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With this project we are able to measure the power consumption and hence enable a prepaid systems for the energy meters.<br/>
 
With this project we are able to measure the power consumption and hence enable a prepaid systems for the energy meters.<br/>
 
'''Technologies used: Microcontroller, GSM, Current Sensor, Embedded C.
 
'''Technologies used: Microcontroller, GSM, Current Sensor, Embedded C.
 +
}}
 +
 +
 +
{{Box|type=blue_dark|text=ROBOTICS}}
 +
*'''''RB01 Color Sensing Robot for Industrial Object Movement.'''''
 +
{{Box|type=l_green_light|text=
 +
When items, tools or components are shared by different workstations, transportation of these can be time consuming.  This robot recognizes color and follows a predefined path to get the object from a particular station. Hence the robot can quickly transverse to different stations and get the corresponding objects which are place on it.<br/>
 +
'''Technologies used: Wheeled robotics, RGB color sensor, Microcontrollers, Embedded C.'''
 +
}}
 +
 +
 +
*'''''RB02  DTMF controlled robot for industrial goods movement.'''''
 +
{{Box|type=l_green_light|text=
 +
This project intends to build a robot which can be controlled using a mobile phone, hence when the distance is large and it is required to carry the objects with reliable connectivity, this mobile DTMF controlled robot comes in handy.<br/>
 +
'''Technologies used: Wheeled robotics, DTMF telephony, Microcontrollers, Embedded C.'''
 +
}}
 +
 +
 +
*'''''RB03 Zigbee controlled robot for versatile applications.'''''
 +
{{Box|type=l_green_light|text=
 +
With advances in Zigbee communication technology, it is feasible to control a robot in an industrial environment with it, this project explores possibilities of controlling a wheeled robot using Zigbee.<br/>
 +
'''Technologies used: Wheeled robotics, Zigbee wireless, Microcontrollers, Embedded C.'''
 +
}}
 +
 +
 +
*'''''RB04 Android Smartphone touch screen controlled robot.'''''
 +
{{Box|type=l_green_light|text=
 +
The user interface becomes much more intuitive with advent of smart phone, this wheeled robotics project uses android touch screen hardware as its console.  This project explores embedding android accessory protocol to control the robot.<br/>
 +
'''Technologies used: Wheeled robotics, Android, Microcontrollers, Embedded C, Java for Android.'''
 +
}}
 +
 +
 +
*'''''RB05 Android Smartphone Accelerometer Robot.'''''
 +
{{Box|type=l_green_light|text=
 +
The gaming consoles based on accelerometer sensors in smart phones can be fun, like the car racing games, this project explore how a physical robot can be steered using the inbuilt accelerometers of a Android phone.<br/>
 +
'''Technologies used: Wheeled robotics, Android Sensors, Microcontrollers, Embedded C, Java for Android.'''
 +
}}
 +
 +
 +
*'''''RB06 Voice controlled robot for versatile application.'''''
 +
{{Box|type=l_green_light|text=
 +
Voice commands are natural to us, and with advances with voice recognition technology, it is possible to control a wheeled robot with voice commands.  This project explores such a possibility.<br/>
 +
'''Technologies used: Wheeled robotics, voice recognition, Microcontrollers, Embedded C.'''
 +
}}
 +
 +
 +
*'''''RB07 DTMF controlled video streaming robot.'''''
 +
{{Box|type=l_green_light|text=
 +
Video surveillance is need of the day, this projects takes a step further by, a mobile controlled robot that streams live video. Can be used to track movement, surveillance and numerous other places.<br/>
 +
'''Technologies used: Wheeled robotics, DTMF telephony, video streaming,  Microcontrollers, Embedded C.'''
 +
}}
 +
 +
 +
*'''''RB08 Obstacle avoidance and path following robot for industrial applications.'''''
 +
{{Box|type=l_green_light|text=
 +
Many industrial applications require object movement carried out in particular path like an automobile assembly unit; this robot follows a destined path and avoids obstacles that come in the way.<br/>
 +
'''Technologies used: Wheeled robotics, IR sensors,  Microcontrollers, Embedded C.'''
 +
}}
 +
 +
 +
*'''''RB09 Laser path following robot for virtual fencing.'''''
 +
{{Box|type=l_green_light|text=
 +
This project explores a way to make a wheeled robot follow light or a laser signal. This can be used for virtual fencing and surveillance, in places where physical fencing is not feasible.<br/>
 +
'''Technologies used: Wheeled robotics, LDR,LASER,  Microcontrollers, Embedded C.'''
 +
}}
 +
 +
 +
*'''''RB10 Robotic Vacuum Cleaner.'''''
 +
{{Box|type=l_green_light|text=
 +
This is an interesting robotics application, wherein the robot transverses a confined room picking dust and other particles and sweeping up the area, can be used at home, office or parks.<br/>
 +
'''Technologies used: Wheeled robotics, Motorized brushes,  Microcontrollers, Embedded C.'''
 +
}}
 +
 +
 +
*'''''RB11 Mobile controlled Pesticide Spraying robot.'''''
 +
{{Box|type=l_green_light|text=
 +
Pesticide spraying in agricultural fields can be harmful; this project aims to take on the hazardous task. The robot can be controlled using a mobile phone and sprays pesticides.<br/>
 +
'''Technologies used: Wheeled robotics, Water sprinkler,  Microcontrollers, Embedded C.'''
 
