ROS Package for Autonomous Navigation for Differential drive robots
-
Updated
Jul 21, 2020 - CMake
ROS Package for Autonomous Navigation for Differential drive robots
This project provides ROS drivers for Bosch Off-Highway sensor systems. (Radar Off-Highway Premium, Radar OHW, General Purpose Radar Off-Highway (GPR), Ultrasonic Sensor System OHW Entry & Premium)
Line (wall) extraction using Lidar sensor data with recursive Split and Merge algorithm.
Seminar on MPC based Path Tracking using Potential Field for Autonomous Mobile Robots
Fixing localisation of autonomous mobile robot (TurtleBot3) using Extended Kalman Filter and Lidar sensor.
DDDMR navigation is a navigation stack for mobile robot autonomously moving in 3D environment
Semantic Hierachical Graph for multi-story Navigation
Autonomous Mobile Robot (AMR) gazebo simulator
RoboPID is a PID controller designed for Autonomous Mobile Robotics to handle the combined kinematic and dynamic complexity of differential drive linear and lateral wheeled motion control. The controller implements timestep integration and can be used in discretized time regulators.
ROS2 package to command robot go under trolley by using LIDARS / Laser Scan Data
A Multi-Agent System (MAS) using SPADE agents is a decentralized framework where multiple autonomous agents communicate and collaborate to solve complex tasks.
The source code of the SRSA-GT algorithm
Implementation of Differential control of TurtleBot3.
Prototype development of Modular Autonomous Mobile Robot with interchangeable extensions to enhance versatility.
Toolkit of mapping, bounding, ranging, trigonmetric functions for the development of mobile robotic software and systems that are frequently needed and convenient to have in one place.
Robot navigation with Q learning
Add a description, image, and links to the autonomous-mobile-robots topic page so that developers can more easily learn about it.
To associate your repository with the autonomous-mobile-robots topic, visit your repo's landing page and select "manage topics."