Embedded System IEEE Electronics Projects 2012 | 2013

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Embedded System IEEE Electronics Projects 2012 | 2013

IEEE Embedded System Electronics Projects 2012|2013

1 GPS-GSM Integration for Enhancing Public Transportation Management Services
2 A Remote Home Security System Based on Wireless Sensor Network and GSM Technology
3 Bidimensional Control System through Successive Monitoring for Obstacles Identification
4 Wireless Measurement and Control System for Environmental Parameters in Greenhouse
5 The Electrical Ethernet monitoring system based on embedded Web server
6 Engineering Location Based Path finding on Indian Road Networks Over Low End Mobile Phones
7 A Robot Motion Authoring using Finger -Robot Interaction
8 Design of Intelligent Tire Safety Pre-alarm System Based on ARM7
9 Design of Intelligent Mobile Vehicle Checking System Based on ARM7
10 Development of a System to Detect Surgical Material Retained in the Patients during Operation
11 Fingerprint Based Identity Authentication for Online Examination System
12 Applications of Wireless Sensor Networks in the Oil, Gas and Resources Industries
13 An Empirical Study of RF link for Wireless automotive Active/Passive Entry System
14 An embedded system and rfid solution for transport related issues
15 A Real-Time Wireless Brain-Computer Interface System for Drowsiness Detection
16 ZigBee-Wireless Mesh Networks for Building Automation and Control
17 ZigBee Sensor Network for Advanced Metering Infrastructure
18 A Wireless Quiz System using Low Power Microcontrollers
19 Design and application of an automatic packaging machine controller based on AT mega 128/AT89s51
20 Design and Implementation of Nodes Based on CC2430 for the Agricultural Information Wireless Monitoring
21 A Mobile GPRS-Sensors Array for Air Pollution Monitoring
22 A Low Cost Microcontroller Implementation of Neural Network Based Hurdle Avoidance Controller for a Car-Like Robot
23 Improvement of Energy Consumption for “Over-the-Air” Reprogramming in Wireless Sensor Networks
24 Design and Application of Mobile Embedded Systems for Home Care Applications
25 Design of ARM-based Embedded Ethernet Interface
26 A Project-Based Laboratory for Learning Embedded System Design With Industry Support

JJ

This is Mr.Jose John, 21 yrs old guy, currently pursuing final year mechanical engineering, now become an enthusiastic blogger and a successful entrepreneur.
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Automatic Railway Gate Control and Track Switching

ABSTRACT

Present project is designed using 8051 microcontroller to avoid railway accidents happening at unattended railway gates, if implemented in spirit. This project utilizes two powerful IR transmitters and two receivers; one pair of transmitter and receiver is fixed at up side (from where the train comes) at a level higher than a human being in exact alignment and similarly the other pair is fixed at down side of the train direction. Sensor activation time is so adjusted by calculating the time taken at a certain speed to cross at least one compartment of standard minimum size of the Indian railway. We have considered 5 seconds for this project. Sensors are fixed at 1km on both sides of the gate. We call the sensor along the train direction as ‘foreside sensor’ and the other as ‘aft side sensor’. When foreside receiver gets activated, the gate motor is turned on in one direction and the gate is closed and stays closed until the train crosses the gate and reaches aft side sensors. When aft side receiver gets activated motor turns in opposite direction and gate opens and motor stops. Buzzer will immediately sound at the fore side receiver activation and gate will close after 5 seconds, so giving time to drivers to clear gate area in order to avoid trapping between the gates and stop sound after the train has crossed.

The same principle is applied for track switching. Considering a situation wherein an express train and a local train are traveling in opposite directions on the same track; the express train is allowed to travel on the same track and the local train has to switch on to the other track. Two sensors are placed at the either sides of the junction where the track switches. If there’s a train approaching from the other side, then another sensor placed along that direction gets activated and will send an interrupt to the controller. The interrupt service routine switches the track.  Indicator lights have been provided to avoid collisions. Here the switching operation is performed using a stepper motor. Assuming that within a certain delay, the train has passed the track is switched back to its original position, allowing the first train to pass without any interruption. This concept of track switching can be applied at 1km distance from the stations.

Demo of the system

Gate Control:

Railways being the cheapest mode of transportation are preferred over all the other means .When we go through the daily newspapers we come across many railway accidents occurring at unmanned railway crossings. This is mainly due to the carelessness in manual operations or lack of workers. We, in this project has come up with a solution for the same. Using simple electronic components we have tried to automate the control of railway gates. As a train approaches the railway crossing from either side, the sensors placed at a certain distance from the gate detects the approaching train and accordingly controls the operation of the gate. Also an indicator light has been provided to alert the motorists about the approaching train.

