP Telephony

Ipv6 – The Next Generation Protocol

IR Tracking Robots

Iris Scanning

IRQ Numbers

ISO Loop magnetic couplers

Isolated PSE controller chipset

Jelly Filled Telephone Cables

Jet Stream windmill

Josephson junction

JTAG Boundary Scan

Junction transistors

Klystron tube

Landmine Detection Using Impulse Ground Penetrating Radar

Laplace transform

Laser communication systems

LCD screen harvests energy from indoor and outdoor light

LCOS Technology

LDMOS Technology

Led Wireless

Lenses of Liquid

Leo Satellite

LIDAR (LIght Detection And Ranging) for Automobile/ industrial/military applications

Light-emitting polymers

Lightning Protection Using LFAM

Linear lumped elements

Linear Time-Invariant (LTI)

Line-Reflect-Reflect Technique

Low Energy Efficient Wireless Communication Network Design

Low Memory Color Image Zero Tree Coding

Low Noise Amplifiers for Small & Large Photodiodes

Low Power UART Design for Serial Data Communication

Low Power Video Amplifiers

Low Power Wireless Sensor Network

Low Quiescent current regulators

Low Voltage Differential Signal

Low voltage differential signaling-Electronics

Low-density parity-check code

Lunar Reconnaissance Orbiter Miniature RF Technology Demonstration

LVDTs for proportional control valve applications

LVDTs for the Power Generation Industry

Magnetic Amplifiers

Magnetic Resonance Force Microscopy(MRFM)

Magnetic Resonance Imaging

Magnetoresistance on nanoscale

Maser Device

Mean value theorems

Media Oriented Systems Transport (MOST) Network

Membranes for Control and Energy Harvesting

MEMS CMOS processing

MEMS Microphone

Mesh Topology

Meso Technology

Metamorphic Robots

Microcontroller based Automatic Flush Control Systems

Microcontroller based security system using sonar

Micro-Display

Micro Electronic Pill

Micro Electronics

Micro Fluidic MEMS

Micro Mouse

Micro Robotics

Micro System Technology in Security Devices

Microbial Fuel Cells

Microcontroller based Auto-Dialer Home Security System

Microcontroller based sky car parking system

Microcontroller based talking key pad for blind people

Microcontroller based traffic density controller

Microcontroller based wireless energy meter

Microelectronic Pills

Micro-fabricated Bio-sensors

Micro fuel Cells

Micromechanical System For System-On-Chip Connectivity

Micro-mirror based projection displays

Microphotonics

Microvia Technology

Micro-wave Based Telecommunication

Microwave Superconductivity

MIFG(Multiple Input Floating Gate)

Migration to 4G: Advantages and Challenges

MiliPede Technology

Military Radars

MILSTD 1553B

Mixed-signal IC’s

MOBILE IPv6

Mobile Processor

Mobile Train Radio Communication

Mobile Virtual Reality Service

Modern Irrigation System Towards Fuzzy

Molecular Electronics

Molecular Fingerprinting

Molecular hinges

Molecular Surgery

Moletronics- an invisible technology

Molten oxide electrolysis

Money Pad, The Future Wallet

MOS (metal-oxide-semiconductor)

MOS capacitor

MOS field-effect transistors

MST in Telecommunication Networks

Multithreading microprocessors

Multichannel DC Convertors

Multimedia Messaging Service

Multiple description coding

Multiple integrals

Multisensor Fusion And Integration

Myword – ‘the text editor’

NAND Flash Memory

Nano Ring Memory

Nano-Communication

Nanocrystalline Thin-Film Si Solar Cells

Nanoimprint Lithography

Nanomanipulation

Nanopolymer Technology

Nanosensors from nature

Nanosized Resonator

Nanotechnological proposal of RBC

Nanotechnology

Nanotechnology Assembler Design

Nanotechnology for Future Electronics

Narrow Band & Broad Band ISDN

Navbelt and Guidicane

NCQ: Native Command Queuing

Near Field Communication

Neo -wafer 3d packaging.

Network Coding

Network on Chip

Neural Networks

Neuroprosthetics

New Applications For Carbon Nanotubes

New Generation Of Chips

New methods to power mobile phones

New Sensor Technology

New trends in Instrumentation

Next Generation Internet

Night Vision Technology

Non Visible Imaging

Nonlinear limits to the information capacity of optical fibre communications

NSAP: Network Service Access Point

Nuclear Batteries-Daintiest Dynamos

NVSRAM- Non-Volatile Static RAM

Object-Oriented Concepts

OCT: Optical Coherence Tomography

Optic Fibre Cable

Optical Burst Switching

Optical Camouflage

Optical Character Recognition

Optical Communications in Space

Optical Ethernet

Optical Integrated Circuits

Optical Mouse

Optical networking

Optical packet switch architectures

Optical Packet Switching Network

Optical Satellite Communication

Optical Switching

Optimization of the sorting architecture of rof

Organic Display

Organic Electronic Fibre

Organic LED

Organic Light Emitting Diode

Orthogonal Frequency Division Multiplexing

Ovonic Unified Memory

Oxygen User technology

PAC: Programmable Automation Controller

Packet Cable Network

Packet Switching chips

Palladium cryptography

Paper Battery

Passive InfraRed sensors (PIRs)

Passive Integration

Passive Millimeter-Wave

Passive Optical Sensors

PC – Based OSCILLOSCOPE

PCD: Protein-Coated Disc

Personal Area Network

Pervasive Computing

PH Control Technique using Fuzzy Logic

Photonic Chips

Photovoltaics

PID (Proportional-Integral-Derivative) control

Piezoelectric Actuators

p-I-n diode

Pivot Vector Space Approach in Audio-Video Mixing

Plasma antenna

Plasma Display

Plasma Television

Plastic circuitries

Plastic electronics

PMR ( Private Mobile Radio) Revolution

PolyBot – Modular, self-reconfigurable robots

Polycrystalline Si solar cells

Polymer memory

Polymer Memory

Polytronics

Porous Burner Technology

Portable X-ray Fluorescence Analyzer

Power Consumption Minimisation in Embedded Systems

Powerless Illumination

Power Line Networking

Power of Grid Computing

Power over Ethernet

Power System Contingencies

Power-supply ICs for slim LED-backlit TVs and PC main power systems

Precision IR thermometers

Printable RFID circuits

Printed Memory Technology

Printed organic Transistor

Project Oxygen

Proteomics Chips

Psychoacoustics

Push Technology

QoS in Cellular Networks Based on MPT

Quadrics network

Quantum Computers

Quantum cryptography

Quantum dot lasers

Quantum Dot Lasers

Quantum dots

Quantum Information Technology

Quantum Wires

QXGA – (Quad eXtended Graphics Array)

Radiation Hardened Chips (12)

Radio Astronomy

Radio Frequency Light Sources

Radio Network Controller

Real-Time Operating System (RTOS)-VxWorks

Real-Time Simulation Of Power Systems

Real-Time Speech Translation

Real Time System Interface

Real-Time Image Processing Applied To Traffic

Real-Time Obstacle Avoidance

Recent Advances in LED Technology

Remote Access Service

Remote Accessible Virtual Instrumentation Control Lab

Remote energy metering

Remote Monitoring And Thought Inference

Remotely Queried Embedded Microsensors

Residue theorem

Reversible Logic Circuits

RIFD: Radio Frequency Identification

Robot driven cars

Robotic balancing

Robotic Surgery

Role of Internet Technology in Future Mobile Data System

RPR: Resilient Packet Ring

RTOS – VxWorks(42)

Sampling theorems

Satellite Digital Radio(44)

Satellite Radio

Satellite Radio TV System

SCADA for power plant

SCADA system

Scalable Coherent Interconnect (SCI)

Screening for Toxic Nanoparticles

Search For Extraterrestrial Intelligence

Seasonal Influence on Safety of Substation Grounding

Secure Electronic Voting System Based on Image Steganography

Securing Underwater Wireless Communication Networks

Security In Embedded Systems

Self Healing Computers

Self Healing Spacecrafts

Self Phasing Antenna Array

Sensorless variable-speed controller for wind power generator(67)

Sensors on 3D Digitization

Sensotronic Brake Control

Serial Attached SCSI

Service Aware Intelligent GGSN

Short channel effects/ Latchup in CMOS

Signaling System

Significance of real-time transport Protocol in VOIP

Silicon on Plastic

Silicon Photonics

Silicon Technology

Silicon transistors

Silicon-carbide JFETs for high-end audio applications

Single Photon Emission Computed Tomography SPECT(59)

Slow Light For Optical Communications

Small Satellites

Smart Antenna

Smart Autoreeling mechanism

Smart Cameras in Embedded Systems

Smart Fabrics

Smart heat Technology in Soldering Stations

Smart Note Taker

Smart Pixel Arrays

Smart Quill

Smart rectifiers

Smartwire-DT communication system

SMF BAtteries

SMS based vehicle Ignition controlling system

SOFC, MCFC, Fuel cell performance models

Soft lithography

Software Radio

Software-Defined Radio

SOI Technology (Silicon On Insulation)

Solar Power Satellite

Solar-powered plane -Solar Impulse plane

Solid Electrolyte Dye-Sensitised Solar Cells

Solid-State Lighting

Solid-State RF Switches

Solid-state Viscosity

Souped-Up Mesh Networks

Sources of error in digital systems

Space Quantum Cryptology

Space Robotics

Space Shuttles and its Advancements

Speaking I-Pods

SPECT (Single-photon emission computed tomography)

Spectrum Pooling

Speech Compression – a novel method

Speech recognition: using dynamic time warping

Speed Detection of moving vehicle using speed cameras

Spin Valve Transistor

Spintronics

Spring-Loaded LVDT Position Sensors

STAP: Space-Time Adaptive Processing

Stealth Fighter

Stealth Radar

Steganography In Images

Stereoscopic Imaging

Storage Area Networks

Stream Processor

Super Capacitor

Superconductive Magnetic Energy Storage

Surface Mount Technology

Surface Plasmon Resonance

Surface-conduction Electron-emitter Display (SED)

Surge Protection In Modern Devices

Surround sound system

Swarm intelligence & traffic Safety

Synchronous Digital Hierarchy

Synchronous Optical Network

Synthetic Aperture Radar System

System on chip

Sziklai Pair (configuration of two bipolar transistors)

Tagged Command Queuing

Taylor’s and Laurent’ series

Tele-Graffiti

Tele-Medicine

Teleportation

Telestrator

Tempest and Echelon

Terahertz Transistor

Terahertz Waves And Applications

Terrestrial Trunked Radio

The Architecture of a Moletronics Computer

The Bionic Eye

The future of wireless network infrastructure

The InfraRed Traffic Logger

The making of quantum dots.

The mp3 standard.

The p-n junction

The speedes Qheap: a priority-queue data structure

The Synchronous optical network(SONET)

The Thought Translation Device (Ttd)

The TIGER SHARC Processor

The Ultra Battery

The Vanadium Redox Flow Battery System(35)

Theorems of integral calculus

Thermal Chips

Thermal infrared imaging technology

Thermography

Third Generation Solid State Drives

Three-dimensional integrated circuit.

Time Division Multiple Access

Time Reversal Terahertz imaging

Tiny Touch Screens

Token ring – IEEE 802.5

Tools and techniques for LTI control system analysis (root loci, Routh-Hurwitz criterion, Bode and

Nyquist plots)

Toroidal surface-mount power inductor for consumer electronics devices

Touch Screens

Tracking and positioning of mobiles in telecommunication

Transient Stability Assessment

Transistors and Moore’s law

Transparent Electronics

Transparent LCD displays

Treating Cardiac Disease With Catheter-Based Tissue Heating

Trends in appliance Motors

Trends in Mobiles & PC’s

Tri-Gate Transistor

Trisil – electronic component

TTL (Transistor–transistor logic)

Tunable lasers

Tunnel diode

Turbo codes

U3 Smart Technology

Ultra Conductors

Ultra-high frequency

Ultra Nano Crystalline Diamond

Ultra Small MCUs

Ultra Wide Band ( UWB)Sensors

Ultra-wideband technology

Ultra-Wideband

Ultrabright white SMD LEDs

Ultracapacitors

Ultrasonic Motor

Ultrasonic Trapping In Capillaries

Ultraviolet

Uniform linear array

Unijunction transistor

Unintentional radiator

Universal Asynchronous Receiver Transmitter

Unlicenced Moblie Access ( UMA) technology

USB Power Injector

User Identification Through Keystroke Biometrics

Utility Fog

UWB SENSORS: FOR EXCELLENT HOMELAND SECURITY

Vacuum Electronics For 21st Century(50)

Vacuum tube

Valence band

Vector field

Vehicle-to-Grid V2G

Vertical Cavity Surface Emission Lasers

VHSIC hardware description language

Vintage amateur radio

Virtual circuit

Virtual ground

Virtual Keyboards

Virtual Reality Visualisation

Virtual Retinal Display

Virtual retinal display (VRD) Technology

Virtual Router Redundancy Protocol (VRRP)

VIRTUAL SURGERY

Virtual worlds come to life

Visual Neuro Prosthetics

visual prosthetic

VLSI Computations

Voice morphing

Voice over internet protocol

Voice recognition based on artificial neural networks.

VT Architecture

VXI bus architecture

Wafer Level -Chip Size Packaging (WLCSP) Technology

Wardenclyffe Tower

Warner exemption

Wave impedance

Wave propagation

Waveguide antenna

Wavelength division multiplexing

Wavelength Division Multiplexing

Wavelet transforms

Wavelet Video Processing Technology

Wearable Biosensors

Wearable Technology innovations in Health care

Web-based home appliances controlling system

Web-based remote device monitoring

Web camera motion control

Welding Robots

Wheatstone bridge

Whip antenna

White facsimile transmission

White LED: The Future Lamp

WIDEBAND – OFDM

Wideband modem

Wideband Sigma Delta PLL Modulator

Williams tube

Wink pulsing

Wireless access point

Wireless Application Protocol

Wireless Charging Of Mobile Phones Using Microwaves

Wireless communication

Wireless community network

Wireless DSL

Wireless Fidelity

Wireless Integrated Network Sensors (WINS)

Wireless Intelligent Network

Wireless LAN Security

Wireless LED

Wireless Microserver

Wireless Mimo communication systems.

Wireless Networked Digital Devices

Wireless power transmission.

Wireless Video Service in CDMA Systems

Wisenet (Wireless Sensor Network)

Worldwide Interoperability for Microwave Access

XLR connector

Zener diode

Zero dBm transmission level point

Zero-dispersion wavelength

Zero-Energy Homes

ZIF (Zero insertion force)

Zigbee – zapping away wired worries(13)

Zigbee Networks(86)

Zipper noise elimination by the digital volume control

z-transform

This is all about Electronics engineering presentation topics for students, academicians and researchers.

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50+ Seminar Topics for ECE Students

• September 13, 2017
• By Administrator

A comprehensive list of Seminar Topics for ECE Students is given in this page. A Technical Seminar Presentation is an important part of the Engineering curriculum along with the Project .

A technical presentation on a seminar topic will help an Engineering student to understand the topic well and also gain knowledge about that topic by doing background research. Students can also improve their communication, public speaking and presentation skills by presenting a good seminar topic.

But, most engineering students find it difficult in choosing a good seminar topic for presentation. So, to help out all the students, here is the list of latest seminar topics for ECE (Electronics and Communication Engineering) students.

NOTE : Feel free to add any interesting topics in the comments section to help out other students.

