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Design and implementation of multi sensor based autonomous minesweeping robot
- 1. Design and Implementation of Multi-sensor Based Autonomous Minesweeping Robot The act of removing landmines from the minefield is called mine clearance or demining process. On the other hand mine detection is referred to minesweeping procedure. Mine clearance term is often used for removing landmines within active combat zones. In military applications the priority of speed is rather than exactitude. In contrast with humanitarian purposes, exactitude of minesweeping procedure becomes more important. Minesweepers use many tools in order to accomplish their task. Trained animals such as dogs and rats are historically employed to find the landmines. The modern techniques of landmine detection are relied on metal detectors or vehicles with special mechanical devices that are designed for this application. To reduce the human activity within the minefield, all these tools and techniques are applied. Recently autonomous robots are being developed to decrease the possible civilian mine casualties. Minesweeping robots are classified into the rescue robots category that is recently a hot topic in robotic science. Existing System: Most of the robots are too huge and heavy to carry out such tasks in some narrow areas of city such as narrow aisles of buildings or pipelines of factories. To avoid this mini-size robot with multi sensor is designed. Proposed System: Reduction of the human activities in dangerous environment is the first objective of employing the autonomous mobile robots in many applications. Mine detection is a risky action that can be done by either human or robot. Here we design a mini sized robot with ultrasonic sensor, minesweeping sensor and Zigbee wireless communication. The robot uses the ultrasonic sensor for detecting obstacle found in its path; mine sweeping sensor is used to detect the mine in the field. After detecting the mine the controller sends the alarm message to monitoring center using Zigbee communication. From PC the robot can be controlled and monitored, the robot has
- 2. digital compass which shows the direction of moving robot. Using the compass data the robot moves to desired destination. Block Diagram: Control Unit:
- 4. Hardware Requirements: PIC Microcontroller Ultrasonic Sensor Digital compass Mine Detection Sensor LCD Display Max232 Zigbee Transceiver Motor Driver Robot Mechanism Software Requirements: Embedded C MPLAB or CCS Compiler Advantages: It can search in narrow areas for detection of dangerous materials. Robot design will be small.