Gate Control

Track Switching

Using the same principle as that for gate control, we have developed a concept of automatic track switching. Considering a situation wherein an express train and a local train are travelling in opposite directions on the same track; the express train is allowed to travel on the same track and the local train has to switch on to the other track. Indicator lights have been provided to avoid collisions .Here the switching operation is performed using a stepper motor. In practical purposes this can be achieved using electromagnets.

Track switching

Hardware Description

The project consists of four main parts:

  1. 8051 microcontroller
  2. IR Transmitter
  3. IR Receiver
  4. Stepper Motor Circuit

Read the rest of this entry »

JJ

This is Mr.Jose John, 21 yrs old guy, currently pursuing final year mechanical engineering, now become an enthusiastic blogger and a successful entrepreneur.
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IEEE DSP Electronics Projects

IEEE Electronics Projects 2013 | 2012 | 2011| 2010 | 2009 | 2008 | 2007

IEEE Electronics Projects  – Medical,Transmission & Biometrics Applications

97. Micro-calcification Cluster detected methods in Digitized Mammograms
98. Removal of Segmented Image Boundary Errors using N-ary Morphological Operator
99. Novel Wavelet Medical Image Fusion
100. Automatic Detection of Accretion of Glaucoma in Eye
101. Design an Algorithm for SAR Image Embedded Compression
102. Development of Medical Image Compression using Embedded Encoder
103. Face Recognition based on Wavelet Energy
104. Local Features for Enhancement and Minutiae Extraction in Fingerprints

IEEE Electronics Projects General Applications IEEE 2013 | 2012 | 2010 | 2009 | 2008 | 2007

105. Fuzzy based Clustering in Multiple Applications of Segmentation
106. Lane Detection System Using Hough Transform in Autonomous Guided Vehicles Application
107. Motion Compensated Video Denoising in Video Codec using Spatio-Temporal Filter
108. Optical Character Recognition from Complex Video Scene
109. Determination Optimal Number of Cluster in Segmentation Process
110. Segmentation by Fusion of Histogram in Nature Image Segment Application
111. Drowsy Driver System for Monitoring Driver Vigilance
112. Landmine Detection from IR Images using KL Transform
113. Voice Verification using Novel Algorithm
114. Improved Image Enhancement for License Plate Detection
115. Automatic Road sign Recognition using Neural Network

IEEE Electronics Projects Transmission, Medical Applications & IEEE 2010 Hardware Topics,
Real Time Applications

116. Performance Analysis of Different Spatial Filters on DSP Processor BF532/TMS320C5505
117. Implementation of Arithmetic Mean Filter on DSP Processor BF532/TMS320C5505
118. Design an Embedded codec on DSP Processor BF532/TMS320C5505 for Zigbee based Wireless Image Transmission
119. Design an Automated Video Surveillance System with MMS on DSP Video Processor BF532 in Real Time
120. Implement an Algorithm to Remove High Density Salt & Pepper Noise in Remote Sensing Application using DSP Processor BF532/TMS320C5505
121. Retinex Technology on DSP Processor BF532/TMS320C5505 for Remote Sensing Applications
122. Design of different Transformation in DSP Processor BF532/TMS320C5505 for WAN
123. Secret Data Communication through DSP Processor BF532/TMS320C5505 for Defense Application
124. Image Fusion Technology on DSP Processor BF532/TMS320C5505 for Medical Applications
125. Fast Image Transmission in Remote Sensing Applications using DSP Processor BF532/TMS320C5505
126. Image Fusion Technology on DSP Processor BF532/TMS320C5505 for Remote Sensing Applications
127. Implementing Watermarking Technology on DSP Processor BF532/TMS320C5505
128. Design a Lossless Image Compression Codec on DSP Processor BF532/TMS320C5505
129. Automatic Time Keeper for Browsing System Facility using DSP Processor BF532/TMS320C5505
130 Enhancement of Dark Images on BF532/TMS320C5505 in Remote Sensing Applications

JJ

This is Mr.Jose John, 21 yrs old guy, currently pursuing final year mechanical engineering, now become an enthusiastic blogger and a successful entrepreneur.
Connect with him on:

Facebook Twitter LinkedIn Google+ 

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