IEEE PROJECTS LIST FOR ECE-REMOTE SENSING AND WIRELESS PROJECTS

TOP 10 IEEE PROJECTS LIST FOR ECE-REMOTE SENSING AND WIRELESS PROJECTS:

                                               

This post provides the top 25 high rated wireless projects title to enhance your project ideas.Some wireless based projects are:-

1. VANET implementation for versatile vehicular applications using global positioning system.
2. Multipurpose metropolitan ADHOC network implementation for domestic applications.
3. Excessive pollution reporting system for vehicles using multi hop metropolitan networks.
4. Remote sensing and control of an irrigation system using a distributed wireless sensor network
5. Adaptive signal switching for emergency vehicles using dynamic GPS tracking.
6. Maintenance free Agricultural WSN implementation for precession farming.
7. Decentralized patient monitoring WSN system implementation for large health care facilities.
8. AVCSS (Advanced vehicle control and safety system) using AD Hoc networks
9. Intelligent call router for institutions and offices using ISM band RF beacons and receivers.
10. 10 Domestic kiosks for residential society service requests using ZigBee network.
11. 11 Demonstration of power efficiency of wireless sensor networks over conventional P2P networks.
12. Solar energy harvesting wireless embedded systems for remote sensor networks
13. Zigbee based hierarchical network for supervisory industrial process control.
14. IRDA to Bluetooth interface for VPN compatible communications.
15. Zigbee to IRDA communication interface for communication with portable devices.
16. Ultra low power wireless weather station
17. MEMS based WSN for infrastructure monitoring using WSN.
18. WSN for monitoring commercial spaces for safety and security.
19. Marine ADHOC networks based portable SOS and navigation systems for fishermen.
20. Versatile Information system for Public Transports using burst mode transmission.
21. Rapid communication infrastructure for disaster conditions using open license communication bands.
22. Highway speed dictators for forced speed limiting of vehicles using low cost RF transceivers.
23. ZigBee tree topology based two way circular cum attendance system for institutions.
24. Short distance RF link based transportation assisting system for the blind using voice processor.
25. Deep sea probe based wireless tsunami or seismic activity alerting system.
26. RF information and warning system for drivers.

Hence this post is very useful to final year enginnering students to decide their project titles.For more detail about the project in various fields such as Mech,EEE,EIE,Civil and CSE/IT visit our site newprojectideas.

To view a engineering Wireless & Network related project,

• Visit    IEEE 2012 Projects for Instrumentation Engineering
• IEEE 2012 Projects for Communication Engineering
• IEEE 2012 Projects for Mechanical Engineering
• IEEE 2012 Projects for Robotics & Automation
• IEEE 2012 LabVIEW based projects
• Mechatronix projects

Search Engine Terms:

Wireless projects,ECE projects,IEEE projects,remote sensing projects, Communication projects

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NEW IEEE 2012 ROBOT PROJECT-Inter-Robot Communication in a Robot Orchestra

Inter-Robot Communication in a Robot Orchestra:

Abstract:

          Inter-Robot Communication in a Robot Orchestra is the handling of slave robot which is controlled by Master Robot.

Characteristics of this robot:

Could converse, sing, walk uphill, dance, kick and play using its fingers. Seven microphones are used in this system. Could sing in unison. Interact with humans with movements. Speech with more than 1000 words

 Learn new words also from the audience. Showed emotions by using flashing lights.Three CCD cameras in all, One in each eye and one at center. Two CCD cameras in eyes recognized up to 10 different faces and objects, and determined location of objects in view.Orchestra had novel instruments played by

robotic actuators.

Communication Model for Robot Orchestra:

MIDI (Musical Instrument Digital Interface):

        A musical device communicates data to another using MIDI protocol.Most musical instruments─ MIDI

compatible with MIDI IN and MIDI OUT connections.Optically isolated with the musical instrument hardware.

Programming model Model for Robot Orchestra:

  Inputs and Outputs to a software module:

• k sensor inputs to a module
• p outputs to message boxes
• q outputs generate to actuators in a sequence.

Orchestrator software module:

         Software which sequences, synchronizes the inputs from 1st to kth sensors and generates the messages

and outputs for the actuators, display and message boxes at the specified instances and time intervals.

 Message boxes store the notifications, which initiate the tasks as per the notifications.

Hardware & Software Module:

     Hardware:

• Processors
   ASIPs
   Memory
   Ports
   Devices

     Software:

•  ISRs for initiating action on user inputs and GUI notification, for example for Orchestra_Choice.

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IEEE 2012 PROJECTS FOR ELECTRICAL ENGINEERING

WIDE RANGE SPEED CONTROL OF DC MOTOR BY CONTROLLING SUPPLYING CURRENT USING PWM:

Abstract:
         The concept of this project is to control the speed of the DC motor by controlling the supplying current using pulse width modulation(PWM) method.By using PWM techniques we can chop the ac signal to control the speed of the DC motor.This techniques are commonly used in all sector next to armature control of the DC motor.

Components Required:

• 240 V DC motor
• AutoTransformer(0-300V)
• PWM circulation kit
• 240 AC supply,50 Hz
• Transistors,Resistor,Capacitor & Diode to design a circuit.

About DC Motor:
          A DC motor is the electric motor runs on electricity direct (DC) current. DC motors used to operate the machines, and the elimination of often need local steam engine or the internal combustion engine. DC motors can be easily operate directly from rechargeable batteries, and provide the driving force for the first electric vehicles. Presently, DC motors plays small applications such as toys and drives, or in large volumes to run the steel mills rolling machines and paper. And almost always run modern DC motors in conjunction with the electronic power devices

Speed Control using PWM:
        The difference methods are commonly used Pulse Width Modulation (PWM) or duty cycle to control the speed of the DC motors. The duty cycle is defined as a percentage of the 'high' digital to digital 'low' Digital Plus 'high' pulse width during PWM.

     

                    DC voltage average value of 0% duty cycle is zero, with a duty cycle of 25% of the average value 1.25V (25% of 5V). With a duty cycle of 50% of the average value 2.5V, and if the duty cycle is 75%, and the average voltage 3.75V and so on. Duty cycle can be maximum 100%, which is equivalent waveform DC. Thus by changing the pulse width, we can vary the average voltage across the motor DC, and thus speed.

Conclusion:

             By using PWM techniques we can chop or trim the supplying current admitted to the DC motor and hence the speed of this DC motor is controlled.This controlled DC motor is used in various field based on their application.

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