Unlike previous attempts, which struggled with real-time obstacle avoidance at high speeds, the model named SUPER integrates ...

Brain-computer interfaces may allow paralyzed people to perform basic actions such as eating and typing, but … well, there's ...

A man with paralysis was able to fly a virtual drone through a complex obstacle course simply by thinking about moving his ...

A groundbreaking brain implant has allowed a paralyzed man to control a virtual drone and fly it through an obstacle course.

The brain–computer interface allowed the participant to control the drone with six times the accuracy of EEG-based systems.

Participant says controlling the virtual drone felt like playing a musical instrument, evoking activity and socialization.

When you think about moving your fingers, neurons (brain cells) in the motor cortex (the brain’s movement control center) ...

This project implements a drone obstacle avoidance system using AirSim and the Deep Deterministic Policy Gradient (DDPG) algorithm. The goal is to train a drone to navigate through an environment ...

A breakthrough brain-computer interface (BCI) has enabled a 69-year-old man with tetraplegia to control a virtual drone ...

This repository contains the implementation of an Obstacle Avoidance system for drones. The project leverages computer vision and sensor data to allow a drone to autonomously navigate through an ...