Latest Seminar Topics:

•   Organic Light Emitting Diodes (OLEDs):   OLED is latest technology in electronics. They are organic as they are made out of carbon and hydrogen. A series of thin organic films are placed between two conductors. As they emit light, they don’t need back light. Hence they are thinner and more efficient.
• Pill Camera:  Pill camera is the pill shaped camera that can be swallowed and is used in the treatment of cancer ,ulcers and anaemia. This Pill can travel into our without causing any harm and takes the images of intestines and send it to the receiver.
• Plastic Solar cell technology:   Solar cell technology can absorb the sunlight and convert it into useful electrical energy. But on the cloudy this cell cannot work. So plastic solar cell was invented. This can utilise suns energy even on a cloudy day.
•  The Bio-Chip Technology:   The bio-chip technology is the emerging technology these days. This paper explains about using it for disease diagnosing ,detecting bio terrorists etc.
• Iris Recognition as A Biometric Technique:   This paper explains about iris recognition algorithms and the results of the experiments conducted on many iris.
• E-Waste : This paper provides brief explanation about E-waste. E- Waste is going to be generated in large quantity due to the evolution of technology. This paper also explains about recycling of e-waste.
• Smart Note Taker : Smart note can be used to take the note of everything using a pen and the data is stored in the memory of the pen. It can also take quick note of telephone conversions and it also aids blind people.
• Optical Ethernet:   Optical Ethernet extended LANS to MANs and WANs. This PPT explains about this optical Ethernet technology.
• IBOC Technology:   IBOC stand for In Band On Channel. This is a method of transmitting digital and analogue radio signals on the same frequency without allocating other spectrum.
• Honeypots:   Honey pot is a well designed system. It attracts the hackers and monitors the changes done by them to the system.
• E-Textiles:   This paper explains the e-textiles technology. It explains the challenges faced, for integrating the electronics into the fabric.
• Metamorphic Robots:   This paper explains the implementation and design of metamorphic robots.metamorphic robot is a collection of independent mechatronic modules.
•  Spectrum Pooling:   The Electromagnetic Wave bandwidth or Spectrum is an important, precious and a limited resource that must be utilized very carefully.  Spectrum Pooling is a strategy of sharing the Radio frequency between two systems without any disputes.
• Arm Based Embedded Web Server:   Here an Arm Processor based embedded web server was designed. This is used for monitoring the agricultural applications.
• Multipurpose Robot : Here a multipurpose robot is designed.This multipurpose robot can be used in civil and military applications. It can handle many military functions like spying enemy, providing night security, etc and civil functions like detecting gas leakage,rescue operations during disasters etc.
• Microbivores:   Nano Technology is expanding to all fields even medicine. Microbivores are nano robots that are injected in patients for a wide range of antimicrobial purposes.
•   Barcodes:   Barcodes can be seen every where these days. Barcodes are used for identification in business process.They reduce the human error.This paper explains the basics of barcode technology.
• Audio Spotlighting: Audio spot lighting indicates projecting the audio to a particular like light so that no can hear it.It can be delivered to a particular listener or to an area.
• Polytronics :  Polytronics refers to polymer electronics.They play a major role in flexible electronics.
• Infrared Plastic Solar Cell:   Energy produced from coal, gas, water will not last as the requirement for energy is always increasing. Solar Energy has been considered as the cost effective solution. Infrared Plastic Solar Cells are made of conducting plastic (polymer) with power increased conversion efficiency.
• Paper Battery : Paper battery is a ultra thin energy storage device which is very flexible. This paper shows the structure and applications of a paper battery.
• Easy-To-Swallow Wireless Telemetry:   This paper explain about the electronic pill which can be swallowed into the body for knowing about certain functions of the body parts.
• Bio Battery:   The bio battery explained here is a boon to environment.It is an eco friendly device that receives energy from microorganisms etc.
• Solar Tree:   Solar tree is a collection of solar panel with automatic tracking technology.They are generally arranged on the roads so that they can be used to power advertising hoardings.
• Wearable Photoplethysmographic Sensors :  This paper summarises the wearable sensors and their functioning in rehabilitation.
• Footwear-Based Wearable Systems:   Wearables is a technology where fashion meets electronics. Footwear based Wearable System helps in navigation, medical applications, fitness etc.
• Flexible Electronic Skin:   This article shows a flexible electronic skin which is grown in the laboratory and is attached to the user skin.This is like a tattoo and it monitors different parameters like temperature, heart rate,etc
• Face Liveness Detection:   This paper proposes a single image-based face liveness detection method for discriminating 2-D paper masks from the live faces.
• Eye Directive Wheelchair : This chair aids the people with physical disabilities.The chair is controlled by the eye direction of the user.When the user looks in particular angle chair is controlled according to that angle.
• Lip Contour Detection:   This paper explains two algorithms for extracting the lip from the face.It is useful in many computer vision applications.
• Kite Technology:   Among the renewable energy resources wind energy is increasing because of its high strength.This paper provides different affects of aerodynamics at high altitude and at different angles.
• iMouse : I mouse is an integrated mobile surveillance and wireless sensor system is used for online real time monitoring and event driven etc.
•  Stratellite:   Startellite is an air ship employed at high altitude in stratosphere.This acts like a satellite but unlike satellite it is not placed in the orbit.
• Polymer LED (PLED):   PLED or Polymer Light Emitting Diode is a new technology in displays: PLED Displays are suitable for large array displays.
• Surface Mount Technology:   Surface mount components are those which are placed directly on the surface unlike through hole.Using of SMT components reduces the space used than through hole.
• Data Loggers:   Data loggers are used widely in industries.They collect the information such as temperature ,humidity etc.
• Third Generation Solid State Drives:   Solid state devices are those which do not have any moving parts and they emulates the magnetic hard disk drives.
• Smart Dust : Smart Dust is an tiny device that can be held in the environment to monitor the real world phenomena.
• Plasma Display:   This paper explains the working of a plasma display.One can see the plasma display in TVs.
• E-nose:  E nose is an electronic nose that detects odours,vapours and gases.
• FPGA in Space:  FPGA (Field Programmable Gate Arrays) are being used in space applications for over a decade but the results are mixed. FPGA Vendors (like Xilinx and Atmel) started working on Single Event Upset (SEU) lessening technologies in FPGAs.
• Integrated Power Electronics Module:  Technological improvements in power electronics have lead to achieve high power density and low volumetric profile. Power Electronics Module is a key system in any electronics system.
• Image b ased Authentication System: Image based Authentication System is an alternative to the traditional username and password type authentication. This type of authentication can be used as an independent system or along side the password based authentication for improved security and usability.
• Security in Embedded Systems: Security in Embedded Systems like Mobile Phones, Network Switches and Routers, Sensors, Smart Devices etc. is of utmost importance as they need to transfer, store or process sensitive information. New Security measure will not only involve protocols and cryptography but also the microarchitecture, design method, system architecture etc.
• Embedded Systems and Autonomous Car: Embedded Systems are a collaboration of Hardware and Software. An Autonomous Car is a fully computerized car, which simulates a human driver and controls the vehicle on road. Development of Autonomous Cars shows the technical brilliance and advancements in the field of embedded systems.
• Wireless Communications from High Altitude Platforms: The World is shifting from wired networks to wireless at a rapid pace. People want high speed wireless communication, where they do not have to hassle with bunch of wires. Wireless Communication using High Altitude Platforms (HAP) enables remote villages and rural areas to access high speed communication.
• Piezoelectric Energy Harvesting: The demand for energy is always increasing and we must start looking for alternative sources of energy. Piezoelectric Energy Harvesting is an interesting method of generating energy that can act as an alternative to the traditional method of energy generation. The mechanical strain in a piezoelectric object is converted in to electrical energy.
• Spintronics (Spin Electronics): Spintronics or Spin Electronics is an emerging topic in the area of Physics where the spin of electron is used alongside the charge of the electron to carry information. This exploitation of electron spin will open opportunities in nano – electronic devices. Spintronics is also known as Magneto Electronics, as the spin of the electron is controlled by an external magnetic field.
• Designing Low-Energy Embedded Systems: The designers of Embedded Systems are packing more features within the same real estate. This lead to large power dissipation and hence researchers and designers are working on Low Power Embedded Systems in order to increase the battery life.
• Thermoelectric Generator: The interest for sustainable energy is increasing as consumers are ready invest in generating electricity at their home as an alternative to the main power. Thermoelectric Generator is one such device (or a system) which generates electricity from waste heat. This promising technology can solve power crisis at the consumer level.

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Seminar Topics for Electronics and Communication Engineering Students

The seminar presentation is an important aspect of engineering students to gain more knowledge and strong skills for their brighter careers. Many electronics and communication engineering students find it extremely difficult to choose seminar topics. This article provides a list of the most popular and latest seminar topics for electronics  and communication students. Choosing the best ppt topics is important not only from an academic point of view but also from the knowledge point of view because the selection of the best topics improves the knowledge of the students about the latest technology in an embedded system . This article lists the latest easy seminar topics for electronics and communication engineering students.

Latest Technical Seminar Topics for Electronics and Communication Engineering Students

Here is a list of the latest technical seminar topics for ECE students in choosing their seminar topic in the field of electronics and communication engineering.

Organic Light-Emitting Diodes (OLEDs):  Download

The OLED stands for organic light-emitting diode , which looks like the same as a light-emitting diode. The OLED is the latest technology in electronics which is used in many electronic devices such as TV screens, computer monitors, and portable systems such as mobile phones. The OLEDs consume low power and a combination of great colors. The OLEDs get first place in Seminar topics for electronics and communication.

Bluetooth Technology is a technical seminar topic:  Download

Bluetooth technology is a high speed, low powered wireless technology that is used to transmit and receive data serially. The Bluetooth transceivers consist of many devices such as mobile phones, computers, and other electronic devices. Bluetooth technology is one of the best seminar topics for electronics and communication students. In the embedded system many of electronic project applications , controlling by Bluetooth technology. The Bluetooth technology gets second place in Seminar topics for electronics and communication.

Surveillance Camera Control System:  Download

This is the latest technology to provide security in places like roads, shops, and colleges to capture visuals for monitoring purposes. In case of robbery, the recorded video or visuals may provide some clues about the heist. These surveillance cameras are fixed devices, and therefore, 360-degree coverage is not possible with such systems. However, 270-degree coverage is possible with these cameras. This is the best technical seminar topic for ECE students.

Biometric Voting Machine:  Download

The biometric system introduced new technology in the embedded system to develop a biometric voting machine which is used to avoid the rigging in the elections and enhanced the accuracy and speed of the process. This is the best paper presentation topic for ECE students.

Secure Symmetric Authentication For RFID Tags:  Download

Radio Frequency Identification System is a technology-based identification system that helps to identify objects just through the tags attached to them, without requiring any light of sight between the tags and the tag reader. All that is needed is radio communication between the tag and the reader. This is the best paper presentation topic for ECE students.

Plastic Solar cell technology:  Download

Solar energy is the most readily available source of renewable energy by which electricity is produced by solar panels. The solar panel consisted array of solar photovoltaic cells that convert the sunlight into usable electricity. The solar panels placed on the roof of homes or freestanding remote locations.

Wireless Power Transmission Technology:  Download

Traditional wired power transmission systems usually require lying of transmission wires between the distributed units and the consumer units. This produces a lot of constraints as the cost of the system- the cost of the cables, the losses incurred in the transmission as well as in distribution. Just imagine, only the resistance of the transmission line results in loss of about 20-30% of the generated energy.

Sensor Technology:  Download

Sensor technology plays an essential role in electronic system design. A Sensor is a device that responds and senses some type of input from both the physical or environmental conditions, such as pressure, heat, light, etc. The output of the sensor is generally an electrical signal that is transmitted to a controller for further processing.

Nanotechnology in Electronics:  Download

Nanotechnology is one of the new technology in electronics , which is used in different application areas such as medicine and space technology. Nowadays,  nanorobots play an essential role in the field of Bio-Medicine, particularly for the treatment of cancer, cerebral Aneurysm, removal of kidney stones, etc.

Latest Technology in Embedded System: Download

The embedded system is a computer system, where software is embedded into the hardware to control and access the data in electronic-based systems is known as an embedded system. The embedded system involves engineering, electronics mini-projects, and main projects. This system may be either an independent system or a larger system. This is the best paper presentation topic for ECE students .

FSO (Free Space Optic) Technology

The technology like FSO stands for free space optic is wireless communication technology. It is used to transmit infrared signals or modulated visible signals through the environment to attain optical communications similar to fiber. In FSO communication, lasers are used for transmitting the data, but in place of enclosing the data flow within a glass fiber, the data can be transmitted throughout the air.

The working principle of FSO is the same as to IR TV remote or wireless keyboard. Free Space Optics (FSO) transmits invisible, light beams through low power IR lasers in the frequency of the TeraHertz spectrum. In the FSO, the light beams are sent through a laser light that is focused on very responsive photon detector receivers.

These are telescopic lenses capable of collecting the photon stream & transmit digital data includes a mix of video images, Internet messages, radio signals otherwise computer files. FSO systems operate over several kilometers of distance if there is a clear line of view between the source & the destination with sufficient transmitter power.

Silent Sound Technology

Whenever we are traveling on the bus or train, speaking on the phone is somewhat difficult due to the disturbances. So we speak very loudly to receive our voice to another person on the phone. For this, Silent sound technology is implemented to speak on the phone while traveling.

The main function of this technology is to notice each lip movement & converts the electrical pulses internally into sound signals. These signals can be transmitted by removing the noise in the surroundings. This technology is very helpful for the people who cannot speak clearly due to noise & allows them to make noiseless calls without troubling others.

Instead of making any noises, your earpiece will decode the mouth movements which makes by determining muscle action, after that converts this into speech listen to the other side of the person on the phone. This translation supports different languages such as English, German & French. However, for the Chinese languages, different tones have different meanings

Bionic Eyes

The bionic eye is an artificial eye and the main function of this eye is to provoke visual vibrations within the human brain by motivating different elements of the optic nerve directly. Other investigational places can excite the ganglia cells over the retina. So, there is more attention is given to the artificial retinas for making. There are different kinds of artificial eyes are designed but there is no typical model. So scientists are working on different kinds of ideas.

The prototype of this eye is 2 millimeters across & includes 3,500 micro photodiodes that are arranged at the back of the retina. This mini solar cell collection can be designed to change the normal beam to electrical signals. These signals are sent to the human brain through the residual well parts of the eye retina.

An electromagnetic bomb (E bomb) is one kind of weapon. This weapon utilizes a strong electromagnetic field for making a concise energy pulse that has an effect on electronic circuitry without damaging humans otherwise buildings. This electromagnetic bomb generates the electromagnetic shock signals to damage the electronic circuit as well as enemy forces communication networks.

Extremely high levels will damage electronic circuitry totally, therefore detaching any kind of machine by using electricity like radios, computers & ignition systems within vehicles. The E-bomb market is influenced by high power microwaves across the world. The main application of this is in the military sector to target the mobile of enemies, naval vessels & mobile radars using communication systems, electronic systems & air defense systems.

At present, the demand for GPS based E-bombs is growing quickly because these bombs lead conventional weapons for tactical air attacks. These bombs are mostly equipped with guided weapons using electronic sensors, control systems & changeable flight fins to provide guidance capacity through more precision. In the arrangement of the military, this e-bomb weapon plays a major role in dissimilar military relationships. Nuclear weapons are also improving the expansion of these bombs in the market around the globe.

Energy-Efficient Methods for 5G Networks

At present, communication technology was developed with the corresponding necessity of optimization within energy usage is also rising. So, 5G technology is developed, so that the importance of energy efficiency for wireless networks also realized even more.

In this project, different energy issues are addressed to provide an investigation of a variety of methods that will be accepted within the 5G networks for enhancing the device’s energy efficiency. This system focuses on different areas for enhancing energy efficiency like improvement of energy efficiency with radio access methods such as concurrent wireless energy, transfer of power, improvement of energy-efficient using mini cells & enormous MIMO, improvement of EE through relays.

Several methods are used to make 5G technology energy efficient These methods are categorized into three groups. These groups use architectures of energy-efficient, resource allocation of energy-efficient otherwise employing energy-efficient radio technologies. These methods are for power optimization by integrating the 5G network.

Night Vision Technology

Night vision technology can observe in low light situations. For humans, night vision capacity is very poor as compared with animals. So a night vision technology is implemented to overcome this problem. By using this technology, observing a person who is standing 183 meters way in a cloudy night or less light. This device is mainly designed for military people.

This technology is used mainly by state & central agencies for providing security, inspection, search & rescue. This equipment was developed from large optical equipment within low weight goggles using the image intensification based technology. There are two technologies are used for night vision like thermal imaging and image enhancement. Night visions are available in two types like biological type and technology type.

Communication through Visible Light

VLC systems (Visible Light Communication) use visible light for communication to occupy the range from 380 nm – 750 nm that is equivalent to 430 THz – 790 THz of a frequency spectrum. The low BW issue within RF communication can be determined in Visible Light Communication due to the accessibility of the huge bandwidth. The receiver of the VLC simply gets the signals if they exist in a similar room to the transmitter.

Thus, the receivers outside of the VLC source room are not capable of receiving the signals. So, it has the resistance to safety problems that happen within the RF communication systems. Whenever the source of visible light is used for both illumination as well as communication, so, it conserves an additional power that is necessary for RF communication. VLC provides several advantages like high bandwidth, non-licensed channels & low power usage.

This kind of communication is used in Li-Fi, robots within hospitals, communication from vehicle to vehicle; communication underwater, signboards for displaying information. VLC is used within vehicular communication intended for warning of the lane change, sensing of pre-crash & violation warning of the traffic signal for avoiding accidents.

For these applications, low latency communication is required that is provided through VLC due to its higher BW & simple installation due to the existence of vehicle lights & traffic signals.

OFDM Implementation through VLSI

A multi-carrier system like OFDM is used to encode the data bits for numerous sub-carriers and sends simultaneously in time and it uses optimum bandwidth. An OFDM symbol can be formed by a set of orthogonal sub-carriers. To avoid inter-symbol interference (ISI) because of multi-path; the symbols of successive OFDM are divided using a guard band. So this band will make the system of OFDM resistant to the effects of multi-path.

Even though this system within the theory has been in existence for a lengthy time, current developments within the technologies like VLSI & DSP have made it a possible option. This project implements an OFDM using VLSI for especially the 802.11a based OFDM system. But, the same reflections would be useful in executing any OFDM system within VLSI.

In this multi-carrier system, data bits can be encoded to several subcarriers, not like single carrier systems. All the frequencies are sent simultaneously in time and this system provides numerous benefits over an only carrier system such as equalization of the simpler channel, relaxed timing gaining constraints & better multi-path affect immunity. However, it is more vulnerable to local frequency offset & non-linearities of radio front-end.

Transmission of Microwave Power

An SPS or solar power satellite is one kind of renewable energy system. This satellite is used to change the energy of solar into microwaves. These microwaves are transmitted to a beam and receive antenna on the globe so that it converts into normal Electricity.

The first concept of SPS was proposed in the USA, in 1968. At present, this concept was attracted by the people to enhance public attention because a promising energy system is used to determine the problems of energy & the global environment. This solar power satellite is a dirt-free, secure & large-scale electric power source.

