This gesture control robot project demonstrates the capability to control the robot without the need of push buttons or physical switches. With a 3-axis accelerometer device, commands to the output ...

If they saw that the robot had made a mistake, their brain would produce a signal known as an error-related potential (ErrP) – our brains automatically generate ErrPs whenever we see a mistake being ...

The team demonstrated the results of their research with a short video showing a human supervising a robot drilling holes in a piece of wood. The interface works on people the robot has never ...

Human–robot interaction (HRI) and gesture-based control systems represent a rapidly evolving research field that seeks to bridge the gap between human intuition and robotic precision. This area ...

System enables people to correct robot mistakes on multi-choice problems. Getting robots to do things isn't easy: usually scientists have to either explicitly program them or get them to understand ...

Researchers are always looking for ways to make controlling robots more natural for human operators. MIT is making strides in controlling robots using brainwaves and hand gestures. This could mean ...

Traditionally, robot arms have been controlled either by joysticks, buttons, or very carefully programmed routines. However, for [Narongporn Laosrisin’s] homebrew build, they decided to go with ...

Robotic technology has a staggering range of applications, but getting it to perform adequately can be a challenge, requiring specific programming based around the way humans communicate with language ...