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- Train Biped Robot to Walk Using Reinforcement Learning Agents
The output previousRngState is a structure that contains information about the previous state of the stream You will restore the state at the end of the example Biped Robot Model The reinforcement learning environment for this example is a biped robot The training goal is to make the robot walk in a straight line using minimal control effort
- Robotics System Toolbox - MATLAB - MathWorks
Robotics System Toolbox provides a library of robotics algorithms and tools to design, simulate, and test robotics application It includes commercially available industrial robot models to model your robot applications and reference examples of common industrial robot applications
- What Is SLAM (Simultaneous Localization and Mapping)?
SLAM (Simultaneous Localization and Mapping) is a technology used with autonomous vehicles that enables localization and environment mapping to be carried out simultaneously SLAM algorithms allow moving vehicles to map out unknown environments
- Get Started with Robotics System Toolbox - MathWorks
Robotics System Toolbox provides tools and algorithms for designing, simulating, testing, and deploying manipulator and mobile robot applications
- Robotics and Autonomous Systems - MATLAB Simulink - MathWorks
Robotics researchers and engineers use MATLAB and Simulink to design, simulate, and verify every aspect of autonomous systems, from perception to motion
- Model and Control a Manipulator Arm with Robotics and Simscape
Design YuMi robot algorithms in Simulink and simulate in Simscape, emphasizing algorithm precision and system modeling
- Control and Simulate Multiple Warehouse Robots - MathWorks
This example shows how to control and simulate multiple robots working in a warehouse facility or distribution center The robots drive around the facility picking up packages and delivering them to stations for storing or processing This example builds on top of the Execute Tasks for a Warehouse Robot example, which drives a single robot around the same facility This package-sorting
- Inverse Kinematics - MATLAB Simulink - MathWorks
Inverse kinematics (IK) determine joint configurations of a robot model to achieve a desired end-effect position Robot kinematic constraints are specified in the rigidBodyTree robot model based on the transformation between joints You can use generalized inverse kinematics (GIK) to solve for configurations that satisfy constraints, such as an aiming constraint for a camera arm or a Cartesian
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