The ever-increasing demand for faster information transport and processing capabilities is undeniable. Our data-hungry society has driven enormous progress in the Si electronics industry and we have witnessed a continuous progression towards smaller, faster, and more efficient electronic devices over the last five decades.

The scaling of these devices has also brought about a myriad of challenges. Currently, two of the most daunting problems preventing significant increases in processor speed are thermal and signal delay issues associated with electronic interconnection.

Detection System of Life using L & S-band Microwaves

In embedded systems, a new revolutionary is a life-detection system based on L&S microwave bands. This system detects human beings who were hidden under the buildings due to the earthquake, so thousands of people were killed due to the earthquake.

By implementing this detection system, the death rate has been decreased to a high amount because a huge percentage of death occurs because of the earthquake. The microwave signals’ benefits are completely used within the system. In this system, the microwaves of L & S bands are mainly used for detecting the living body.

Transmission of Energy for Artificial Heart

The artificial heart works like a normal heart. It includes four chambers for supplying blood. This kind of electrical circulatory helps the devices like whole artificial heart otherwise ventricular help devices usually employ a BLDC (brushless dc) motor like their pump. They need 12 to 35 Watt power for operating & this power can be supplied through a dc-dc converter & moveable battery pack.

FBG – Fiber Bragg Gratings

Fiber-optic communication (FOC) is one kind of technique for transmitting data from one area to another through transmitting light pulses using an optical fiber. The electromagnetic carrier signal can be formed by light that is adjusted to hold the data. The main advantage of this fiber optic communication is to provide a very low loss, allows long communication between repeaters otherwise amplifiers.

It has high data carrying capability inherently so that number of electrical links would be necessary to change a single high BW fiber optic cable. Another benefit of fibers is that it can transmit the data for long distances. These cables experience efficiently no crosstalk, on the contrary to some kinds of electrical transmission lines.

Security of WLAN (Wireless LAN)

At present, the fastest-growing technology is Wireless local area networks (WLANs) which use wireless fidelity (Wi-Fi) standards to use in offices, schools, homes, and businesses.  They give mobile access to the Internet for enterprising networks. So operators can stay connected away from their desktops. These networks run fast whenever there is no access to wired Ethernet infrastructure.

These are designed to work through less effort without depending on particular commercial installers. The advantages WLANs mainly include, mobile users can be constantly connected to their most useful applications as well as data. Mobile users can be more creative if they have nonstop access to e-mail, immediate messaging & other applications;

Intervehicle Communication

The IVC or Intervehicle Communication provides ITS (intelligent transportation system) & assistant services for the drivers as well as passengers. This system reorganizes the vehicle’s operation, traffic of the vehicle can be managed, helps drivers by security, toll collection & other information, for travelers. In this proposed system, VANETs or Ad hoc Networks are used like a wireless network that suddenly formed among moving vehicles inbuilt with wireless interfaces that use communication systems for short to medium range.

A VANET is a type of ad hoc network for mobile users to provide communications between near vehicles, in between two vehicles & close to the fixed device on the roadside. These networks are also called VANETs which are believed like one of the ad-hoc n/w real-life application that allows communications between close-by vehicles.

Mobile Train Radio Communication

A separate and temporary radio channel is used in each mobile to speak with the cell site. At a time, this cell site speaks with several mobiles through a single channel for each mobile. These radio channels use a set of frequencies for communication purposes. One frequency is used for transmitting. One for transmitting the data from the site of cell & remaining one is to get the calls from the operators. The communication used between mobile units is half-duplex otherwise full-duplex.

In a half-duplex case, the communications among the mobile units are not all at once, so listening and talking cannot be done at a time, whereas in full-duplex, the communication can be done at a time. Once communications among mobile units are in a cell & if the same is in half-duplex, after that it uses simply one set of frequency. If the same is full-duplex, then a requirement of frequency pair shall be two.

Whenever a mobile unit is interacting through a mobile unit at the exterior of the cell, after that the necessity of a set of frequency shall be single for each cell for both the communication. Therefore, the resources of the system are used more if the mobile units converse with each other within the full-duplex form.

HART Communication

The full form of HART protocol is “Highway Addressable Remote Transducer”. This protocol uses FSK (Frequency Shift Keying) to place over digital communication signals. This allows field communication is two-way. This protocol converses at 1200 bps without interrupting 4 to 20mA signal. This signal permits a host application to obtain two otherwise more digital updates for each second using a smart field machine.

This protocol gives two instantaneous communication channels like the 4mA to 20mA based analog & a digital signal. This signal converses the primary measured value through the 4mA to 20mA current loop. Extra device data can converse through a digital signal.

HART Communication mainly occurs among two devices which are enabled through HART. The communication mainly occurs through typical instrumentation wire, standard wiring & termination practices.

Telecommunication Networks

The telecommunication network is one kind of transmission system that allows the data to be sent in the form of analog otherwise digital in between several different sites through optical or electromagnetic signals. This data includes audio, video data otherwise some other kind of data. These networks are based on wired otherwise wireless communications. The best examples of these networks are the mobile n/w, telephone landline n/w, and internet & cable TV networks. In two-way speech transmission, different kinds of phone networks are used.

Previously, data transmission can be done based on the wire. The speech signals can be transmitted through analog, electromagnetic signals. At present, the phone networks are digital and the network can be landline or mobile.

High Altitude Platforms for Wireless Communication

At present, most of the communication can be done wirelessly at a quick speed. Most people use wireless communication with high speed to transmit the data so that they do not irritate by using wires. The communication with HAP (High Altitude Platforms) allows rural areas & remote villages to allow communication with high speed.

HAAPS – High Altitude Aeronautical Platforms

The HAAPS (High Altitude Aeronautical Platform Stations) is one kind of technology used to provide services like wireless narrowband, broadband telecommunication & broadcasting services using aircraft or airships. The high-altitude aeronautical platforms work at altitudes among 3km to 22 km.

This covers a service region up to 1000 km width based on the smallest elevation angle that is allowed from the location of the user. These platforms may be airships or airplanes & manned otherwise un-manned through autonomous processes coupled through remote control from the earth. HAAPS is a solar-powered as well as unmanned airship otherwise airplane that is capable for long fortitude on-station probably several years.

Blue Eyes Technology

Blue Eyes technology is used to monitor as well as record the basic physiological factor of the operator. And, saccadic activity1 is the most significant parameter that allows the system to check the position of the visual attention of the operator through head acceleration that comes with a huge displacement of the visual axis.

The difficult situation in the industry can make a risk of exposing the worker to poisonous materials, which can influence his circulatory, cardiac & pulmonary systems. Therefore, on the basis of the plethysmographic signal received from the surface forehead skin, the system calculates blood oxygenation & heartbeat rate.

Optical Mouse

An advanced computer pointing device like an optical mouse can be built with an optical sensor, LED & DSP (digital signal processing) instead of the fixed mouse ball as well as the electromechanical transducer.

The movement of the mouse can be detected through changes within reflected light instead of interpreting the movement of an undulating sphere. This mouse takes the snapshots of the microscopic of the functioning surface at a rate of above 1,000 images for each second.

If this mouse is moved, then the image will change. The smallest abnormalities within the exterior can generate images sufficient for the DSP & sensor to produce functional movement data. Some surfaces don’t permit the DSP & sensor to work correctly as the abnormalities are too tiny to be noticed. An unfrosted glass is the best example of a surface of poor optical-mousing.

Actually, an optical mouse does not require cleaning, as it doesn’t include moving parts. This feature also removes mechanical exhaustion. If the mouse device is used with a suitable surface, then noticing is more exact as compared through any pointing device with the older electromechanical design. This is a benefit in the applications of graphics & it makes the operation of computers easier.

MAGLEV Trains

MAGLEV train is the fastest transportation in the world. This kind of transportation works on the Magnetic Levitation principle. The main difference between the normal train and the MAGLEV train is the usage in different countries, speed, etc. The technologies used in this train to drive are Electro-dynamic Suspension & Electromagnetic Suspension. These trains are environmentally friendly.

AR (Augmented Reality) Technology

Augmented Reality (AR) technology works by adding the real world & virtual world to observe the graphics in a 3D format. Therefore, extensively generated graphics in this technology will improve the perception of everyone’s in the real world. The essential components used in this technology are displays, orientation techniques, tracking, software, etc. AR technology is used in games, education, defense, security, entertainment, medical, etc.

Electronic Ink Technology

In this technology, a method is used to type on screens using digital ink. This ink can be designed with three components like millions of microcapsules, the ink material current in an oily type to load the microcapsules, and pigmented chips which are charged negatively otherwise balls to float within the microcapsules.

Electronic-ink looks like the normal ink, although they are dissimilar. It can also be used on a similar material where normal ink is applied. Even though, different manufacturing companies will make the E-ink in different methods.

Photonic Integrated Circuit

The PIC or Photonic Integrated Circuit is a compound chip that uses several optical devices to make an only photonic circuit.

The major dissimilarity between a photonic IC & an Electronic IC is, the photonic IC is analogous to an Electronic IC. There are several optical devices such as multiplexers, optical amplifiers, optical lasers, de-multiplexers, detectors, and attenuators that are placed on to a PIC. This device can be used for a large scale operation by integrating hundreds to thousands of optical devices on to this device.

The list of Technical Seminar Topics for Electronics and Communication Engineering Students are listed below. These seminar topics are very useful for ECE students.

• System On-chip Design Challenges
• Plastic Solar Cells: Implementation of Nanorod and Screen Printing Technology
• Optical Computers (Future of Technology)
• Bio-Chip Technology
• Space Solar Power
• The evolution and implementation of the “ARM” Architecture
• Multi-core processors and its advantages
• Haptic Technology
• Next-Generation Wireless Communication
• Window Based Embedded System
• Iris Recognition as A Biometric Technique
• Speech Signal Analysis and speaker signal recognition by signal processing
• Wireless Technologies
• Weapon Detection System Using  Digital Image Processing
• Sniffer Mobile Phones
• VLSI Logic Circuits Using a Silicon Transistor
• Electronic Wireless Body Scanning System
• Zigbee Wireless Mesh Networking
• Accident Detection System using Mobile Phones
• Internet Broadband over Electronic Lines
• Electronic Based Satellite Communication System
• How Night Vision Work Digital Image Processing
• Diamond-The Ultimate Semiconductor
• Ultra Wide Band Technology Creating a Wireless World
• Bluray and HD technologies
• 3G Mobile Communication Technology
• Brain Finger Print Technology
• Smart Antenna Technology
• Smart Cord Security System
• Zigbee Wireless Communication
• WI-MAX Technology
• Compressed Image Processing
• Radio Frequency Identification
• Satellite For Amateur Radio
• 3D Integrated Circuits
• Wireless Smart Cars in Embedded System
• Wireless Optical Communication
• Artificial Hand Using Embedded System
• Embedded NDE With Piezo Electric Wafer Active Sensors In Aerospace Application

Therefore, This is the list of the latest seminar topics for ECE (electronics and communication engineering) students for seminars. We believe that these Seminar Topics for Electronics and Communication list will help engineering students in choosing their seminar topics.

Don’t Miss: Electrical and Electronics Projects for Engineering Students .

Apart from this, we have a simple task for our readers and students: from the above list of seminar topics, you are requested to select the seminar topics of your choice, and then do mention them in the comment section given below. Also, we request our readers to write their queries and give their feedback in the comment section given below.

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Seminar Topics For Electronics Students & Professionals

This list contains short-listed top Seminar topics and guides that an Electronics Engineering Student or Professional can use to present in various Seminars, white Paper Presentations, and institutes.

The list with brief introductions provides an overview of each seminar topic and offers a glimpse into the areas of exploration and discussion within the field of electronics.

1. Internet of Things (IoT) in Electronics

This topic explores the integration of IoT technology with electronic systems and devices, enabling connectivity, data exchange, and automation. It covers the potential applications, benefits, and challenges associated with implementing IoT in the electronics industry.

You can also check top IoT Projects and Ideas .

2. Artificial Intelligence in Electronics Design and Manufacturing

This topic focuses on the use of artificial intelligence (AI) techniques in electronics design and manufacturing processes. It discusses how AI algorithms and machine learning can optimize design, enhance productivity, and improve quality control in the electronics industry.

3. Embedded Systems and Real-time Operating Systems (RTOS)

This topic delves into embedded systems, which are specialized computer systems designed to perform specific tasks. It covers the fundamentals of embedded systems, the role of real-time operating systems, and their applications in various electronic devices and industries.

4. Nanoelectronics and Nanotechnology in Electronics

This topic highlights the significance of nanotechnology in electronics. It explores nanoscale materials, devices, and manufacturing techniques that contribute to the development of smaller, faster, and more efficient electronic components.

5. Robotics and Automation in Electronics Industry

This topic focuses on the use of robotics and automation in the electronics industry. It discusses industrial robots, automated assembly lines, and the role of robotics in manufacturing, quality control, and process optimization in electronics production.

6. Microstrip Antenna

Microstrip antenna is one of the most popular types of printed antenna. These play a very significant role in today’s wireless communication systems. In this article, we have explained microstrip antenna, their polarisation and radiation pattern, applications, and upcoming trends.

7. Harvesting Radio Frequency Energy

Antennae are constantly transmitting energy around us. What if there was a way of harvesting radio frequency energy that is being transmitted constantly?

8. Solar-Powered Irrigation Systems

Solar-powered water pumping systems can find application in town water supply, livestock watering, and irrigation. The solar-powered irrigation system is an application of a solar-powered water pumping system used in paddy fields, and gardens for watering plants, vegetables, etc.

9. RFID Technology

RFID technology allows the non-contact transfer of information (much like the familiar barcode), making it effective in manufacturing and other hostile environments where barcode labels could not survive. Take a look at how it works and what are its pros and cons.

Transition to 5G mobile communications is expected to include offloading traffic to unlicensed spectrum, improved carrier aggregation (up to 32 carriers), massive MIMO, and support for a radio optimized for the low-end of the IoT market.

Light Fidelity is a light-based Wi-Fi that can transmit data more swiftly, safely, and securely, thereby holding immense potential for multiple domains.

12. 7nm IC Technology

Commercial production of 7 nm IC technology is still at a development stage even after being developed in early 2000. What are the challenges involved?

13. Frequency Spectrum Analysis

How does a frequency spectrum analysis take place? What are the parameters to consider while performing it? Check it out now.

14. Watchdog Timer

A Watchdog Timer (WDT) is a hardware that contains a timing device and clock source. A timing device is a free-running timer, which is set to a certain value that gets decremented continuously. Let us know more about it.

15. E-waste Management

The aim of this article is to spread awareness about various issues involved in e-waste management and generation, particularly from an Indian perspective.

16. Hall Effect Sensors

Hall effect sensors were first used as microwave power sensors. These now pervade everything from automobiles to computers to machine tools. Take a peek into the different types of Hall effect sensors.

17. Biomedical Sensors

Sensors are small, tiny, and intelligent devices that are used to measure physical variables like temperature, humidity, gas, velocity, flow rate, pressure, and so on. According to American National Standards Institute, a sensor is defined as a device that provides a usable output in response to a specified measure.

18. Microchip Implants

The RFID microchip is basically a tiny, two-way radio, roughly the size of a grain of rice, capable of storing digital information. The sub-dermal implant typically contains a unique 16-digit identification number that can be linked to the information contained in an external database, such as personal identification, law enforcement, medical history, medications, allergies, and contact information.

19. E-Textiles

e-textiles are an important part of wearable computing. Also called ‘e-fabrics,’ these have various electronic components and interconnections woven into them for the desired functionality. Here is an overview of their design, usage, and areas of research.

20. Assistive Electronics

Electronic devices have not only transformed the lifestyle of common people by providing comfort, security, and entertainment but have proved a boon for people with injuries or physical disabilities. This type of electronics is generally called assistive electronics.

21. DWDM Technology

Dense wavelength division multiplexing (DWDM) is a promising transmission technology that can offer very high bandwidth capabilities in the range of terahertz. Such capabilities are possible due to the transmission of a large number of high-speed channels simultaneously.

22. Wireless Charging Technology

With the widespread adoption of small, portable devices with batteries in need of constant recharging, people’s attention is turning to wireless power. Let us read more about wireless charging technology.

23. High-power Microwaves

HPM weapon systems could be used to replace precision-guided munitions to disable or destroy high-value targets or installations located in populated areas with minimized risk of human casualties.

24. FPGA Design Flow

A step-by-step lowdown on the basic flow of FPGA designing for new design engineers.

25. Conformal Coating

Coating materials protect electronic assemblies against malfunctions or failures in robust operating conditions. Here is what kind of protection these materials provide, the properties of coating materials, and why they are in demand.

26. Wireless Power Transfer and Energy Harvesting Technologies

This topic explores wireless power transfer methods, including technologies like inductive coupling and resonant coupling. It also covers energy harvesting techniques that enable the collection and utilization of ambient energy sources to power electronic devices wirelessly.

27. Printed Electronics and Flexible Electronics

This topic introduces printed electronics, a branch of electronics that focuses on printing electronic components and circuits on flexible substrates. It discusses the advantages, applications, and advancements in the field of flexible and printed electronics.

