Design and Development of Fire Detection Flying Machine in Deep Forest Abstract

This project “Design and development of fire detection FLYING Machine in deep forest” will be used for the detecting the fire in specified area in the forest by moving the robot to the different locations. Sensing of the fire will be done by moving the flying robot into the forest which is attached with fire sensor. And controlling of this flying robot will be by using the PC through zigbee based wireless communication protocol.

By using this project Easy way of detecting the fire in the forest by moving the flying robot to the different location in the forest.

The main application is to detect the fire in the building locations

Devices used in this Project:

  • Block diagram:
  • Fire sensor
  • Motor Driving IC
  • AVR Microcontroller
  • Regulated Power supply
  • Motor 1
  • Motor 2
  • Zigbee Transmitter
  • Personal computer
  • Voltage level converter
  • Zigbee Receiver

download Design and development of fire detection FLYING Machine in deep forest Embedded System project Abstract

Implementation of Obstacle Avoidance and Zigbee Control Functions for Omni Directional Mobile Robot Abstract

        Mobile robots perform various ways of tasks to serve humans such as home robot, inspection robot, security robot, school education robot, rehabilitation robot, and so on. The conventional mobile robots have used front-steering and rear- wheel driving mechanism to response all needed robot obvious motions, but the motion restriction is a major problem in the use of such mechanism. The omni directional configuration is a most suggested mechanism for mobile robot, which to have the capability of changing directions within the limited space in the indoor environment. 

             The ODMR (Omni directional mobile robot) uses IR sensor to sense the obstacle and send the obstacle distance signal to embedded controller. The embedded controller receives these obstacle detecting signals and then calculates the control signals to drive the motors to change the direction for the robot. ZigBee interface is also provided on the robot to give some control signals from the Personal computer attached with ZigBee enabled circuit. Using this ZigBee interface we can control the direction, speed for the robot. 

   In our proposed Implementation Of Obstacle Avoidance And Zigbee Control Functions For Omni Directional Mobile Robot  we are using ARM based microcontroller to control the IR sensor and robot Motors.Robot can move in any direction. But when any obstacle comes in front of the robot , IR sensor sense that obstacle and send appropriate signal to the microcontroller. Once the microcontroller receives IR signal then it itself having programe to give necessary control instructions to motor or it will send that IR detection signals to personal computer  using  wireless link of zigbee.PC having programe that  will provide  appropriate control signals to microcontroller using  Zigbee wireless link.After receiving this signal at microcontroller,it direct that signal to the motor. 

APPLICATIONS OF THE PROJECT: we can use these pc based robots in industries where it is impossible to the human beings.

ADVANTAGES OF THE PROJECT: Low cost, wireless and PC controlling.

DEVICES USED IN THIS PROJECT:

  • PC
  • XBEE
  • LPC2148(ARM7) MICROCONTROLLER
  • MOTOR1
  • MOTOR2
  • POWER SUPPLY
  • IR Rx
  • IR Tx

download Implementation Of Obstacle Avoidance And Zigbee Control Functions For Omni Directional Mobile Robot Abstract 

Controlling Robot by GSM SMS Embedded System Project (Abstract)

In this Controlling Robot By GSM SMS project we are going to control the ROBOT by using GSM SMS from the remote location. Commands received from the GSM mobile will be given to the GSM receiver. Whose signals will be given to the robot which consists ARM7 based microcontroller according the commands given from the GSM Mobile the robot will move. 

Applications of this Project: Used in the small scale & large scale industries where controlling of the robots is need to be done from remote location which longer distances.

BLOCK DIAGRAM CONSISTS OF:- 

  • LPC2148(ARM7) MICROCONTROLLER
  • MOTORS
  • DRIVING CIRCUIT
  • GSM
  • POWER SUPPLY
  • GSM Mobile

ADVANTAGES:. Works for the longer distances compare to the other wireless networks.

Features of this Project:  Works better for the longer distances compare to the other wireless networks.

download Controlling Robot By GSM SMS Embedded System Project (Abstract)

Design and development of weather monitoring FLYING Machine (Abstract)

This project “Design and development of weather monitoring flying machine” will be used for sensing the weather condition of the particular area by sending the flying robot to that particular location. Here in this Embedded System Final Year project the robot will be attached with sensors that are connected to the AVR based microcontroller through Analog to Digital Converter. That sensor information will be sent to the Personal computer through Zigbee based wireless communication.

TARGET DEVICE USED : ATtiny2313 (AVR) Microcontroller

PROGRAMMING : Embedded ‘C’ Programming language.

TOOLS REQUIRED: cvavr tool, uC flash programmer tool.

Features: sensing of the remote location weather condition without loss of human beings.

Block diagram Consists Of:

  1. Temperature sensor
  2. LDR
  3. ADC
  4. AVR Microcontroller
  5. Regulated Power supply
  6. Motor Driving IC
  7. Motor 1
  8. Motor 2
  9. Zigbee Transmitter
  10. Personal computer
  11. Voltage level converter
  12. Zigbee Receiver 

contact us for more information about Design and development of weather monitoring FLYING Machine project.

Download Design and development of weather monitoring FLYING Machine (Abstract)

Develop A Multiple Interface Based Fire Fighting Robot (Abstract)

In this Develop A Multiple Interface Based Fire Fighting Robot Project we are using the fire sensor to detect the fire .when ever fire is occurred then the Robot will go to that particular area and the blower or LED will on otherwise the blower or LED is in the off state.

The main advantage of this  Fire Fighting Robot is low cost, all human will be safe in small scale industries, chemical laboratories,  gas companies, homes.