}}
 
}}

Revision as of 16:17, 13 January 2014

ANDROID HARDWARE + BLUETOOTH

  • AS01 Home appliances control using Android

With this project we intend to control AC/DC devices at home using android smart phone. Android communicates with a microcontroller relay board with the help of blue tooth serial port profile (SPP).
Technologies used: Microcontroller, Embedded C, Relays Drivers, Java for android.


  • AS02 Proximity environment Monitoring (any 2 parameters).

Measurement of parameters like temperature, humidity, pressure etc is very much essential these days either at home, or an industrial environment, with this set up we intend to measures these parameters real time and display it on the android smart phone.
Technologies used: Microcontroller, sensors, Relays Drivers, Embedded C,Java for android


  • AS03 Patient’s vital parameter measurement and real time display on Android.

Critical parameters like temperature and blood pressure are measured continuously and updated on android smart phone. This application can be used by doctors or anyone else trying to know the heath status.
Technologies used: Microcontroller, sensor: temperature, blood pressure, Relays Drivers, Embedded C, Java


  • AS04 Object or tray mover using Android Accelerometer.

Elderly people or patients at hospitals often find it difficult to grab objects or pass around things, this application demonstrates how a simple tray can be moved around using a smart phone, and they need not press any buttons, just move the phone intuitively to move the tray mounted on a wheeled robot.
Technologies used: Microcontroller, Robotics, Embedded C, Java for android


  • AS05 Industrial environment monitoring and control using Android.

This application demonstrates measurement of parameters like temperature and controlling the cooling system, preventing system/process from getting damaged with real time updates.
Technologies used: Microcontroller, Robotics, Embedded C, Java for android


  • AS06 Voice based Devices control using Android Smart phone.

Control appliances by just calling their name, this application controls AC/DC devices using voice commands from the android smart phone.
Technologies used: Microcontroller, Relay driver, Embedded C,Java for android


  • AS07 Smart Ambiance Colorful lighting for home.

Lighting at home can have colorful shades, with this project we intend to implement a smart lighting system, wherein user can change ambience of home with different colored lighting from the android smart phone. The system uses a RGB led strip, with which different colors can be generated.
Technologies used: Microcontroller, Relay driver, Embedded C,Java for android


  • AS08 Android touch controlled Robot.

This wheeled robot can be controlled using touch screen of the android smart phone! This project intends to control a wheeled robot which can be used in various applications to be controlled using touch screen of an android smart phone.
Technologies used: Microcontroller, Robotics, Embedded C, Java for android


  • AS09 Android Accelerometer screen controlled Robot.

This project is a real time gaming console! Just like virtual games on the computer, android smart phone can be used to control a speedy robot with it accelerometer.
Technologies used: Microcontroller, Robotics, Embedded C, Java for android


  • AS10 LPG /toxic gas leakage detection alert on Android Smart phone.

With this project we intend to detect any type of gas leakage, for instance LPG and alerting it on android smart phone.
Technologies used: Microcontroller, LPG sensors, Embedded C, Java for android


  • AS11 Digital Notice board using Android Smart Phone.

All real time updates can be directly displayed on the notice board, from android smart phone. It can be used in schools, colleges or merchandises for effective display of important messages or advertisements.
Technologies used: Microcontroller, Graphics LCD(128 x 64), Embedded C, Java for android


  • AS12 Restaurant Order Management and display.

This project aims to make the order management system in restaurants more efficient, the customer can choose items directly from android application and send across which will be displayed on graphics LCD.
Technologies used: Microcontroller, Graphics LCD(128 x 64), Embedded C,Java for android


GSM GPS Projects

  • G01 Home appliances control using GSM.