28. Emerging Trends in Digital Signal Processing (DSP)

This topic discusses the latest trends and advancements in digital signal processing, a key technology for processing and analyzing signals in electronic systems. It covers topics such as digital filters, image and audio processing, and real-time signal processing applications.

Please check the signal processing basics and Digital Signal Processing Free Ebooks .

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Latest Seminar Topics for Electronics and Communication Engineering

These are top 15 Seminar Topics for Electronics and Communication Branch. The ECE Electronics seminar topics uploaded here are taken from best credible documents available on the internet for your seminar. Taking help from them we have composed and prepared the best possible illustrated PPTs and seminar reports for your college projects.

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ELECTRONICS AND COMMUNICATION ENGINEERING Networks: Network graphs: matrices associated with graphs; incidence, fundamental cut set and fundamental circuit matrices. Solution methods: nodal and mesh analysis. Network theorems: superposition, Thevenin and Norton's maximum power transfer, Wye-Delta transformation. Steady state sinusoidal analysis using phasor Linear constant coefficient differential equations; time domain analysis of simple RLC circuits, Solution of net equations using Laplace transform: frequency domain analysis of RLC circuits. 2-port network parameters: dr. point and transfer functions. State equations for networks. 5 Electronic Devices: Energy bands in silicon, intrinsic and extrinsic silicon. Carrier transport in silicon: diffusion current, drift current, mobility, and resistivity. Generation and recombination of carriers. p-n junction diode, Zener diode, tunnel diode, BJT, JFET, MOS capacitor, MOSFET, LED, p-l-n and avalanche photo diode, Basics of LASERS. Device technology: Integrated circuits fabrication process, oxidation, diffusion, ion implantation, photolithography, n-tub, p-tub and twin-tub CMOS process. Analog Circuits: Small Signal Equivalent circuits of diodes, BJTS, MOSFETs and analog CMOS. Simple diode circuits, clipping, clamping, rectifier. Biasing and bias stability of transistor and FET amplifiers. Amplifiers: single-and multi-stage, differential and operational, feedback, and power. Frequency response of amplifiers. Simple op-amp circuits. Filters. Sinusoidal oscillators; criterion for oscillation; single-transistor and op-amp configurations. Function generators and wave-shaping circuits, 555 Timers. Power supplies. Digital circuits: Boolean algebra, minimization of Boolean functions; logic gates; digital IC families (DTL, TTL, ECL, MOS, CMOS). Combinatorial circuits: arithmetic circuits, code converters, multiplexers, decoders, PROMs and PLAS. Sequential circuits: latches and flip-flops, counters and shift-registers. Sample and hold circuits, ADCS, DACs. Semiconductor memories. Microprocessor(8085): architecture, programming, memory and 1/0 interfacing, Signals and Systems: Definitions and properties of Laplace transform, continuous-time and discrete-time Fourier series, continuous-time and discrete-time Fourier Transform, DFT and FFT, 2-transform. Sampling theorem. Linear Time-Invariant (LTI) Systems: definitions and properties; causality, stability, impulse response, convolution, poles and zeros, parallel and cascade structure, frequency response, group delay, phase delay. Signal transmission through LTI systems. Control Systems: Basic control system components; block diagrammatic description, reduction of block diagrams. Open loop and closed loop (feedback) systems and stability analysis of these systems. Signal flow graphs and their use in determining transfer functions of systems; transient and steady state analysis of LTI control systems and frequency response. Tools and techniques for LTI control system analysis: root loci, Routh-Hurwitz criterion, Bode and Nyquist plots. Control system compensators: elements of lead and lag compensation, elements of Proportional-Integral-Derivative (PID) control. State variable representation and solution of state equation of LTI control systems. Communications: Random signals and noise: probability, random variables, probability density function, autocorrelation, power spectral density. Analog communication systems: amplitude and angle modulation and demodulation systems, spectral analysis of these operations, superheterodyne receivers; elements of hardware, realizations of analog communication systems; signal-to-noise ratio (SNR) calculations for amplitude modulation (AM) and frequency modulation (FM) for low noise conditions. Fundamentals of information theory and channel capacity theorem. Digital communication systems: pulse code modulation (PCM), differential pulse code modulation (DPCM), digital modulation schemes: amplitude, phase and frequency shift keying schemes (ASK, PSK FSK), matched filter receivers, bandwidth consideration and probability of error calculations for these schemes. Basics of TDMA, FDMA and CDMA and GSM. Electromagnetics: Elements of vector calculus: divergence and curl; Gauss and Stokes theorems, Maxwell's equations: differential and integral forms. Wave equation, Poynting vector. Plane waves: propagation through various media; reflection and refraction; phase and group velocity; skin depth. Transmission lines: characteristic impedance; impedance transformation: Smith chart; impedance matching: S parameters, pulse excitation. Waveguides: modes in rectangular waveguides; boundary conditions; cut-off frequencies; dispersion relations. Basics of propagation in dielectric waveguide and optical fibers. Basics of Antennas: Dipole antennas; radiation pattern; antenna gain.

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100+ Electronics Engineering Seminar Topics for Students

Manali Ganguly ,

Mar 4, 2024

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The electronics engineering seminar topics include those on machine learning, communication, robotics, Bluetooth technology, Blu-ray disc technology and others. These seminar topics require research and enhance the skill in the students.

The most popular electronics engineering seminar topics are artificial intelligence, nanotechnology, automation, embedded system, antenna, communication, radiofrequency identification, machine learning and a lot more.

Seminars in the electronics engineering course will help the students get an in-depth idea about the topics they are working on. This will expose them to the practical applications of the theories. Working on seminars and projects will help the students in sharpening their skills and think creatively. The seminars are a great way to conduct research on the topics and exchange knowledge on the same. Getting an opportunity to project and showcase the ideas will implant confidence in the students.

List of 100+ Electronics Engineering Topics for Students

One of the most important parts of the electronics engineering curriculum is a presentation or seminar. For the seminars, the students are required to choose topics. The list given below will help the students to find the most suitable electronics engineering seminar topics.

• AI Powered Environmental Sensors
• Blu-ray Disc Technology
• Universal Software Radio Peripheral
• Bluetooth Wireless Technology
• Robotic Process Automation
• Secure Boot in Embedded Systems
• ARM-Based Embedded Web Server
• 64 Point FT Chip
• Raspberry Pi Technology
• Broadband Over Power Line (BPL)
• Bioinformatics
• Gate Turn-Off Thyristor (GTO)
• Germanium-Tin Laser to replace copper wire for data transfer (an IEEE paper)
• Buck Boost Transformer
• Brushless Alternators
• Renewable Energy Source Biomass
• Resistive RAM
• Embedded Security
• Witricity (Wireless Electricity)
• Biometric Fingerprint Identification
• Biomass-Fuelled Power Plant
• FinFET Transistor Technology
• BiCMOS Technology
• Flex Circuit Prototyping
• Online Shorts Detection in the Turbine Generator Rotor Fields
• Adaptive Harvesting Circuit for Piezoelectric Energy
• Power System Restoration based on ANN
• Automated distribution system
• Electrical machines on axial-field
• Advanced inverter technology for applications in the industrial
• Asynchronous systems
• Automatic Change using Current Limiter
• Automatic solar tracker
• Civionics (a combination of electronics engineering and civil engineering)
• Internet of Things
• Raspberry Pi
• ThingsBoard
•  Arduino Uno
• Motioneye OS
• Embedded Web Server based on ARM
• Raspberry Pi project ideas for the beginners
• Satellite Communication Technologies
• Environmental Sensors powered by artificial Intelligence
• Analogue CMOS integrated circuit design
• Internet Protocol Television
• Embedded System in RTO (Real Time Operating System)
• Microstrip Antenna
• Robotics and Automation in Industrial Electronics
• RFID Technology
•  Irrigation systems powered by solar energy
• Watchdog Timer
• Frequency System Analysis
• 7nm IC Technology
• Hall Effect Sensor
• Analysis of Frequency Spectrum
• Dense Wavelength Division Multiplexing (DWDM) Technology
• Assistive Electronics
• Microchip Implant
• High powered microwave
• Digital Signal Processing (DSP)
• Reusable Launch Vehicle
• Mobile Train Radio Communication
• Solar Cells
• Landing Gear
• Smart Pixel Arrays
• Electric Traction
• Genetic Programming
• Motion Capturing
• Motion Detection
• Claytronics
• Dynamic Domain Name Service
• Intelligent Networks
• Modern Trends In Automobile
• Communication with Visible Light
• Night Vision Technology
• Lithography
• Plasma Display
• Context Aware
• Tongue Controlled Wheel Chair
• Powerline Communication
• Hydro Power Plant
• DC Generators
• Device for Thought Translation
• Surveillance Camera Control System
• Bluetooth Technology
• Biometric Vote Casting Machine
• Plastic Solar Cell Technology
• Secure Symmetric Authentication for RFID Tags
• Free Space Optic Technology
• Bionic Eyes
• Transmonics
• Highway Addressable Remote Transducer (HART) Technology
• Difference between AC Cable and shoes Cable Transmission for the Offshore Wind Farm

Also Check: Seminar Topics For Electrical Engineering

How Electronics Engineering Seminar Topics are a Help in the Future?

These seminars help in enhancing the knowledge of the student by exposing him to the practical application of theories. They research on the topics before presenting the seminars so they get to know the topics in detail. 

They get a scope to demonstrate their thoughts and creativity based on the theories they have learned which will help them in their career and jobs ahead in life. The mention of seminars makes their portfolios rich and increases their chances of getting hired for better projects with widespread opportunities.

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123+ Technical Seminar Topics for Electronics and Communication (2024)

Technical Seminar Topics for Electronics and Communication (2024) : Electronics and Communication branch is the most lovable branch among all the students. Students have to face a lot of competition to take admission in Electronics and Communication Branch. But the game is still not over because Electronics and Communication Engineering comes with many challenges. One of them is giving a blasting seminar in front of panel.

Also See: Paper Battery Seminar PPT with pdf Report

Here the race begins for finding the best Seminar topics for Electronics and Communication Branch. Also it s very difficult to find technical seminar topics for Electronics and Communication.

General Topics                              Non Technical Topics          

Mechanical Engineering            MCA

Computer Science                      Electronics

Civil Engineering  

Also See: Li Fi Technology Seminar PPT with pdf Report

We have a small effort of providing you some Technical Seminar Topics for Electronics and Communication with pprt and pdf report.

Technical Seminar Topics for Electronics and Communication (2024)

• Regulated Power Supply
• Satellite Communication
• Smart Note Taker
• Smart Dust Technology
• Speech Recognition 
• Smart Quill
• Silent Sound Technology
• Solar Mobile Charger
• Sensors on 3D Digitization
• Spintronics
• Touch Screen Technology
• Telepresence
• Underwater Wireless Communication
• Ultrasonic Motor
• Virtual Reality
• Wireless Local Loop
• Wearable Biosensor
• WiFi Technology
• IBOC Technology
• Wireless Lan Security
• Medical Mirror
• Electrochemical Machining (ECM)
• EUV lithography (EUVL)
• Iontophoresis
• Gas Turbine
• Air Suspension
• Control Systems
• Semiconductors
• Swarm Robot
• Hybrid Electric Vehicle

You are at Page 2

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This page is all about Technical Seminar Topics for Electronics and Communication (2024) . If you want to ask for other seminar topics then please comment below or if you liked it then please share with with your friends.

54 Comments Already

I need ppt and seminar report on Tiny Piezoelectric Harvesters: Principles, Constraints, and Power Conversion plz post here.

please provide me MTec projects relatad to optical fiber communications.

Yes Pankaj, Please go to this link, https://studymafia.org/optical-fiber-communication-seminar-ppt-with-pdf-report/ 🙂

Ya sure, It will be my pleasure 🙂

Yes of course, please go to this link. https://studymafia.org/latest-seminar-topics-for-ece-with-ppt-and-report/

Sir can you provide me a seminar report on hyperloop trains. Please

Nice topic. I will work on it soon 🙂 and it will be live 🙂

Yes fine, I have given this topic to my team, They will upload it soon 🙂

Please provide me ppt and seminor topic on signal

Hey, do you really mean Signal I mean its not a topic of seminar it can be like digital signal processing, cell signaling, analog signal etc.

plz send me ppt on itwin technology

Hello Smita, nice topic, we will update it soon, meanwhile please share studymafia.org with your friends 🙂

Sir, please send me a seminar report(PPT & PDF) on COGNITIVE NETWORKS…. It’s urgent. Please sir…

Hello Sumit Sir.. Can you please upload seminar report on “air selfie drone”?It’s quiet urgent Sir pls..:)

Sir please send me wireless patient health monitoring system (PDF & ppt)

Virtual reality ppt

Hello Parveen, go to this link https://studymafia.org/virtual-reality-seminar-ppt-with-pdf-report/

Sir,please send me a seminar report (PPT and PDF) on thunderbolt technology its urgent please send me sir today is last day to submit seminar report please sir

Hello Ravindra, this topic is not in our database, so apologies, and please never give us so tight deadline of oneday. Atleast tell us 7 days before your seminar so that we can help you.

sir, please send me a seminar report (ppt and pdf) on the topics “NON VISIBLE IMAGING” and “EMBRYONIC APPROACH TOWARDS INTIGRATED CIRCUITS”.Can i get the following in 2 weeks time.

sir please send me embryonic approach towards integarted circuits(ppt,pdf) cani get yhe following in today

Can you please send me the matlabcode of pcb fault detection using MATlab .

can you please provide ppt on artificial intelligence

go to this link https://studymafia.org/artificial-intelligence-ai-seminar-pdf-report-and-ppt/

sir can u send me the ppt and information about implementation of three level security system plz

can u provide details of nanotechnology based cancer treatment

please send the pdf and ppt of WITRICITY

Nice topic, will upload soon.

sir i am having seminar on 13 march.can u provide ppt and report for topic “Computer-Based System for Simulating Visual Impairments”

Sir I m ece student…I need steganalysis ppt report…based in ece…can u 0lzzz send it to my mail

plz send the ppt & pdf on beidou satellite navigation system

Sir..plz send m ppt and report PDF on adaptive filters using VLSI

Sir please send me ppt on photoplethysmography used to monitor heart rate during physical activity via joint sparse spectrum reconstruction

Ppt for Bluetooth Network’s security…Need very urgent bro.

sir please send the report and ppt on the topic hybrid electric vehicle.

can u send report and ppt on topics on vlsi

I am a ece student so plz tell me a how to choose topic

SIR,PLZ SEND REPORT AND PPT ON THE TOPIC ELECTRONIC OCCULATION

Please send me a seminar on otp- one time password If possible please send me

I need ppt on meshwarm plz send it to me

i need ppt on theory of relativity

Sir plz,send a PPT and report on wireless power transmission technology.

Hi sir I’m Ece student.im doing seminar on interference reduction techniques for heterogeneous network in 4GLTE-A system. Can you please send me the ppt and pdf for this topic

sir, this is Hemanthi of ECE can u please send the ppt and report about the topic role of internet technology in mobile data system

sir,i am ece student Roadlight gateway this is my topic so i want to PPT and PDF on this topic ,send me pls sir..

i want PDF for surveillance camera control system for ece so plz send me the details about that

plz send the ppt and pdf of microelectronic pill

Plss send PPT presentation for programming 8051 timer mode0 and memory organization of 8051 mc

i need ppt and seminar report on natutal language processing

I need a ppt on Dolby atmos topic

My topic is electricity from wasted water i need ppts of this topic share ppts

Sir send me report and ppt on Road Light Gateway Sensor Network

Sir plz uploaded the ppt on smart cameras in embedded system

could you please provide pdf for military radars.

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Electronics Research Paper Topics

This list of electronics research paper topics provides the list of 30 potential topics for research papers and an overview article on the history of electronics.

1. Applications of Superconductivity

The 1986 Applied Superconductivity Conference proclaimed, ‘‘Applied superconductivity has come of age.’’ The claim reflected only 25 years of development, but was justifiable due to significant worldwide interest and investment. For example, the 1976 annual budget for superconducting systems exceeded $30 million in the U.S., with similar efforts in Europe and Japan. By 1986 the technology had matured impressively into applications for the energy industry, the military, transportation, high-energy physics, electronics, and medicine. The announcement of high-temperature superconductivity just two months later brought about a new round of dramatic developments.

Academic Writing, Editing, Proofreading, And Problem Solving Services

Get 10% off with 24start discount code, 2. discovery of superconductivity.

As the twenty-first century began, an array of superconducting applications in high-speed electronics, medical imaging, levitated transportation, and electric power systems are either having, or will soon have, an impact on the daily life of millions. Surprisingly, at the beginning of the twentieth century, the discovery of superconductivity was completely unanticipated and unimagined.

In 1911, three years after liquefying helium, H. Kammerlingh Onnes of the University of Leiden discovered superconductivity while investigating the temperature-dependent resistance of metals below 4.2Kelvin. Later reporting on experiments conducted in 1911, he described the disappearance of the resistance of mercury, stating, ‘‘Within some hundredths of a degree came a sudden fall, not foreseen [by existing theories of resistance]. Mercury has passed into a new state, which . . . may be called the superconductive state.’’

