IEEE EMBEDDED PROJECTS

ieee-embedded-projects-

Embedded system is a system that can perform a particular task. A software forbidden system that is designed for a specific purpose is an embedded system.It is one of the best domain for final year IEEE EMBEDDED PROJECTS.

S.NO PROJECT  TITLES
1 Implementation of greenhouse service control protocol using Python on Raspberry PI
2 Smart Traffic light control in the junction using Raspberry PI
3 Polynomial Vault: A secure and robust fingerprint based authentication
4 IOT based Electrical Device Surveillance and Control System
5 A Supervised Intrusion Detection System for Smart Home IoT Devices
6 A Secure IoT Enabled Smart Home System
7 Smart Sensor: SoC architecture for the Industrial Internet of Things
8 Arduino Based Smart Fingerprint Authentication System
9 Power-aware IoT based Smart Health Monitoring using Wireless Body Area Network
10 Person Recognition for Access Logging
10 Smart Energy Efficient Home Automation System Using IoT
11 An Embedded Fuzzy Logic Microcontroller For Plant Condition Monitoring: A Wireless Sensor Network Odyssey
12 Smart Waste Collection Monitoring and Alert System via IoT
13 An Improved Version of Student Attendance Management System Based on RFID
14 The Design and Implementation of GPS Controlled Environment Monitoring Robotic System based on IoT and ARM
15 Cultivation of plants under Artificial Environmental Parameters to Increase Productivity Rate
16 Road Sign Recognition System for Autonomous Vehicle using Raspberry Pi
17 Implementation of an Arduino Remote Laboratory with Raspberry Pi
18 Automatic Detection of Driver Impairment Based on Pupillary Light Reflex
19 Design and Implementation of a Wearable Sensor Network System for IoT-Connected Safety and Health Applications
20 Novel Smart Energy Theft System (SETS) for IoT based Smart Home
21 Real Time DC Water Tank Level Control using Arduino Mega 2560
22 Autonomous Energy-Efficient Wireless Sensor Network Platform for Home/Office Automation
23 Design and Implementation of Women Auspice System by Utilizing GPS and GSM
24 MULTIVIEW GARBAGE COLLECTION ESTIMATION USING IOT
25 Low-cost, Inkjet-printed UHF RFID Tag based System for Internet of Things Applications using Characteristic Modes
26 Design and Development of a Vehicle Safety Detection and Alarm System
27 A Smart Home Automation and Metering System using Internet of Things (IoT)
28 A Smart Home Appliance Control System for Physically Disabled People
1 Implementation of Machine Learning for Gender Detection using CNN on Raspberry Pi Platform
2 Implementation of Wireless Temperature and Humidity Monitoring on an Embedded Device
3 Internet of Things: Technology to Enable the Elderly
4 RaspiReader: Open Source Fingerprint Reader
5 An interdisciplinary approach to developing an IoT Healthcare solution in Applied Higher Education
6 A Raspberry Pi Controlled Cloud Based Air and Sound Pollution Monitoring System withTemperature and Humidity Sensing
7 Voice Recognition by Google Home and Raspberry Pi for Smart Socket Control
8 Smart Heart Rate Monitoring System
9 Design of Smart Home Environment Monitoring System Based on Raspberry Pi
10 Design of the Intelligent Control System of Classroom Based on Raspberry Pi
11 An IoT Solution for Online Monitoring of Anesthetics in Human Serum Based on an Integrated Fluidic Bioelectronic System
12 Polygon for smart machine application
13 LoRa based Renewable Energy Monitoring System with Open IoT Platform
14 IOT Based Controlling of Hybrid Energy System using ESP8266
15 Smart Work-Assisting Gear
16 A Wearable IoT Sensor Node for Safety Applications via LoRa
1 IoT applications on Secure Smart Shopping System
2 RFID-based Production Data Analysis in an IoT-enabled Smart Job-shop
3 IoT-Driven Automated Object Detection Algorithm for Urban Surveillance Systems in Smart Cities
4 Improving Smart Home Security; Integrating Logical Sensing into Smart Home
5 Self-Powered ZigBee Wireless Sensor Nodes for Railway Condition Monitoring
6 Data Monitoring and Hardware Control for App Android by Bluetooth Communication for Laboratory Teaching in Electrical Engineering Courses
7 A Two-level Traffic Light Control Strategy for Preventing Incident-Based Urban Traffic Congestion
8 Challenges and Opportunities of Waste Management in IoT-enabled Smart Cities: A Survey
9 A Novel Wireless Multifunctional Electronic Current Transformer based on ZigBee-based Communication
10 A New Early Warning Method of Train Tracking Interval Based on CTC
11 VOT-EL: Three Tier Secured State-Of-The-Art EVM Design Using Pragmatic Fingerprint Detection Annexed With NFC Enabled Voter -ID Card
12 The Development of a Remotely Controlled Home Automation System for Energy Saving
13 Secure IoT Platform for Industrial Control Systems
14 Internet of Vehicles (10 V) for Traffic Management
15 Communication Technologies for Complex Industrial Systems
16 Anti-theft Protection of Vehicle by GSM & GPS with Fingerprint Verification
17 An IoT Platform integrated into an energy efficient DC lighting grid
18 An Advanced Security System Integrated With RFID Based Automated Toll Collection System
19 Advance Automatic Toll Collection & Vehicle Detection During Collision using RFID
20 A Smart Meter Design and Implementation Using ZigBee Based Wireless Sensor Network in Smart Grid
21 Agricultural crop monitoring using IOT – a study
22 Worldwide auto-mobi: Arduino IoT home automation system for IR devices
23 A real time street lighting control system
24 Anti-theft protection of vehicle by GSM & GPS with fingerprint verification
25 Realisation of a Smart Plug device based on Wi-Fi technology for use in home automation systems