This project intends to control home appliances like FAN, lights etc using GSM. SMS (short messaging service) is used to control the environment, also feedback is provided to the user after the control action.
Technologies used: Microcontroller, GSM, Relay board, Embedded C.


  • G02 Remote Parameter Measurement using GSM.

Important physical parameters like temperature, humidity, and light intensity are measured with the help of this project. Any two parameters can be implemented, user needs to send a SMS command to know the status
Technologies used: Microcontroller, GSM, Embedded C, temperature, humidity sensor, LDR.


  • G03 LPG gas cylinder booking using GSM.

This project automates the GAS booking procedure, also updates the user on availability and delivery status of this important item.
Technologies used: Microcontroller, GSM,, Embedded C.


  • G04 Real time Voting update and counting using GSM from all constituencies.

This project aims to bring transparency in the electoral process. The system counts for the votes of various candidates in real time and broadcasts the same, it prevents delays and makes the voting system more robust and error free.
Technologies used: Microcontroller, GSM, Embedded C


  • G05 Important bulk SMS broad casting using GSM.

This project can be used to update a large number of subscriber’s users in case of important events. The project comprises of database of registered users, and is capable of sending alerts to all the users.
Technologies used: Microcontroller, GSM, Embedded C.


  • G06 Digital Notice board using GSM.

All important events in the collage will be displayed on a graphical LCD, also this notice board broadcasts important events to all the students and teachers about the events with SMS.
Technologies used: Microcontroller, GSM, Embedded C,LCD Display.


  • G07 Pollution Monitoring using GSM.

This system can be installed in various places to monitor the pollution levels, it measures important parameters like gases, light intensity, temperature etc and updates a central database.
Technologies used: Microcontroller, GSM, Embedded C, gas sensor, temperature sensor, LDR.


  • G08 LPG gas leakage detection and alert.

This project detects the leakage of LPG gas and auto dials a list of stored numbers. Also broadcasts SMS.
Technologies used: Microcontroller, GSM, Embedded C, gas sensor.


  • G09 Real time Public transportation tracking.

This project uses GPS to locate the buses, and maintains database of present location. Whenever a user requests for a bus arrival on particular route, it updates the real time location.
Technologies used: Microcontroller, GSM, Embedded C.


  • G10 Traffic monitoring and control using GPS and GSM.

This project monitors for traffic logjam and updates users based on SMS. It provides a smart approach to monitor and control the traffic. Also suggests, alternate routes.
Technologies used: Microcontroller, GSM, GPS, Embedded C.

  • G11 Intelligent Traffic Signaling for Emergency Services Vehicles like Ambulance.

A GSM system located on ambulances and fire fighter vehicles, alerts the upcoming traffic junction, sensing an emergency the traffic signal paves way for the emergency services vehicles.
Technologies used: Microcontroller, GSM,GPS, Embedded C.


  • G12 Automatic toll collection system for highways using GPS.

This system detects the incoming vehicles to toll booth, the system communicates with on board GPS+GSM unit to issue e-tickets.
Technologies used: Microcontroller, GSM, GPS, Embedded C.


  • G13 Advance Home Security using GSM.

This system updates house owners when someone approaches near their home, implements a level wise security alerts, finding any intrusion system alerts the owner. Also provides provisions for control action like a siren.
Technologies used: Microcontroller, GSM, PIR sensors, Embedded C.


  • G14 Secure Transport of Goods.

This system uses GPS to track the location of transport vehicles and alerts the owners if there is any diversion of the route from the normal route.
Technologies used: Microcontroller, GSM, GPS, Embedded C.


  • G15 Real time courier Tracking.

This system places GSM, GPS modules on all vehicles carrying courier, and updates users on real time location of their parcel using SMS.
Technologies used: Microcontroller, GSM, GPS, Embedded C.


  • G16 Auto compound gate controller using DTMF.

In this project we try to solve the inconvenience caused during parking of car or any other vehicle. We controller the main gate with the help of DTMF Telephony, so that driver can call and operate the gate himself while entering inside.
Technologies used: Microcontroller, GSM, DTMF telephony, Embedded C.


  • G17 Vehicle theft prevention using GSM and GPS.

This system can be installed to track any vehicle. The geographical co-ordinates of the vehicle are tracked by GSM, and alerted with SMS using GPS.
Technologies used: Microcontroller, GSM, GPS, Embedded C.


  • G18 Transport vehicle tracking and data logging using GPS.

This system enables safe and secure transport of costly goods and other essential petroleum products. The vehicle is tracked along its route and if any diversion is found from the destined route, an alert is issued. Alert specific to tampering of the goods can also be incorporated.
Technologies used: Microcontroller, GSM, GPS, Embedded C.