3. Electric Motors

The main types of electric motors that drove twentieth century technology were developed toward the end of the nineteenth century, with direct current (DC) motors being introduced before alternating current (AC) ones. Most important initially was the ‘‘series’’ DC motor, used in electric trolleys and trains from the 1880s onward. The series motor exerts maximum torque on starting and then accelerates to its full running speed, the ideal characteristic for traction work. Where speed control independent of the load is required in such applications as crane and lift drives, the ‘‘shunt’’ DC motor is more suitable.

4. Electronic Calculators

The electronic calculator is usually inexpensive and pocket-sized, using solar cells for its power and having a gray liquid crystal display (LCD) to show the numbers. Depending on the sophistication, the calculator might simply perform the basic mathematical functions (addition, subtraction, multiplication, division) or might include scientific functions (square, log, trig). For a slightly higher cost, the calculator will probably include programmable scientific and business functions. At the end of the twentieth century, the electronic calculator was as commonplace as a screwdriver and helped people deal with all types of mathematics on an everyday basis. Its birth and growth were early steps on the road to today’s world of computing.

5. Electronic Communications

The broad use of digital electronic message communications in most societies by the end of the 20th century can be attributed to a myriad of reasons. Diffusion was incremental and evolutionary. Digital communication technology was seeded by large-scale funding for military projects that broke technological ground, however social needs and use drove systems in unexpected ways and made it popular because these needs were embraced. Key technological developments happened long before diffusion into society, and it was only after popularity of the personal computer that global and widespread use became commonplace. The Internet was an important medium in this regard, however the popular uses of it were well established long before its success. Collaborative developments with open, mutually agreed standards were key factors in broader diffusion of the low-level transmission of digital data, and provided resistance to technological lock-in by any commercial player. By the twenty-first century, the concept of interpersonal electronic messaging was accepted as normal and taken for granted by millions around the world, where infrastructural and political freedoms permitted. As a result, traditional lines of information control and mass broadcasting were challenged, although it remains to be seen what, if any, long-term impact this will have on society.

6. Electronic Control Technology

The advancement of electrical engineering in the twentieth century made a fundamental change in control technology. New electronic devices including vacuum tubes (valves) and transistors were used to replace electromechanical elements in conventional controllers and to develop new types of controllers. In these practices, engineers discovered basic principles of control theory that could be further applied to design electronic control systems.

7. Fax Machine

Fax technology was especially useful for international commercial communication, which was traditionally the realm of the Telex machine, which only relayed Western alpha-numeric content. A fax machine could transmit a page of information regardless of what information it contained, and this led to rapid and widespread adoption in developing Asian countries during the 1980s. With the proliferation of the Internet and electronic e-mail in the last decade of the twentieth century, fax technology became less used for correspondence. At the close of the 20th century, the fax machine was still widely used internationally for the transmission of documents of all forms, with the ‘‘hard copy’’ aspect giving many a sense of permanence that other electronic communication lacked.

8. Hall Effect Devices

The ‘‘Hall effect,’’ discovered in 1879 by American physicist Edwin H. Hall, is the electrical potential produced when a magnetic field is perpendicular to a conductor or semiconductor that is carrying current. This potential is a product of the buildup of charges in that conductor. The magnetic field makes a transverse force on the charge carriers, resulting in the charge being moved to one of the sides of the conductor. Between the sides of the conductor, measurable voltage is yielded from the interaction and balancing of the polarized charge and the magnetic influence.

Hall effect devices are commonly used as magnetic field sensors, or alternatively if a known magnetic field is applied, the sensor can be used to measure the current in a conductor, without actually plugging into it (‘‘contactless potentiometers’’). Hall sensors can also be used as magnetically controlled switches, and as a contactless method of detecting rotation and position, sensing ferrous objects.

9. Infrared Detectors

Infrared detectors rely on the change of a physical characteristic to sense illumination by infrared radiation (i.e., radiation having a wavelength longer than that of visible light). The origins of such detectors lie in the nineteenth century, although their development, variety and applications exploded during the twentieth century. William Herschel (c. 1800) employed a thermometer to detect this ‘‘radiant heat’’; Macedonio Melloni, (c. 1850) invented the ‘‘thermochrose’’ to display spatial differences of irradiation as color patterns on a temperature-sensitive surface; and in 1882 William Abney found that photographic film could be sensitized to respond to wavelengths beyond the red end of the spectrum. Most infrared detectors, however, convert infrared radiation into an electrical signal via a variety of physical effects. Here, too, 19th century innovations continued in use well into the 21st century.

10. Integrated Circuits Design and Use

Integrated circuits (ICs) are electronic devices designed to integrate a large number of microscopic electronic components, normally connected by wires in circuits, within the same substrate material. According to the American engineer Jack S. Kilby, they are the realization of the so-called ‘‘monolithic idea’’: building an entire circuit out of silicon or germanium. ICs are made out of these materials because of their properties as semiconductors— materials that have a degree of electrical conductivity between that of a conductor such as metal and that of an insulator (having almost no conductivity at low temperatures). A piece of silicon containing one circuit is called a die or chip. Thus, ICs are known also as microchips. Advances in semiconductor technology in the 1960s (the miniaturization revolution) meant that the number of transistors on a single chip doubled every two years, and led to lowered microprocessor costs and the introduction of consumer products such as handheld calculators.

11. Integrated Circuits Fabrication

The fabrication of integrated circuits (ICs) is a complicated process that consists primarily of the transfer of a circuit design onto a piece of silicon (the silicon wafer). Using a photolithographic technique, the areas of the silicon wafer to be imprinted with electric circuitry are covered with glass plates (photomasks), irradiated with ultraviolet light, and treated with chemicals in order to shape a circuit’s pattern. On the whole, IC manufacture consists of four main stages:

• Preparation of a design
• Preparation of photomasks and silicon wafers
• Testing and packaging

Preparing an IC design consists of drafting the circuit’s electronic functions within the silicon board. This process has radically changed over the years due to the increasing complexity of design and the number of electronic components contained within the same IC. For example, in 1971, the Intel 4004 microprocessor was designed by just three engineers, while in the 1990s the Intel Pentium was designed by a team of 100 engineers. Moreover, the early designs were produced with traditional drafting techniques, while from the late 1970s onward the introduction of computer-aided design (CAD) techniques completely changed the design stage. Computers are used to check the design and simulate the operations of perspective ICs in order to optimize their performance. Thus, the IC drafted design can be modified up to 400 times before going into production.

12. Josephson Junction Devices

One of the most important implications of quantum physics is the existence of so-called tunneling phenomena in which elementary particles are able to cross an energy barrier on subatomic scales that it would not be possible for them to traverse were they subject to the laws of classical mechanics. In 1973 the Nobel Prize in Physics was awarded to Brian Josephson, Ivan Giaever and Leo Esaki for their work in this field. Josephson’s contribution consisted of a number of important theoretical predictions made while a doctoral student at Cambridge University. His work was confirmed experimentally within a year of its publication in 1961, and practical applications were commercialized within ten years.

13. Laser Applications

Lasers are employed in virtually every sector of the modern world including industry, commerce, transportation, medicine, education, science, and in many consumer devices such as CD players and laser printers. The intensity of lasers makes them ideal cutting tools since their highly focused beam cuts more accurately than machined instruments and leaves surrounding materials unaffected. Surgeons, for example, have employed carbon dioxide or argon lasers in soft tissue surgery since the early 1970s. These lasers produce infrared wavelengths of energy that are absorbed by water. Water in tissues is rapidly heated and vaporized, resulting in disintegration of the tissue. Visible wavelengths (argon ion laser) coagulate tissue. Far-ultraviolet wavelengths (higher photon energy, as produced by excimer lasers) break down molecular bonds in target tissue and ‘‘ablate’’ tissue without heating. Excimer lasers have been used in corneal surgery since 1984. Short pulses only affect the surface area of interest and not deeper tissues. The extremely small size of the beam, coupled with optical fibers, enables today’s surgeons to conduct surgery deep inside the human body often without a single cut on the exterior. Blue lasers, developed in 1994 by Shuji Nakamura of Nichia Chemical Industries of Japan, promise even more precision than the dominant red lasers currently used and will further revolutionize surgical cutting techniques.

14. Laser Theory and Operation

Lasers (an acronym for light amplification by stimulated emission of radiation) provide intense, focused beams of light whose unique properties enable them to be employed in a wide range of applications in the modern world. The key idea underlying lasers originated with Albert Einstein who published a paper in 1916 on Planck’s distribution law, within which he described what happens when additional energy is introduced into an atom. Atoms have a heavy and positively charged nucleus surrounded by groups of extremely light and negatively charged electrons. Electrons orbit the atom in a series of ‘‘fixed’’ levels based upon the degree of electromagnetic attraction between each single electron and the nucleus. Various orbital levels also represent different energy levels. Normally electrons remain as close to the nucleus as their energy level permits, with the consequence that an atom’s overall energy level is minimized. Einstein realized that when energy is introduced to an atom; for example, through an atomic collision or through electrical stimulation, one or more electrons become excited and move to a higher energy level. This condition exists temporarily before the electron returns to its former energy level. When this decay phenomenon occurs, a photon of light is emitted. Einstein understood that since the energy transitions within the atom are always identical, the energy and the wavelength of the stimulated photon of light are also predictable; that is, a specific type of transition within an atom will yield a photon of light of a specific wavelength. Hendrick Kramers and Werner Heisenberg obtained a series of more extensive calculations of the effects of these stimulated emissions over the next decade. The first empirical evidence supporting these theoretical calculations occurred between 1926 and 1930 in a series of experiments involving electrical discharges in neon.

15. Lasers in Optoelectronics

Optoelectronics, the field combining optics and electronics, is dependent on semiconductor (diode) lasers for its existence. Mass use of semiconductor lasers has emerged with the advent of CD and DVD technologies, but it is the telecommunications sector that has primarily driven the development of lasers for optoelectronic systems. Lasers are used to transmit voice, data, or video signals down fiber-optic cables.

While the success of lasers within telecommunication systems seems unquestioned thanks to their utility in long-distance large-capacity, point-to-point links, these lasers also find use in many other applications and are ubiquitous in the developed world. Their small physical size, low power operation, ease of modulation (via simple input current variation) and small beam size mean that these lasers are now part of our everyday world, from CDs and DVDs, to supermarket checkouts and cosmetic medicine.

16. Light Emitting Diodes

Light emitting diodes, or LEDs, are semiconductor devices that emit monochromatic light once an electric current passes through it. The color of light emitted from LEDs depends not on the color of the bulb, but on the emission’s wavelength. Typically made of inorganic materials like gallium or silicon, LEDs have found frequent use as ‘‘pilot,’’ or indicator, lights for electronic devices. Unlike incandescent light bulbs, which generate light from ‘‘heat glow,’’ LEDs create light more efficiently and are generally more durable than traditional light sources.

17. Lighting Techniques

In 1900 electric lighting in the home was a rarity. Carbon filament incandescent lamps had been around for 20 years, but few households had electricity. Arc lamps were used in streets and large buildings such as railway stations. Domestic lighting was by candle, oil and gas.

The stages of the lightning techniques evolution are the following:

• Non-Electric Lighting
• Electric Lighting: Filament Lamps
• Electric Lighting: Discharge Lamps
• Electric Lighting: Fluorescent Lamps
• Electric Lighting: LED Lamps

18. Mechanical and Electromechanical Calculators

The widespread use of calculating devices in the twentieth century is intimately linked to the rise of large corporations and to the increasing role of mathematical calculation in science and engineering. In the business setting, calculators were used to efficiently process financial information. In science and engineering, calculators speeded up routine calculations. The manufacture and sale of calculators was a widespread industry, with major firms in most industrialized nations. However, the manufacture of mechanical calculators declined very rapidly in the 1970s with the introduction of electronic calculators, and firms either diversified into other product lines or went out of business. By the end of the twentieth century, slide rules, adding machines, and other mechanical calculators were no longer being manufactured.

19. Mobile (Cell) Telephones

In the last two decades of the twentieth century, mobile or cell phones developed from a minority communication tool, characterized by its prevalence in the 1980s among young professionals, to a pervasive cultural object. In many developed countries, more than three quarters of the population owned a cell phone by the end of the 20th century.

Cell phone technology is a highly evolved form of the personal radio systems used by truck drivers (citizens band, or CB, radio) and police forces in which receiver/transmitter units communicate with one another or a base antenna. Such systems work adequately over short distances with a low volume of traffic but cannot be expanded to cope with mass communication due to the limited space (bandwidth) available in the electromagnetic spectrum. Transmitting and receiving on one frequency, they allow for talking or listening but not both simultaneously.

For mobile radio systems to make the step up to effective telephony, a large number of two-way conversations needed to be accommodated, requiring a duplex channel (two separate frequencies, taking up double the bandwidth). In order to establish national mobile phone networks without limiting capacity or the range of travel of handsets, a number of technological improvements had to occur.

20. Photocopiers

The photocopier, copier, or copying machine, as it is variously known, is a staple of modern life. Copies by the billions are produced not only in the office but also on machines available to the public in libraries, copy shops, stationery stores, supermarkets, and a wide variety of other commercial facilities. Modern xerographic copiers, produced by a number of manufacturers, are available as desktop models suitable for the home as well as the small office. Many modern copiers reproduce in color as well as black and white, and office models can rival printing presses in speed of operation.

21. Photosensitive Detectors

Sensing radiation from ultraviolet to optical wavelengths and beyond is an important part of many devices. Whether analyzing the emission of radiation, chemical solutions, detecting lidar signals, fiber-optic communication systems, or imaging of medical ionizing radiation, detectors are the final link in any optoelectronic experiment or process.

Detectors fall into two groups: thermal detectors (where radiation is absorbed and the resulting temperature change is used to generate an electrical output) and photon (quantum) detectors. The operation of photon detectors is based on the photoelectric effect, in which the radiation is absorbed within a metal or semiconductor by direct interaction with electrons, which are excited to a higher energy level. Under the effect of an electric field these carriers move and produce a measurable electric current. The photon detectors show a selective wavelength-dependent response per unit incident radiation power.

22. Public and Private Lighting

At the turn of the 20th century, lighting was in a state of flux. In technical terms, a number of emerging lighting technologies jostled for economic dominance. In social terms, changing standards of illumination began to transform cities, the workplace, and the home. In design terms, the study of illumination as a science, as an engineering profession, and as an applied art was becoming firmly established. In the last decades of the 20th century, the technological and social choices in lighting attained considerable stability both technically and socially. Newer forms of compact fluorescent lighting, despite their greater efficiency, have not significantly replaced incandescent bulbs in homes owing to higher initial cost. Low-pressure sodium lamps, on the other hand, have been adopted increasingly for street and architectural lighting owing to lower replacement and maintenance costs. As with fluorescent lighting in the 1950s, recent lighting technologies have found niche markets rather than displacing incandescents, which have now been the dominant lighting system for well over a century.

23. Quantum Electronic Devices

Quantum theory, developed during the 1920s to explain the behavior of atoms and the absorption and emission of light, is thought to apply to every kind of physical system, from individual elementary particles to macroscopic systems such as lasers. In lasers, stimulated transitions between discrete or quantized energy levels is a quantum electronic phenomena (discussed in the entry Lasers, Theory and Operation). Stimulated transitions are also the central phenomena in atomic clocks. Semiconductor devices such as the transistor also rely on the arrangement of quantum energy levels into a valence band and a conduction band separated by an energy gap, but advanced quantum semiconductor devices were not possible until advances in fabrication techniques such as molecular beam epitaxy (MBE) developed in the 1960s made it possible to grow extremely pure single crystal semiconductor structures one atomic layer at a time.

In most electronic devices and integrated circuits, quantum phenomena such as quantum tunneling and electron diffraction—where electrons behave not as particles but as waves—are of no significance, since the device is much larger than the wavelength of the electron (around 100 nanometers, where one nanometer is 109 meters or about 4 atoms wide). Since the early 1980s however, researchers have been aware that as the overall device size of field effect transistors decreased, small-scale quantum mechanical effects between components, plus the limitations of materials and fabrication techniques, would sooner or later inhibit further reduction in the size of conventional semiconductor transistors. Thus to produce devices on ever-smaller integrated circuits (down to 25 nanometers in length), conventional microelectronic devices would have to be replaced with new device concepts that take advantage of the quantum mechanical effects that dominate on the nanometer scale, rather than function in despite of them. Such solid state ‘‘nanoelectronics’’ offers the potential for increased speed and density of information processing, but mass fabrication on this small scale presented formidable challenges at the end of the 20th century.

24. Quartz Clocks and Watches

The wristwatch and the domestic clock were completely reinvented with all-new electronic components beginning about 1960. In the new electronic timepieces, a tiny sliver of vibrating quartz in an electrical circuit provides the time base and replaces the traditional mechanical oscillator, the swinging pendulum in the clock or the balance wheel in the watch. Instead of an unwinding spring or a falling weight, batteries power these quartz clocks and watches, and integrated circuits substitute for intricate mechanical gear trains.

25. Radio-Frequency Electronics

Radio was originally conceived as a means for interpersonal communications, either person-toperson, or person-to-people, using analog waveforms containing either Morse code or actual sound. The use of radio frequencies (RF) designed to carry digital data in the form of binary code rather than voice and to replace physical wired connections between devices began in the 1970s, but the technology was not commercialized until the 1990s through digital cellular phone networks known as personal communications services (PCS) and an emerging group of wireless data network technologies just reaching commercial viability. The first of these is a so-called wireless personal area network (WPAN) technology known as Bluetooth. There are also two wireless local area networks (WLANs), generally grouped under the name Wi-Fi (wireless fidelity): (1) Wi-Fi, also known by its Institute of Electrical and Electronic Engineers (IEEE) designation 802.11b, and (2) Wi-Fi5 (802.11a).