The Embedded system actually visible as hardware, but that hardware has an inside code that is constructed by a list of instructions to the hardware.These instructions will give guidance to the hardware how that should work.

We come across the embedded systems everywhere in our day to day life. The examples of the embedded systems are from the computer mouse to washing machine.

In 1971 Intel Corporation invented the world’s first Microprocessor, the 4004. The 4004 was designed specifically for embedded control – instead of general purpose computing and was first used in the calculator. In the year of 1972, The Intel Corporation invented the 8051 controller architecture.

We can use both the microcontroller and the microprocessors in the embedded systems. Initially, we need to understand the architecture of the particular hardware to do the program for it. After understanding the internal registers and the sizes of the buses, then we can get the idea to program it.

The programmer can write the program in any higher level languages like C or JAVA and even the lower level languages like Assembly language but it is the task of the assemblers and the compilers to convert the programmer language into the machine understandable language.

To embed the code into the hardware memory we need programmers also for the basic level of controllers like 8051 microcontrollers. This 8051 microcontroller based projects does by the B.Tech and B.E students in their academics as ECE mini projects.

Some higher level controllers like ARDUINO and the ARM7 (LPC2148) microcontrollers do not need any external programmer to load the executable file into the hardware. Using these controllers, final year IEEE projects will be done.

In nowadays, the higher level IoT applications. To do the same we need more powerful processors. One of those types of processors is Raspberry Pi. The Raspberry Pi 3 is the third-generation Raspberry Pi. It is the successor of the Raspberry Pi 2 Model B. It is very fast and does powerful things. The Raspberry Pi 3 has many inbuilt features like USB ports, internal Wi-Fi, Bluetooth, full-size HDMI etc. The internal Wi-Fi makes our life simple by making possible IoT applications.

The Raspberry Pi based Projects are doing by B.Tech and M.Tech  students under embedded systems stream. If you had any requirement in IEEE projects feel free to “Contact US”