Brain Controlled Robot -With this product you could start and stop the robot using your eeg signal of the brain.It uses brainsense sensor to measure the attention from the eeg signals of your brain.
Line follower is an autonomous robot which follows either black line in white are or white line in black area. Robot must be able to detect particular line and keep following it.
This article provides information to built Gesture Controlled Robot based on Micrcohip MGC3130 Efield Technology.
This article provides information to built Gesture Controlled Robot Robotic arm based on Micrcohip MGC3130 Efield Technology.
Android controlled arduino robot car make use of an Android mobile phone for robotic control with the help of HC-05 Bluetooth technology. This is a simple robotics projects using arduino microcontroller. This project is a bluetooth controlled robot. For this the android mobile user has to install an application on her/his mobile. This android application could be downloaded in the android market.
Then user needs to turn on the bluetooth in the mobile. The wireless communication techniques used to control the robot is bluetooth technology. User can use various commands like move forward, reverse, stop move left, move right. These commands are sent from the Android mobile to the bluetooth receiver which is interfaced with the Arduino robot.
A robotic arm is a type normally programmable mechanical arm, which can be used to pick and place various objects in the industries from one place to another place. It may be the sum total of the mechanism or may be part of a more complex robot. The parts of these manipulators or arms are interconnected through articulated joints that allow both a rotational movement. The FPGA based project is implemented using Spartan3an Project Kit and Robotic ARM kit.
Android Controlled Robotic ARM
This project controls robotic arm using android app and arduino
An Obstacle Avoidance Robot is an intelligent robot, which can automatically sense and overcome obstacles on its path. It contains of a Microcontroller to process the data, and Ultrasonic sensors to detect the obstacles on its path.
Obstacle avoidance is one of the most important aspects of mobile robotics. Without it robot movement would be very restrictive and fragile. This tutorial explains obstacle avoidance using ultrasonics sensors. This project also presents a dynamic steering algorithm which ensures that the robot does n’t have to stop in front of an obstacle which allows robot to navigate smoothly in an unknown environment, avoiding collisions.