Hovercraft Controlled By Android


Hovercraft Controlled By Android report

Call:9591912372

Hovercraft Controlled By Android

Hovercraft Controlled By Android


Abstract: The principle extent of this anticipate is to build up a remote innovation based air cushion vehicle frameworkcontrolled utilizing android. An air cushion vehicle, otherwise called an air-pad vehicle or ACV, is a specialty equipped for going over area, water, mud or ice and different surfaces. Air cushion vehicle are crossover vessels worked by a pilot as an air shipinstead of a skipper as a marine vessel. It is presently utilized all through the world as particular transports in a fiasco alleviation, coastguard, military and review applications and additionally for game or traveler administration. Large forms have been utilized to transport several individuals and vehicles over the English Channel, whilst others have military applications used to transport tanks, troopers and vast gear in threatening situations and landscapeA hovercraft is a non wheeled vehicle that can hover over land as well as water easily using high powered fans and aerodynamic design. We here propose an advanced hovercraft that uses high rpm motors interfaced with an avrfamilymicrontroller to achieve desired functionality. The motor below hovercraft rotates at a very high RPM that allows it to generate a force enough to make it hover on the surface thus reducing the friction below it to minimum. Then we use the motor propeller mounted behind it to push the hovercraft in forward direction. Now we also need to use a servo motor attached to the hovercraft rudder that helps the hovercraft to move in desired directions by bending the air at accurate angles. The system works collectively to hover while continuously managing servo as well as propeller motor to drive the hovercraft as desired. Now to control the hovercraft we here use an android application. The android application sends movement commands to the hovercraft circuit. The circuit consists of an Bluetooth receiver to receive and process these commands. The commands received by receiver are now processed by the microcontroller and it then operates all three motors accordingly as desired by the user