26. Rectifiers

Rectifiers are electronic devices that are used to control the flow of current. They do this by having conducting and nonconducting states that depend on the polarity of the applied voltage. A major function in electronics is the conversion from alternating current (AC) to direct current (DC) where the output is only one-half (either positive or negative) of the input. Rectifiers that are currently, or have been, in use include: point-contact diodes, plate rectifiers, thermionic diodes, and semiconductor diodes. There are various ways in which rectifiers may be classified in terms of the signals they encounter; this contribution will consider two extremes—high frequency and heavy current—that make significantly different demands on device design.

27. Strobe Flashes

Scarcely a dozen years after photography was announced to the world in 1839, William Henry Fox Talbot produced the first known flash photograph. Talbot, the new art’s co-inventor, fastened a printed paper onto a disk, set it spinning as fast as possible, and then discharged a spark to expose a glass plate negative. The words on the paper could be read on the photograph. Talbot believed that the potential for combining electric sparks and photography was unlimited. In 1852, he pronounced, ‘‘It is in our power to obtain the pictures of all moving objects, no matter in how rapid motion they may be, provided we have the means of sufficiently illuminating them with a sudden electric flash.’’

The electronic stroboscope fulfills Talbot’s prediction. It is a repeating, short-duration light source used primarily for visual observation and photography of high-speed phenomena. The intensity of the light emitted from strobes also makes them useful as signal lights on communication towers, airport runways, emergency vehicles, and more. Though ‘‘stroboscope’’ actually refers to a repeating flash and ‘‘electronic flash’’ denotes a single burst, both types are commonly called ‘‘strobes.’’

28. Transistors

Early experiments in transistor technology were based on the analogy between the semiconductor and the vacuum tube: the ability to both amplify and effectively switch an electrical signal on or off (rectification). By 1940, Russell Ohl at Bell Telephone Laboratories, among others, had found that impure silicon had both positive (ptype material with holes) and negative (n-type) regions. When a junction is created between n-type material and p-type material, electrons on the ntype side are attracted across the junction to fill holes in the other layer. In this way, the n-type semiconductor becomes positively charged and the p-type becomes negatively charged. Holes move in the opposite direction, thus reinforcing the voltage built up at the junction. The key point is that current flows from one side to the other when a positive voltage is applied to the layers (‘‘forward biased’’).

29. Travelling Wave Tubes

One of the most important devices for the amplification of radio-frequency (RF) signals— which range in frequency from 3 kilohertz to 300 gigahertz—is the traveling wave tube (TWT). When matched with its power supply unit, or electronic power conditioner (EPC), the combination is known as a traveling wave tube amplifier (TWTA). The amplification of RF signals is important in many aspects of science and technology, since the ability to increase the strength of a very low-power input signal is fundamental to all types of long-range communications, radar and electronic warfare.

30. Vacuum Tubes/Valves

The vacuum tube has its roots in the late nineteenth century when Thomas A. Edison conducted experiments with electric bulbs in 1883. Edison’s light bulbs consisted of a conducting filament mounted in a glass bulb. Passing electricity through the filament caused it to heat up and radiate light. A vacuum in the tube prevented the filament from burning up. Edison noted that electric current would flow from the bulb filament to a positively charged metal plate inside the tube. This phenomenon, the one-way flow of current, was called the Edison Effect. Edison himself could not explain the filament’s behavior. He felt this effect was interesting but unimportant and patented it as a matter of course. It was only fifteen years later that Joseph John Thomson, a physics professor at the Cavendish Laboratory at the University of Cambridge in the U.K., discovered the electron and understood the significance of what was occurring in the tube. He identified the filament rays as a stream of particles, now called electrons. In a range of papers from 1901 to 1916, O.W. Richardson explained the electron behavior. Today the Edison Effect is known as thermionic emission.

History of Electronics

Few of the basic tasks that electronic technologies perform, such as communication, computation, amplification, or automatic control, are unique to electronics. Most were anticipated by the designers of mechanical or electromechanical technologies in earlier years. What distinguishes electronic communication, computation, and control is often linked to the instantaneous action of the devices, the delicacy of their actions compared to mechanical systems, their high reliability, or their tiny size.

The electronics systems introduced between the late nineteenth century and the end of the twentieth century can be roughly divided into the applications related to communications (including telegraphy, telephony, broadcasting, and remote detection) and the more recently developed fields involving digital information and computation. In recent years these two fields have tended to converge, but it is still useful to consider them separately for a discussion of their history.

The origins of electronics as distinguished from other electrical technologies can be traced to 1880 and the work of Thomas Edison. While investigating the phenomenon of the blackening of the inside surface of electric light bulbs, Edison built an experimental bulb that included a third, unused wire in addition to the two wires supporting the filament. When the lamp was operating, Edison detected a flow of electricity from the filament to the third wire, through the evacuated space in the bulb. He was unable to explain the phenomenon, and although he thought it would be useful in telegraphy, he failed to commercialize it. It went unexplained for about 20 years, until the advent of wireless telegraphic transmission by radio waves. John Ambrose Fleming, an experimenter in radio, not only explained the Edison effect but used it to detect radio waves. Fleming’s ‘‘valve’’ as he called it, acted like a one-way valve for electric waves, and could be used in a circuit to convert radio waves to electric pulses so that that incoming Morse code signals could be heard through a sounder or earphone.

As in the case of the Fleming valve, many early electronic devices were used first in the field of communications, mainly to enhance existing forms of technology. Initially, for example, telephony (1870s) and radio (1890s) were accomplished using ordinary electrical and electromechanical circuits, but eventually both were transformed through the use of electronic devices. Many inventors in the late nineteenth century sought a functional telephone ‘‘relay’’; that is, something to refresh a degraded telephone signal to allow long distance telephony. Several people simultaneously recognized the possibility of developing a relay based on the Fleming valve. The American inventor Lee de Forest was one of the first to announce an electronic amplifier using a modified Fleming valve, which he called the Audion. While he initially saw it as a detector and amplifier of radio waves, its successful commercialization occurred first in the telephone industry. The sound quality and long-distance capability of telephony was enhanced and extended after the introduction of the first electronic amplifier circuits in 1907. In the U.S., where vast geographic distances separated the population, the American Telephone and Telegraph Company (AT&T) introduced improved vacuum tube amplifiers in 1913, which were later used to establish the first coast-to-coast telephone service in 1915 (an overland distance of nearly 5000 kilometers).

These vacuum tubes soon saw many other uses, such as a public-address systems constructed as early as 1920, and radio transmitters and receivers. The convergence of telephony and radio in the form of voice broadcasting was technically possible before the advent of electronics, but its application was greatly enhanced through the use of electronics both in the radio transmitter and in the receiver.

World War I saw the applications of electronics diversify somewhat to include military applications. Mostly, these were modifications of existing telegraph, telephone, and radio systems, but applications such as ground-to-air radio telephony were novel. The pressing need for large numbers of electronic components, especially vacuum tubes suitable for military use, stimulated changes in their design and manufacture and contributed to improving quality and falling prices. After the war, the expanded capacity of the vacuum tube industry contributed to a boom in low-cost consumer radio receivers. Yet because of the withdrawal of the military stimulus and the onset of the Great Depression, the pace of change slowed in the 1930s. One notable exception was in the field of television. Radio broadcasting became such a phenomenal commercial success that engineers and businessmen were envisioning how ‘‘pictures with sound’’ would replace ordinary broadcasting, even in the early 1930s. Germany, Great Britain, and the U.S. all had rudimentary television systems in place by 1939, although World War II would bring nearly a complete halt to these early TV broadcasts.

World War II saw another period of rapid change, this one much more dramatic than that of World War I. Not only were radio communications systems again greatly improved, but for the first time the field of electronics engineering came to encompass much more than communication. While it was the atomic bomb that is most commonly cited as the major technological outcome of World War II, radar should probably be called the weapon that won the war. To describe radar as a weapon is somewhat inaccurate, but there is no doubt that it had profound effects upon the way that naval, aerial, and ground combat was conducted. Using radio waves as a sort of searchlight, radar could act as an artificial eye capable of seeing through clouds or fog, over the horizon, or in the dark. Furthermore, it substituted for existing methods of calculating the distance and speed of targets. Radar’s success hinged on the development of new electronic components, particularly new kinds of vacuum tubes such as the klystron and magnetron, which were oriented toward the generation of microwaves. Subsidized by military agencies on both sides of the Atlantic (as well as Japan) during World War II, radar sets were eventually installed in aircraft and ships, used in ground stations, and even built into artillery shells. The remarkable engineering effort that was launched to make radar systems smaller, more energy efficient, and more reliable would mark the beginning of an international research program in electronics miniaturization that continues today. Radar technology also had many unexpected applications elsewhere, such as the use of microwave beams as a substitute for long-distance telephone cables. Microwave communication is also used extensively today for satellite-to-earth communication.

The second major outcome of electronics research during World War II was the effort to build an electronic computer. Mechanical adders and calculators were widely used in science, business, and government by the early twentieth century, and had reached an advanced state of design. Yet the problems peculiar to wartime, especially the rapid calculation of mountains of ballistics data, drove engineers to look for ways to speed up the machines. At the same time, some sought a calculator that could be reprogrammed as computational needs changed. While computers played a role in the war, it was not until the postwar period that they came into their own. In addition, computer research during World War II contributed little to the development of vacuum tubes, although in later years computer research would drive certain areas of semiconductor electron device research.

While the forces of the free market are not to be discounted, the role of the military in electronics development during World War II was of paramount importance. More-or-less continuous military support for research in electronic devices and systems persisted during the second half of the twentieth century too, and many more new technologies emerged from this effort. The sustained effort to develop more compact, rugged devices such as those demanded by military systems would converge with computer development during the 1950s, especially after the invention of the transistor in late 1947.

The transistor was not a product of the war, and in fact its development started in the 1930s and was delayed by the war effort. A transistor is simply a very small substitute for a vacuum tube, but beyond that it is an almost entirely new sort of device. At the time of its invention, its energy efficiency, reliability, and diminutive size suggested new possibilities for electronic systems. The most famous of these possibilities was related to computers and systems derived from or related to computers, such as robotics or industrial automation. The impetus for the transistor was a desire within the telephone industry to create an energy-efficient, reliable substitute for the vacuum tube. Once introduced, the military pressed hard to accelerate its development, as the need emerged for improved electronic navigational devices for aircraft and missiles.

There were many unanticipated results of the substitution of transistors for vacuum tubes. Because they were so energy efficient, transistors made it much more practical to design battery powered systems. The small transistor radio (known in some countries simply as ‘‘the transistor’’), introduced in the 1950s, is credited with helping to popularize rock and roll music. It is also worth noting that many developing countries could not easily provide broadcasting services until the diffusion of battery operated transistor receivers because of the lack of central station electric power. The use of the transistor also allowed designers to enhance existing automotive radios and tape players, contributing eventually to a greatly expanded culture of in-car listening. There were other important outcomes as well; transistor manufacture provided access to the global electronics market for Asian radio manufacturers, who improved manufacturing methods to undercut their U.S. competitors during the 1950s and 1960s. Further, the transistor’s high reliability nearly eliminated the profession of television and radio repair, which had supported tens of thousands of technicians in the U.S. alone before about 1980.

However, for all its remarkable features, the transistor also had its limitations; while it was an essential part of nearly every cutting-edge technology of the postwar period, it was easily outperformed by the older technology of vacuum tubes in some areas. The high-power microwave transmitting devices in communications satellites and spacecraft, for example, nearly all relied on special vacuum tubes through the end of the twentieth century, because of the physical limitations of semiconductor devices. For the most part, however, the transistor made the vacuum tube obsolete by about 1960.

The attention paid to the transistor in the 1950s and 1960s made the phrase ‘‘solid-state’’ familiar to the general public, and the new device spawned many new companies. However, its overall impact pales in comparison to its successor—the integrated circuit. Integrated circuits emerged in the late 1950s, were immediately adopted by the military for small computer and communications systems, and were then used in civilian computers and related applications from the 1960s. Integrated circuits consist of multiple transistors fabricated simultaneously from layers of semiconductor and other materials. The transistors, interconnecting ‘‘wires,’’ and many of the necessary circuit elements such as capacitors and resistors are fabricated on the ‘‘chip.’’ Such a circuit eliminates much of the laborious process of assembling an electronic system such as a computer by hand, and results in a much smaller product. The ability to miniaturize components through integrated circuit fabrication techniques would lead to circuits so vanishingly small that it became difficult to connect them to the systems of which they were a part. The plastic housings or ‘‘packages’’ containing today’s microprocessor chips measure just a few centimeters on a side, and yet the actual circuits inside are much smaller. Some of the most complex chips made today contain many millions of transistors, plus millions more solid-state resistors and other passive components.

While used extensively in military and aerospace applications, the integrated circuit became famous as a component in computer systems. The logic and memory circuits of digital computers, which have been the focus of much research, consist mainly of switching devices. Computers were first constructed in the 1930s with electromechanical relays as switching devices, then with vacuum tubes, transistors, and finally integrated circuits. Most early computers used off-the-shelf tubes and transistors, but with the advent of the integrated circuit, designers began to call for components designed especially for computers. It was clear to engineers at the time that all the circuits necessary to build a computer could be placed on one chip (or a small set of chips), and in fact, the desire to create a ‘‘computer on a chip’’ led to the microprocessor, introduced around 1970. The commercial impetus underlying later generations of computer chip design was not simply miniaturization (although there are important exceptions) or energy efficiency, but also the speed of operation, reliability, and lower cost. However, the inherent energy efficiency and small size of the resulting systems did enable the construction of smaller computers, and the incorporation of programmable controllers (special purpose computers) into a wide variety of other technologies. The recent merging of the computer (or computer-like systems) with so many other technologies makes it difficult to summarize the current status of digital electronic systems. As the twentieth century drew to a close, computer chips were widely in use in communications and entertainment devices, in industrial robots, in automobiles, in household appliances, in telephone calling cards, in traffic signals, and in a myriad other places. The rapid evolution of the computer during the last 50 years of the twentieth century was reflected by the near-meaninglessness of its name, which no longer adequately described its functions.

From an engineering perspective, not only did electronics begin to inhabit, in an almost symbiotic fashion, other technological systems after about 1950, but these electronics systems were increasingly dominated by the use of semiconductor technology. After virtually supplanting the vacuum tube in the 1950s, the semiconductor-based transistor became the technology of choice for most subsequent electronics development projects. Yet semiconducting alloys and compounds proved remarkably versatile in applications at first unrelated to transistors and chips. The laser, for example, was originally operated in a large vacuum chamber and depended on ionized gas for its operation. By the 1960s, laser research was focused on the remarkable ability of certain semiconducting materials to accomplish the same task as the ion chamber version. Today semiconductor devices are used not only as the basis of amplifiers and switches, but also for sensing light, heat, and pressure, for emitting light (as in lasers or video displays), for generating electricity (as in solar cells), and even for mechanical motion (as in micromechanical systems or MEMS).

However, semiconductor devices in ‘‘discrete’’ forms such as transistors, would probably not have had the remarkable impact of the integrated circuit. By the 1970s, when the manufacturing techniques for integrated circuits allowed high volume production, low cost, tiny size, relatively small energy needs, and enormous complexity; electronics entered a new phase of its history, having a chief characteristic of allowing electronic systems to be retrofitted into existing technologies. Low-cost microprocessors, for example, which were available from the late 1970s onward, were used to sense data from their environment, measure it, and use it to control various technological systems from coffee machines to video tape recorders. Even the human body is increasingly invaded by electronics; at the end of the twentieth century, several researchers announced the first microchips for implantation directly in the body. They were to be used to store information for retrieval by external sensors or to help deliver subcutaneous drugs. The integrated circuit has thus become part of innumerable technological and biological systems.

It is this remarkable flexibility of application that enabled designers of electronic systems to make electronics the defining technology of the late twentieth century, eclipsing both the mechanical technologies associated with the industrial revolution and the electrical and information technologies of the so-called second industrial revolution. While many in the post-World War II era once referred to an ‘‘atomic age,’’ it was in fact an era in which daily life was increasingly dominated by electronics.

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• by Ravi Bandakkanavar
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This post contains a wide variety of technical papers chosen from various Engineering streams. The latest Technical Paper Presentation Topics include trending topics from emerging Technology like Artificial Intelligence, Machine Learning, 5G Technology, Cybersecurity, and Cloud Computing. It also includes topics from different Engineering streams like Computer Science and Engineering, Electronics Communications and Engineering, Electrical and Electronic Engineering, Mechanical Engineering, and Automobile Engineering. 