  • G19 Border Crossing alert for fishermen using GPS.

Often fishermen cross sea boundaries, this system is used to track the co-ordinates and alert the fishermen whenever they cross the boundary.
Technologies used: Microcontroller, GSM, GPS, Embedded C.


  • G20 Company cab tracking and monitoring using GPS.

Often company cabs require tracking in order to increase their fuel efficiency and track routes. This enables companies to dynamically route the pickups and drops of the employees saving valuable time.
Technologies used: Microcontroller, GSM, GPS, Embedded C.


  • G21 GPS based automatic station name announcing system for trains and buses.

Alerting passengers on arrival of their destinations is very important, it removes language barriers and need of constantly monitoring the route. The stations are tracked with GPS and appropriate announcements are made.
Technologies used: Microcontroller, GPS, Embedded C.


  • G22 GSM controlled automatic energy Meter.

With this project we are able to measure the power consumption and hence enable a prepaid systems for the energy meters.
Technologies used: Microcontroller, GSM, Current Sensor, Embedded C.


ROBOTICS

  • RB01 Color Sensing Robot for Industrial Object Movement.

When items, tools or components are shared by different workstations, transportation of these can be time consuming. This robot recognizes color and follows a predefined path to get the object from a particular station. Hence the robot can quickly transverse to different stations and get the corresponding objects which are place on it.
Technologies used: Wheeled robotics, RGB color sensor, Microcontrollers, Embedded C.


  • RB02 DTMF controlled robot for industrial goods movement.

This project intends to build a robot which can be controlled using a mobile phone, hence when the distance is large and it is required to carry the objects with reliable connectivity, this mobile DTMF controlled robot comes in handy.
Technologies used: Wheeled robotics, DTMF telephony, Microcontrollers, Embedded C.


  • RB03 Zigbee controlled robot for versatile applications.

With advances in Zigbee communication technology, it is feasible to control a robot in an industrial environment with it, this project explores possibilities of controlling a wheeled robot using Zigbee.
Technologies used: Wheeled robotics, Zigbee wireless, Microcontrollers, Embedded C.


  • RB04 Android Smartphone touch screen controlled robot.

The user interface becomes much more intuitive with advent of smart phone, this wheeled robotics project uses android touch screen hardware as its console. This project explores embedding android accessory protocol to control the robot.
Technologies used: Wheeled robotics, Android, Microcontrollers, Embedded C, Java for Android.


  • RB05 Android Smartphone Accelerometer Robot.

The gaming consoles based on accelerometer sensors in smart phones can be fun, like the car racing games, this project explore how a physical robot can be steered using the inbuilt accelerometers of a Android phone.
Technologies used: Wheeled robotics, Android Sensors, Microcontrollers, Embedded C, Java for Android.


  • RB06 Voice controlled robot for versatile application.

Voice commands are natural to us, and with advances with voice recognition technology, it is possible to control a wheeled robot with voice commands. This project explores such a possibility.
Technologies used: Wheeled robotics, voice recognition, Microcontrollers, Embedded C.


  • RB07 DTMF controlled video streaming robot.

Video surveillance is need of the day, this projects takes a step further by, a mobile controlled robot that streams live video. Can be used to track movement, surveillance and numerous other places.
Technologies used: Wheeled robotics, DTMF telephony, video streaming, Microcontrollers, Embedded C.


  • RB08 Obstacle avoidance and path following robot for industrial applications.

Many industrial applications require object movement carried out in particular path like an automobile assembly unit; this robot follows a destined path and avoids obstacles that come in the way.
Technologies used: Wheeled robotics, IR sensors, Microcontrollers, Embedded C.


  • RB09 Laser path following robot for virtual fencing.

This project explores a way to make a wheeled robot follow light or a laser signal. This can be used for virtual fencing and surveillance, in places where physical fencing is not feasible.
Technologies used: Wheeled robotics, LDR,LASER, Microcontrollers, Embedded C.


  • RB10 Robotic Vacuum Cleaner.

This is an interesting robotics application, wherein the robot transverses a confined room picking dust and other particles and sweeping up the area, can be used at home, office or parks.
Technologies used: Wheeled robotics, Motorized brushes, Microcontrollers, Embedded C.


  • RB11 Mobile controlled Pesticide Spraying robot.

Pesticide spraying in agricultural fields can be harmful; this project aims to take on the hazardous task. The robot can be controlled using a mobile phone and sprays pesticides.
Technologies used: Wheeled robotics, Water sprinkler, Microcontrollers, Embedded C.