BLOCK DIAGRAM CONSISTS OF:

FIRE SENSOR
LPC2148(ARM7)
MICROCONTROLLER
BLOWER/FAN/LED
TEMPERATURE SENSOR
MOTOR DRIVER
MOTOR1
MOTOR2
REGULATED POWER SUPPLY
RF Receiver
RF REMOTE

contact us For more information about Develop A Multiple Interface Based Fire Fighting Robot project.

Download Develop A Multiple Interface Based Fire Fighting Robot Embedded System Micro controller Final year Project Abstract

Design and Development of FPRS Based Electronic Voting Machine Abstract

This normal method voting technique has a possibility to leads to rigging. And actual person’s vote will be used by other persons. But this Design and Development of FPRS Based Electronic Voting Machine method of FPRS based Electronic Voting Machine will be used for maintaining more security. As finger prints are unique to each and every person, so non-other than the actual person can’t misuse the vote

BLOCK DIAGRAM CONSISTS OF:

  • KEYPAD
    LPC2148 (ARM7) Microcontroller
    LCD
    FINGER PRINT
    FINGER PRINT READER MODULE
    REGULATED POWER SUPPLY

contact us For more information about Design and Development of FPRS Based Electronic Voting Machine project.

Download Design and Development of FPRS Based Electronic Voting Machine Embedded System Final Year Project Abstract

Biometric Finger Print Recognition Based Time And Attendance System Abstract

The main objective of this Biometric Finger Print Recognition Based Time And Attendance System Abstract project is to develop an embedded system, which will record the time and attendance of an employee in an organization and send monthly record of employee’s work hours and using finger print recognition.

          Whenever the employee enters the office he puts his finger on the embedded system, then the embedded system will recognize the person, it will register time of entry and attendance.

In this Embedded System Final Year 2012 Project we are using the microcontroller module for getting the attendance system and controlling the closing and opening of the door which is demonstrated using the LED on/off. And the attendance will be stored in the microcontroller’s memory.

ADVANTAGES: More secure & Safe because of fingerprints  which are  separate for each and every person.

contact us For more information about Biometric Finger Print Recognition Based Time And Attendance System Abstract project

Download Biometric Finger Print Recognition Based Time And Attendance System Embedded system Final Year Abstract

Real-Time Atomization Of Agricultural Environment For Social Modernization Of Indian Agricultural System

This project “Real time atomization of agriculture environment for social modernization of Indian agriculture” will be useful for monitoring and soil condition of the farm field through the GSM based wireless communication as well as controlling can be done automatically by providing the water to the farm filed by switching on the motor automatically.This project will help the formers to know the status of the form field from the remote location.

In this Embedded System Final Year Project we are going to use ARM7 based microcontroller which is the current dominant architecture in the embedded systems. And the microcontroller is the LPC2148 microcontroller. And Moisture sensor will detect the soil condition and that uses the internal ADC of the LPC2148. The application will be written in Embedded C language using the Keil(IDE) and loading of the hex file into the microcontroller can be done by using the Flash magic.

BLOCK DIAGRAM:

LPC2148 (ARM7) MICROCONTROLLER
RELAY
MOTOR
MOISTURE SENSOR
GSM MODEM
GSM MOBILE

contact us For more information about Real-Time Atomization Of Agricultural Environment For Social Modernization Of Indian Agricultural System project.

Download Real-Time Atomization Of Agricultural Environment For Social Modernization Of Indian Agricultural System Embedded System Final Year 2012 Project Abstract

Optical data transfer between two controllers via Fiber optic communication (Abstract)

In this Optical data transfer between two controllers via Fiber optic communication project, the data is transmitted from a microcontroller to remote controller via fiber optic cable using RS232 communication. On transmitter side, a keypad is interfaced to enter the data. On the receiver side data will be sending to another microcontroller

For developing this project we have used Embedded ‘C’ programming language and  Keil software tool,Flash magic software tool and the target output device is LPC2148 Microcontroller.

The main application of this project is for the data communication, By using embedded system optical data transfer we can transfer huge amount of data with in less time & with high band width

BLOCK DIAGRAM:

  • LPC2148(ARM7)Microcontroller
  • MAX232
  • Fiber optic transmitter
  • Fiber optic receiver
  • Regulated Power Supply
  • LCD Display

contact us For more information about Optical data transfer between two controllers via Fiber optic communication project.

Download Optical data transfer between two controllers via Fiber optic communication  Embedded System Final Year Abstract

Wireless Access Monitoring and Control System Based On Digital Door Lock

WIRELESS ACCESS MONITORING AND CONTROL SYSTEM BASED ON DIGITAL DOOR LOCK  system has a Keypad or switches, Here we can submit password by using this Keypad. The entered password is same as stored password in database memory itcan send message to the user (owner). Then the perticular user sends an SMS to the embedded system then the relay will be on the door will be opened.  

Entering password by owner should be displayed on the LCD and the GSM (Global System for Mobile Communications) MODULE. If the sending password through the GSM (Global System for Mobile Communications) MODULE is also same as previous one, then the lock will be opened otherwise the lock can’t open to the perticular user. 

BLOCK DIAGRAM CONSISTS OF:

  • POWER SUPPLY
  • LPC2148(ARM7) MICROCONTROLLER
  • Liquid Crystal Display (LCD)
  • KEYPAD/SWITCHES
  • GSM (Global System for Mobile Communications) MODULE
  • RELAY
  • Light-Emitting Diode (LED)

download Wireless Access Monitoring and Control System Based On Digital Door Lock Final Year Project Abstract.