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• Top 10 Ways Artificial Intelligence Future will Change the World
• Artificial Intelligence: Technology that Hosts Race between Enterprises
• The Role of Artificial Intelligence in the Healthcare Industry
• How AI Technology Can Help You Optimize Your Marketing
• Narrow AI vs General AI: Understanding The Key Differences
• Future Of Industrial Robotics With AI
• Causes of CyberCrime and Preventive Measures
• What is Phishing? How to tackle Phishing Attacks?
• What is the Dark Web? How to Protect yourself from the Dark Web?
• Cyberbullying: The emerging crime of 21 st Century
• Anatomy and working of search engines
• Bionic Eye – a possible path toward the Artificial retina
• Bluetooth-based Smart Sensor Networks
• Broadband access via satellite
• Brain-computer interface
• Blue eyes technology
• Brain-controlled car for the disabled using artificial intelligence
• Brain Port device
• Brain Finger Print Technology
• BrainGate Technology
• Digital jewelry
• Development of an Intelligent Fire Sprinkler System
• Capturing packets in secured networks
• Digital Speech Effects Synthesizer
• Aqua communication using a modem
• Serverless Edge Computing
• Intrusion detection system
• How to prepare for a Ransomware attack?
• What is the Dark Web? How to Protect Your Kids from the Dark Web?

Artificial Intelligence Topics for Presentation

• Carbon nanotubes
• Cloud computing
• Mobile Ad hoc Networks  (MANETs)
• Narrow AI vs General AI
• Security aspects in mobile ad hoc networks  (MANETs)
• Mobile Ad Hoc Network Routing Protocols and applications
• Graphical Password Authentication
• GSM-based Advanced Wireless Earthquake Alarm System for early warning
• Computerized Paper Evaluation using Neural Network
• Deploying a wireless sensor network on an active volcano
• Data Mining and Predictive Analytics
• Understanding Data Science and Data-Driven Businesses
• Dynamic Car Parking Negotiation and Guidance Using an Agent-based platform
• Real-Time Street Light Control Systems
• Data Security in Local Networks using Distributed Firewalls
• Design of a wireless sensor board for measuring air pollution
• Design of diamond-based Photonics devices
• Design of Low-Density Parity-Check Codes
• What is LiDAR Technology?
• Tizen Operating System – One OS for everything
• Authentication using Biometric Technology
• Speech Recognition
• The working of Self-Driving Vehicles
• Speech Processing
• Digit recognition using a neural network
• Digital Audio Effects Control by Accelerometry
• Digital Camera Calibration and Inversion for Stereo iCinema
• Dynamic resource allocation in Grid Computing
• Dynamic Virtual Private Network
• Earth Simulator – Fastest Supercomputer
• Electromagnetic Applications for Mobile and Satellite Communications
• Electronic nose & its application
• Elliptical Curve Cryptography (ECC)
• Cryptocurrency Wallet – is it the Future of Blockchain Technology
• Reactive Power Consumption in Transmission Line
• SPINS – Security Protocol For Sensor Network
• Smart Bandage Technology
• Embedded web server for remote access
• Encrypted Text chat Using Bluetooth
• Electronic toll collection
• Electronic waste (e-waste)
• Apache Hadoop Introduction
• Embedded web server for industrial automation
• Eyegaze system
• Fuel saver system
• Guarding distribution automation system against cyber attacks
• Face detection technology
• Falls detection using accelerometry and barometric pressure
• Fast Convergence algorithms for Active Noise Controlling Vehicles
• Fault-tolerant Routing in Mobile ad-hoc network
• Ferroelectric RAM
• Fingerprint recognition system by neural networks

Technical Paper Topics on CyberSecurity

• Flexible CRT Displays
• Fluorescent Multilayer Disc (FMD)
• Fluorescent Multilayer Optical Data Storage
• Forecasting Wind Power
• Fractal image compression
• Fractal robots
• Geometric Invariants in Biological Molecules
• Global positioning response system
• Broadband over power line
• Card-based security system
• Face Recognition Technology
• GSM Digital Security Systems for Printer
• Groupware Technology
• Indian Regional Navigation Satellite System
• GSM Security And Encryption
• Hardware implementation of background image modeling
• HAVI: Home Audio Video Interoperability
• Hawk Eye – A technology in sports
• High Altitude Aeronautical Platforms
• High-Performance Clusters
• High-Performance DSP Architectures
• High-speed circuits for optical interconnect
• High-speed LANs or the Internet
• Holographic Data Storage
• Holographic Memory
• Holographic Versatile Disc
• Holt-Winters technique for Financial Forecasting
• HomeRF and Bluetooth: A wireless data communications revolution
• How does the Internet work?
• Hyper Transport Technology
• How does a search engine work ?
• How does google search engine work ?
• Human-computer interaction & its future
• Design of a color Sensing System for Textile Industries
• GSM-based Path Planning for Blind Persons Using Ultrasonic
• Imbricate cryptography
• Implementation of hamming code
• Implementation of QUEUE
• Image transmission over WiMAX Systems
• Implantable on-chip Power Supplies
• Integrating Wind Power into the Electricity grid
• Integration of wind and solar energy in smart mini-grid
• Intelligent navigation system
• Intelligent Patient Monitoring System
• Intelligent RAM: IRAM
• Intelligent Software Agents
• Interactive Voice Response System
• Internet architecture and routing
• Internet Protocol duplicate address detection and adaptation
• Investigation of the real-time implementation of learning controllers
• IP spoofing
• IP redirector features
• iSCSI: The future of Network Storage
• ISO Loop magnetic couplers
• Jamming and anti-Jamming Techniques
• Light-emitting polymers
• Load balancing and Fault-tolerant servers
• Light Interception Image Analysis
• Lightning Protection Using LFAM
• Liquid Crystal on Silicon Display (LCOS)
• Location estimation and trajectory prediction for PCS networks
• Low-Power Microelectronics for Biomedical Implants
• Low-Power Oscillator for Implants
• Magnetic Random Access Memory
• Managing Data In Multimedia Conferencing
• Microchip production using extreme UV lithography
• Modeling of wind turbine system for an Interior Permanent magnet generator
• Moletronics – an invisible technology
• Power generation through Thermoelectric generators
• Multi-Protocol Label Switching
• Multiuser Scheduling for MIMO broadcasting
• Multisensor Fusion and Integration
• Parasitic computing
• Password paradigms
• Polymer memory – a new way of using plastic as secondary storage
• Programmable logic devices (PLD)
• Non-Volatile Static RAM
• Optical coherence tomography
• Open source technology
• Ovonic unified memory
• Personal satellite assistant systems
• PH control technique using fuzzy logic
• Pluggable Authentication Modules (PAM)
• Power Efficiency and Security in Smart Homes
• Proactive Anomaly Detection
• Prototype System Design for Telemedicine
• QoS in Cellular Networks Based on MPT
• Quad-Core Processors
• Real-Time Operating Systems on Embedded ICs
• Real-Time Speech Translation
• Real-Time Systems with Linux/RTAI
• Reliable and Fault-Tolerant Routing on Mobile Ad Hoc Network
• Robotic Surgery
• Vehicle monitoring and security system
• Space-time adaptive processing
• Radiofrequency identification (RFID) technology
• Rapid prototyping

Paper Presentation Topics for Computer Science Engineering

• Secured web portal for online shopping
• Securing underwater wireless communication networks
• Security analysis of the micropayment system
• Security requirements in wireless sensor networks
• Semantic web
• Sensitive skin
• Snake robot the future of agile motion
• Software-Defined Radio (SDR)
• Importance of Software-Defined Wide-Area Networks
• SPWM(sinusoidal pulse width modulation) technique for multilevel inverter
• Switchgrass
• Solar Powered Speakers
• Security on Wireless LAN Adaptive cruise control
• Session Initiation Protocol (SIP)
• Shallow water Acoustic Networks
• Significance of real-time transport Protocol in VOIP
• Simulating Quantum Cryptography
• Single photon emission computed tomography
• Smart cameras for traffic surveillance
• Smart Fabrics
• Space Mouse
• Space Robotics
• Speech Enhancement for Cochlear Implants
• Speed Detection of moving vehicles using speed cameras
• Swarm intelligence & traffic safety
• Synthetic Aperture Radar System
• Systems Control for Tactical Missile Guidance
• The Architecture of a Moletronics Computer
• The Evolution of Digital Marketing
• Thermal infrared imaging technology
• Thought Translation Device (TTD)
• Three-dimensional password for more secure authentication
• Ultrasonic motor
• Wearable biosensors
• Traffic Light Control System
• Wireless integrated network sensors
• Ultrasonic detector for monitoring partial discharge
• Ultra-Wideband Communication
• What is IPaaS? Trending IPaaS Services Available In the Market
• Wireless Computer Communications Using Sound Waves
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213 thoughts on “Latest Technical Paper Presentation Topics”

Hello sir! Hope you are doing well. I have a technical paper presentation this semester, so I would like some suggestions in the domain of HCI, AI- ML, and Data science. Thank you sir.

Hello sir! , Can you help me on what kind of application that are very useful in the present?

Are you looking for mobile applications or web applications? Automating the manual processes will add more value.

work automation (can be delivery, operations, movement, robotics, AI/ML etc) Traffic control systems Communication/Data transfer VR/AR

Hi sir! Can you help me what can feature can i add in Log In System for Covid 19 . Thankyousmuch sir❤️

If you are looking for a Covid application for the information purpose, it may include the following things: 1. Covid statistics (country/state/city/daily/weekly/monthly wise) 2. Individuals health history 3. Vaccination status 4. Hospitals and health centers information

You can add many more things like health hygiene shops, tourism etc.

need some technical topic related to ECE

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• Engineering /

Seminar Topics for Electrical Engineering

• Updated on  
• Jan 15, 2024

Concerned with the study and development of devices, equipment, and tools that work on the principles of electricity and electronics, Electrical Engineering is one of the choicest degree courses after 12th Science . Being a vast field of study, it will equip you with the knowledge and skills related to designing and working with a plethora of electrical components like devices, chips, and systems of huge power, electric circuits, etc through topics like signal processing, laser, ultrasound, ferroelectrics, automobiles , and vehicular technology, Furthermore, apart from classroom-based sessions, you will also gain practical exposure through seminars where you will be familiarised with the latest technological advancements. So, in this blog, we have collated a list of the most important seminar topics for Electrical Engineering !

This Blog Includes:

176 popular seminar topics for electric engineering, seminar topics for electrical engineering: general overview, popular universities for pursuing electrical engineering.

• Paper Battery 
• Renewable Energy 
• Ultrasonic Motor
• Power Theft Detection
• Wireless Electricity
• Automatic Meter Reading
• Wave Energy Converter 
• Shape Memory Alloy

Optical Satellite Communication

• Infrared Plastic Solar Cell 
• HVDC Technology
• HVDC Technology and Short Circuit Contribution of HVDC Light?
• Icing of Power Transmission lines
• Improving Electrical System Reliability with Infrared Thermography
• Infrared Thermography
• In-Memory Database
• Input Output Completion Ports
• Instrument Landing System
• Integrated Gate Commutated Thyristor
• Integrated Vehicle Health Management Technology
• Integration of IT in Machine Tools
• Intelligent Substation
• Interactive Voice Response System
• Internet Protocol Television
• Introduction to Data Mining and Knowledge Discovery
• Intrusion Detection With Snort
• Iris Scanning
• Lates IE Rules
• Lightning Protection Using LFA-M
• Line Reactors
• Liquid Electricity
• Load Monitoring
• Maglev Train
• Magnetic Levitation
• Magneto hydrodynamic Power Generation Technology (MHD
• Magnox Nuclear Reactor
• Margin to restore Power System Solvability
• Matrix Inversion Generator
• Membrane Switch
• Metamorphic Robots
• Micro Electro Mechanical Systems (REMEMS
• Micro Fuel Cells
• Micro Power Electrostatic Generator (MEG
• Micro-power Generator
• Microprocessor based alternator synchronization
• Microprocessor Based Motor Speed Controller
• Microprocessor based power theft identification
• MOCT (Magnetic Optical Current Transformer
• Modeling of Transformers with Internal Incipient Faults
• Molecular Electronics
• Molecular surgery
• MPEG Video Compression
• Nano Technology
• Nanotechnology-Fueling the Chemical Industry?s Future
• Nanotechnology-The Next Science Frontier
• Narrowband Powerline Communication
• Navigation system
• Neutral networks in process control
• Night Vision
• Nomad Expert Technician System
• Ome Automation
• Optical Antenna
• Optical var Control
• Opto Electric Battery
• Organic LED
• Perceptive computing
• Plastic chips
• Polymeric Positive Temperature Coefficient (PPTC
• Power electronics
• Power frequency magnetic fields
• Power Quality
• Power System Contingencies
• Power System Solvability
• Power Theft Identification
• PPTC Devices
• PPTC Devices for Protection of Battery Packs
• Prediction of the closest margin to restore Power System Solvability
• Prepaid Energy meter
• Project Oxygen
• Protection of transmission systems by using the global positioning system
• Public Key Encryption and Digital Signature
• Pumped Hydroelectric Energy Storage
• Pyroelectric Fusion
• Radio Correction Finder
• Bio Battery
• Radial Feeder Protection

Flexible Electronics

• Bluetooth Technology 
• Optical Inter Satellite Communication 
• Electromagnetic Field and Waves
• GPS Interface in GSM Networks
• Wireless Communication 
• Power Electronic Devices and Applications
• LED Lighting for Energy Efficiency 
• Reactive Power
• Solar Power Satellite 
• Irrigation Control System 
• Electric AC and DC devices 
• Energy Efficient Motors 
• Robotic Motors 
• Solar Photovoltaic 
• Electric Cars
• Energy Saving Tube Light 
• Geothermal Power Stations
• High-Availability Power Systems
• Navigation System
• Thermoelectric Coolers
• Spintronics
• Static VAR (Voltage Ampere Reactive compensator)
• Stirling Radioisotope Generator (SRG
• Super conducting generator
• Super Conducting Magnetic Energy Storage Systems
• Superconducting Generator
• Superconducting Rotating Machines
• Superconductivity
• Supervisory control and data acquisition (SCADA systems in power stations)
• Surge current protection using superconductors
• Surge Protection in Modern Devices
• Synchronous voltage source
• Technique for Online Detection of Shorts in Fields
• Tele-Immersion
• Telluric Current
• Terrestrial Photovoltaics (PVs
• The global voltage regulation
• Tiny Switch
• Transformers Internal Incipient Fault Model
• Transient overvoltages in the electrical distribution system and suppression techniques
• Transient Over Voltages
• Transmission for Offshore Wind Farms
• Tsunami Early Warning System
• Ultracapacitors
• Ultrasonic motor
• Ultrasonic sound detection and its applications
• Universal Current Sensor
• User Authentication using Automated Biometrics
• Variable speed drives
• Voltage Sag Analysis
• Wave energy
• Wave Power Devices
• Wavelet Transforms
• Written-Pole technology
• 33 KV gas-insulated switchgear
• 66 K V Switch Yard
• 66 KV receiving station design
• Tsunami Early Warning System 
• Fault Prediction & Diagnosis
• Flexible AC Transmission System
• AI Powered Environmental Sensors
• Embedded Security
• Secure boot in Embedded Systems
• ARM-Based Embedded Web Server
• Solar electric vehicles
• Underwater Welding
• Solar Powered Refrigeration System
• Hybrid Electric Vehicle
• Gas-insulated Substations (GIS)
• Flex Circuit Prototyping
• BiCMOS Technology
• Brushless Alternators
• Resistive RAM
• Germanium-Tin Laser to replace copper wire for data transfer (an IEEE paper)
• Witricity (WIRELESS ELECTRICITY)

Now that you have an idea about the topics which can be considered for the seminar, here is a brief summary of some of the important seminar topics for Electrical Engineering. 

From OLCD screens and wearable electronics to biomedical devices, flexible electronics is the future. Being cost-effective, unbreakable, and extremely light in weight, it has become one of the most researched seminar topics for Electrical Engineering. 

With the advancements in technology and the growing need for uninterrupted communication in the defence sector, space exploration, mobile, and other services, Optical Satellite Communication forms an essential part of the seminar topics for Electrical Engineering. This type of technology is extremely beneficial in remote areas or places where wire-based networking is not possible. 

Automated Streetlights

A unique innovation in the field of Technology, automated streetlights, as the name suggests, needs no manual activity for turning the lights ON and OFF. It identifies the ambient light and performs the functions accordingly. Since it consists of photoelectric cells, which is a popular area for research, this topic becomes one of the important seminar topics for Electrical Engineering. 

Paper Battery

Made of Carbon Nanotubes (CNTs) and cellulose, paper batteries work both as supercapacitors and an excellent battery. Due to this, it has become a very popular seminar topic for Electrical Engineering. 

Based on the QS 2022 Rankings, we have listed down a few universities which offer Electrical Engineering or its related domains.  

Related Reads:-

Ans. 1. Wireless Communication 2. Face Recognition Systems 2. Global Positioning Systems 3. Radio Frequency Identification Technology 4. Flexible Electronics 5. Cryptography 6. Nanoelectronics 7. Paper-Based Sensors 8. Bioinformatics 9. Automatic Cars 10. Magnetic Optical Current Transformer

Ans. Here are some tricks and tips you should follow in order to deliver an excellent presentation on technical seminar topics: 1. Identify your audience and choose a topic accordingly. 2. Research well about the seminar topic. 3. Add the latest inventions/technological advancements in the same area. 4. Include verified statistics in the form of pie charts, bar graphs, etc. 5. Begin by giving a brief overview of the chosen seminar topic for Electrical Engineering. 4. Devote at least 1-2 minutes on every slide. 5. Elucidate the technical terms if and when needed. 5. Conclude well.

Ans. Here’s the list of 5 current issues in Electrical Engineering; 1. Product Quality Issues. 2. Product Reliability Issues. 3. Price Performance Issues. 4. Outsourcing Issues. 5. Concerns about job security.

Hence, there are scores of seminar topics for Electrical Engineering which you can explore! Do you have plans to pursue a master’s abroad? Don’t know how to go about it? Then reach out to our experts at Leverage Edu who will help you craft an impressive SOP and will also provide assistance in completing the other mandated formalities.

Team Leverage Edu

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• Public Property Violation and Anti Littering Drone
• Raspberry Pi based Android Controlled Surveillance Robot
• Farm Protector Drone for using Arduino
• Automatic Liquid Dispenser Vending Machine
• Driver Drowsiness Detection System for Accident Prevention
• Power Grid Failure Detection Based on Voltage and Frequency Variance Detection
• IOT based Smart Energy Meter Monitoring with Theft Detection
• Automated Vehicle Umbrella Tent for Hailstorm Protection
• Zigbee based Wireless Home Security System
• Smart Home Automation System with Light Dimmer
• Gas Leakage Detection with Buzzer System using Atmega
• Water Pollution Monitoring RC Boat
• Multi-purpose Sea Surveillance + Search & Rescue RC Boat
• Intelligent Surveillance and Night Patrolling using Drone
• Automatic Waste Segregation System
• Arduino based Snake Robot Controlled using Android Application
• Garbage Collection Robot Using Wireless Communication Technology
• Waste and Garbage Recycling Vending Machine Project
• Raspberry Pi Based Vehicle Starter on Face Detection
• Smart Door Receptionist with Smart Lock
• Auto Selection of any Available Phase in 3 Phase Supply System
• Advanced Footstep Power Generation System using RFID for Charging
• ACPWM Control System for Induction Motor using AVR Microcontroller
• Greenhouse Monitoring and Control System using IOT Project
• IOT Based Coal Mine Safety Monitoring and Alerting System
• Advanced Automatic Self-Car Parking using Arduino Project
• IOT Based Heart Monitoring System Using ECG
• Smart Stand-up wheelchair using Raspberry Pi & RF
• Arduino Based Autonomous Fire Fighting Robot
• Dual Axis Solar Tracking System with Weather Sensor
• Face Recognition Door Lock System Using Raspberry Pi
• Arduino Ultrasonic Sonar/Radar Monitor Project
• Raspberry Pi Vehicle Anti-Theft Face Recognition System
• Home Air Quality Monitoring System Project
• Voice Based Hot Cold-Water Dispenser System using Ras Pi
• Rotating Solar Inverter Project using Microcontroller 50W
• Vertical Axis Wind Turbine With Inverter
• Raspberry Pi based Weather Reporting Over IOT
• IOT Based Monitoring System for Comatose Patients
• Motion Controlled Pick & Place Obstacle Avoider Robot
• IOT Early Flood Detection & Avoidance
• IOT Garbage Monitoring Using Raspberry Pi
• IOT Circuit Breaker Project
• Third Eye For Blind Ultrasonic Vibrator Glove
• Automatic Road Reflector Light
• Android Powered Juice Vending Machine
• Remote Control Plant Watering System Using 8051
• Women Safety Night Patrolling Robot
• IOT Mining Tracking & Worker Safety Helmet
• Auto Baby Cry Detector Sleep Music Player PIC
• Auto Water Pump Switcher
• Auto Billing Mall Shopping Cart 8051
• Grid Tie Rotating Solar Rooftop System Atmega
• IOT Flood Monitoring & Alerting System Using Ras Pi
• IOT Prison Break Monitoring & Alerting System
• Plant Soil Moisture & Ph Sensing Alarm Using 8051
• Smart Crop Protection System From Animals PIC
• IOT Paralysis Patient Health Care Project
• RFID Based Smart Master Card For Bus Train Metro Ticketing
• Wifi Based Secure Wireless Communication Using RSA
• IOT Car Parking System
• Solar Powered Battery Charging With Reverse Current Protection
• Multi Robot Coordination For Swarm Robotics
• Wearable Health Monitoring System Project
• Automated Night Lighting System
• Zigbee Based Gas Fire Detection System
• Short Circuit Indicator Project
• Sun Tracking Solar Panel Using Arduino
• Object Tracker & Follower Robot Using Raspberry Pi
• IOT Smart Energy Grid
• Bill Prediction & Power Factor Measuring With SMS Alert
• Induction Motor Speed & Direction Controller
• DC Motor Speed Control Using GSM
• Mini Windmill Power Generation Project
• Raspberry Pi Wheelchair With Safety System
• IR Wireless Underwater Communication System
• Multiple Cities Load Shedding Using ARM
• Automatic Lemon Juice Vending Machine
• Solar Peizo Hybrid Power Charging System
• Zigbee Based Room Temperature Controller Project
• Load Sensing Seats With Lights Fan Control
• Induction Motor Speed Controller Project
• Arduino Based System To Measure Solar Power
• Hybrid Inverter With Solar Battery Charging
• Fingerprint Based Bank Locker System
• Fingerprint Vehicle Starter Project
• TV Remote Controlled Home Automation PIC
• IOT Based ICU Patient Monitoring System
• Motion Based Door Opener With Metal Detector
• Secure Fingerprint Bank Locker With Image Capture
• Smart Room Temperature Controller Atmega
• Ultrasonic Radar Project
• IOT Irrigation Monitoring & Controller System
• Accurate Room Temperature Controller Project
• High Performance Hovercraft With Power Turning
• Smart Solar Grass Cutter With Lawn Coverage
• Automatic Light Intensity Controller By External Light Sensing
• Vehicle Movement Based Street Lights With External Light Sensing
• Traffic Density Control With Android Override Using Avr
• Alcohol Sensing Alert with Engine Locking Project
• Prepaid Energy Meter With Theft Detection
• PC Based Home Automation
• Advanced Military Spying & Bomb Disposal Robot
• Human Speed Detection Project
• Smart Wireless Battery Charging With Charge Monitor Project
• Hovercraft Controlled By Android
• Fully Automated Solar Grass Cutter
• Machine Overheat Detection With Alert
• Home And Industrial Safety Using Fire And Gas Detection System
• Rf Controlled Spy Robot With Night Vision Camera
• GSM based Industry Protection System
• Automated Visitor Counter With 7 Segment Display
• Vehicle Theft Detection/Notification With Remote Engine Locking
• Android Controlled Automobile
• Home Automation Using Android
• Zigbee Based Secure Wireless Communication Using AES
• Voice Controlled Robotic Vehicle
• Automated Elevator With Overload Alert
• Gsm Based Weather Reporting (Temperature/Light/Humidity)
• Fingerprint Authenticated Device Switcher
• Fingerprint Based Exam Hall Authentication
• Rain Sensing Automatic Car Wiper
• Wireless Red Signal Alerting For Trains
• GSM Stepper Motor Speed & Direction Controller
• FingerPrint Voting System
• Automated RF plus IR Based Paid Parking Manager System
• Geo Location Guide Using RF
• Motion Based Message Conveyer For Paralytic/Disabled People
• RF Based Secure Door Opener System
• Billing System Based On RFID
• GSM Patient Health Monitoring
• Remote Stepper Motor Controller System
• Dam Operation Based On Water Level
• Alcohol Sensing Display With Alarm Project
• Motion Based PC Video Game
• Automatic Unauthorized Parking Detector With SMS Notification To Owner
• RTC Based Pump Switcher
• Ultrasonic Blind Walking Stick
• Fire Plus Hazardous Gas Detection And Instant SMS Alerting System
• Remote Controlled Robotic Arm Using Rf
• Android Controlled Robotic Arm
• Mini IR Radar For Unauthorized Object Detection
• CNG/LPG Gas Accident Prevention With Gsm Alert
• Gsm Based Door Unlocker system
• Auto Lap Time Measurement System
• SMS Voting System Project
• Prepaid Electricity Billing Meter
• CNG/LPG Gas Leakage Accident Prevention System
• Robotic Vehicle With Metal Detection Project
• Programmable Sequential Load Operation Controlled By Android Application Project
• Car Overspeeding Detection Project
• RF Secure Coded Communication System
• Android Password Based Remote Door Opener System Project
• Android Controlled Remote Password Security
• Android Controlled Railway Level Gate Control
• Android Controlled Remote AC Power Control
• Robot Controlled By Android Application
• Xbee Transformer/Generator Health Monitor Project
• Security Access Control Using RFID Project
• Home Appliance Control Using Android Application Project
• Anti Stampede Monitoring And Alarm Project
• Attendance System Based On RFID Project
• Commercial Power Saver Project
• Industry Power Consumption Penalty Minimization Using AFPC Unit Project
• Obstacle Avoider Robotic Vehicle
• Precise Digital Temperature Controller
• Circuit Breaker Based On Password
• Multi Microcontroller Networking System
• Motion Based Automatic Door Opener
• Industry Temperature Control System
• Android Controlled Fire Fighter Robot
• Speech Detector Robotic Vehicle Control
• Robotic Arm Vehicle Controlled By Touch Screen Display
• Android Controlled Based Spy Robot With Night Vision Camera
• Android Controlled Pick And Place Robotic Arm Vehicle Project
• GPS + GSM Based Advanced Vehicle Tracking System Project
• Shuttling Metro Train Between Stations Project
• Monthly Electricity Billing Display With Bill SMS Feature
• Power Meter billing Plus Load Control Using GSM
• Industrial Load Switcher Based On Touch Screen
• Energy Management System With Programmable Numbers using GSM
• SMS Controlled Railway Level Gate Control With Programmable Numbers
• Instant Electric Circuit Breaker
• TV Remote Controlled Robotic Vehicle Project
• Device Load Monitor With Programmable Meter For Energy Audit
• Zero Contact TachoMeter (SpeedOMeter)
• Dish Position Controller Using TV Remote
• Thyristors Based Dual Converters
• Flexible Ac Transmitter System Using TSR
• SVC Based Flexible AC Transmission System(FACTS)
• Microcontroller based 4 Quadrant speed control system
• Advanced Wireless Power Transfer System
• 3d Space Wireless Power Transferring Project
• Car Parking Project Based on RFID
• Controlling Pc By TV Remote as Mouse
• Car Speed Checker With Led Display
• Wireless PC Communication System
• TV Remote Controlled Home Appliances Project
• Digitally Controlled Home Automation Project
• Vehicle Sensing Street Lights Project
• Lamp Illumination Control With Precision
• Load Shedding Time Management With Programmable Interface
• Industry Automation Using Programmable Switching in Repetitive Nature Of Work
• Android Controlled Induction Motor with 7 segment display
• Ultrasonic Object Detection Project
• Solar Street Lights With Auto Intensity Controller
• AC Power Controller With Programmable Interface
• Postage Stamp Value Calculator
• IOT Industry Protection System Arduino
• Smart Floor Cleaner Robot Using Android
• Motion Based Maze Solver Using Android
• Speaking System For Mute People Using Hand Gestures
• Smart Dustbin With IOT Notifications
• IOT Smart Mirror With News & Temperature
• 3D Holographic Display System With Gesture Controller
• Automatic Sketching Machine Project
• Automatic Whiteboard Eraser Robot
• Motion Based Home Automation & Temperature Controller
• Plant Moisture Monitoring System
• Gas Leak Detector With Automatic Air Exhaust Using ARM Cortex
• Mini Audio Amplifier Project
• Womens Safety Device With GPS Tracking & Alerts
• Wireless Doorbell Calling System
• Ultrasonic Blind Stick With GPS Tracking
• Raspberry Pi Speaking Bus Stop Reminder
• Vehicle Speed Limiter Project
• Automated Paralysis Patient Healthcare System Project
• Self Balancing Robot Project
• Flammable Gas & Fire Accident Prevention Project
• Workplace Alcohol Detector With Instant Reporting
• Bus & Truck Drunk Driving Alert Using PIC
• Combustible Gas Detection With GSM Alert Using PIC
• Automatic Railway Train Safety System
• Rotating Solar Panel Using Arduino
• Factory Worker Alcohol Detector With Automatic Machine Shutdown
• RFID Attendance System With SMS Notification
• Fingerprint Based Security System
• Advanced Footstep Power Generation System
• Coin Based Water Dispenser System
• Rough Terrain Beetle Robot
• IOT Weather Reporting System
• IOT Air & Sound Pollution Monitoring System
• Energy Meter Monitoring Over IOT
• IOT Based Person/Wheelchair Fall Detection
• IOT Patient Health Monitoring Project
• IOT Heart Attack Detection & Heart Rate Monitor
• IOT Based Toll Booth Manager System
• Anti Drowning System With Remote Alert
• Fire & Gas Accident Avoider System
• Solar UPS Project
• GPS Vehicle Tracking & Theft Detection
• Automated Car Parking With Empty Slot Detection
• Vehicle Movement Street Light With Light Sensing Atmega
• Programmable Energy Meter With Bill Estimation
• Remote Controlled Pick & Place Robotic Vehicle
• Voice Based Notice Board Using Android
• Android Antenna Positioning System
• Wireless Mobile Charging Project
• Hand Motion Controlled Robotic Arm
• Soldier Health & Position Tracking System
• Hand Motion Controlled Robotic Vehicle
• DC Motor Speed Control By Android
• Android Circuit Breaker
• Industry Process Automation Using Programmable Switching
• IOT Garbage Monitoring System
• IOT Liquid Level Monitoring System
• Voice Controlled Home Automation
• Traffic Controller Based On Density With RF Remote Override
• Heart Attack Detection By Heart Beat Sensing
• GSM Based Home Automation
• Android Military Spying & Bomb Disposal Robot
• Wildlife Observation Robot Using Rf
• Remote Controlled Automobile Using Rf
• Android Controlled Wildlife Observation Robot
• Electronic Notice Board Controlled By Gsm
• Automated Water Pump with Dry Run Intimation using Gsm
• Configurable Medication Reminding Syst
• Electrical Load Controlled By PC
• Displaying Moving Message On Notice Board Using PC
• Efficient Power Manager Project
• Testing Life Cycle Of Electrical Loads Using Down Counter
• IR Based Obstacle Detection For Load Switching Project
• IR Based Traffic Density Detection And Signal Adjustment
• AC Power Strength Controller System
• Traffic Signals With Synchronization System
• Solar Panel With Sun Position Tracking
• Multi Motors With Synchronized Speed
• Irrigation System running on Solar Power
• System To Measure Solar Power
• Controlling Solar Energy Charge
• Single Phase Induction Motor With Smooth Start
• Configurable Password Security System
• MC Based Line Follower Robot
• Supervisory Controlling Plus Data Acquisition For Remote Industry
• RFID Based Passport Project
• Android Controlled Notice Board Project
• Displaying message Using Led Propeller
• Load Control System Using DTMF
• Ultrasonic Distance Measurement Project
• Dialled Telephone Number Display On 7 Segment
• IR Based Dish Position Controller
• Discotheque Flashing Stroboscopic Light
• Dynamic Signal Light Timings On Traffic Density
• Density based traffic controller with android overriding ability
• Liquid Level Controller System Without Contact
• Thyristor Based Cyclo Converter
• Closed Loop DC Motor Control To Run It At Exact Speed
• Remote Vehicle Control Through Cell Phone
• DTMF Cell Phone Based Door Opener
• RPM Display For BLDC Motor With Speed Controller
• Remote Controlled Induction Motor Controller
• MC Based Remote Beacon Flasher
• Patient Health Check Using Wireless Health Monitor
• Fire Fighter Robot With Night Vision Camera
• Induction Motor Timer Using Auto Delta Star Starter
• Multi-Power Supply Using 4 Different Sources
• IR Remote Thyristor Power Controller
• Controlling Induction Motor Power Through Thyristor
• ZVS Based 3 Stage Solid State Relay
• DC Motor Speed Controller
• Visitor Sensor Light With Seven Segment Display
• Display Object Counter On 7 Segment Display
• Extending Life Of Lamps Using Zero Voltage Switching
• Cycle Switching Without Harmonics For Industrial Power Control
• Thyristor Firing Angle Control For Battery Charging
• Home Automation Using Touch Screen
• Automating Homes Using RF
• Auto Irrigation using soil moisture sensor
• Street light automatic intensity controller
• Accident Identification and alerting project
• Agricultural Robot Project
• IR Lighting Controller
• Wireless Surveillance Robot Controlled by PC
• Long Range Spy Robot With Night Vision
• Long Range Spy Robot With Obstacle Detection
• Long Range Spy Robot With Metal Detection
• Anti Terrorism vehicle authorizing System
• Bike security anti theft Project
• Touch Pad Based Device Project
• Mobile Charging On Coin Insertion
• Early Flood Detection System
• Ultrasonic Navigation For The Blind
• Industry Color Mixer Using Gsm
• Automatic PC Surveillance System Camera
• Fire Fighter Robot Project
• Fuel theft detection
• Home Security using Gsm
• Automatic Toll Collection Project
• Auto Light/Water Saving Project
• Quad Rotor (Four Fan Helicopter)

Here is a list of robotics and microcontroller based projects for electronics and communication students. These projects are well researched systems that have huge scope and can be useful to the society in various ways. Browse through our latest electronics and communication project ideas. Get electronics project ideas for innovative systems not yet implemented in the real world.