Force-controlled dexterous robotic hand · serves as: Manipulation, Sensing, HRI. · compatible with: Humanoid.
Which group Unitree Dex3-1 belongs to and how it is built
A subcategory encompassing robotic hands with multiple degrees of freedom, designed to perform complex grasping, regrasping, manipulation, and object interaction tasks. Unlike simple grippers, dexterous hands enable more advanced finger coordination and a broader variety of grasp types.
Force-controlled dexterous robotic hand components are advanced manipulator end-effectors equipped with force, torque, or contact sensing, designed for safe and precise object handling. They are used in humanoid robots, research platforms, and tasks requiring delicate or adaptive grasping.
A class of robotic hands with three working fingers. Designs of this type represent a compromise between mechanical complexity, manipulation capability, and ease of control. They are used in lightweight manipulation systems, research platforms, and select humanoid applications.
Basic physical properties of Unitree Dex3-1 — dimensions, weight and materials
Other hardware parts related to Unitree Dex3-1
Designed for use with the Unitree G1 humanoid; programmatic integration is handled within the Unitree developer ecosystem for G1. Compatible with the Unitree G1 SDK Development Guide, Dex3-1 Developer, Unitree SDK2, and unitree_ros2. Supports both ROS and a dedicated API.
Unitree Dex3-1 is a three-fingered dexterous hand developed by Unitree Robotics for precise object manipulation. The manufacturer highlights hybrid force-position control, high operational sensitivity, and the ability to perform complex manipulation tasks.
The component offers 7 degrees of freedom, 33 tactile sensors per hand, a USB 2.0 interface, and a communication frequency of 1000 Hz. The official product page indicates compatibility with the Unitree G1 humanoid robot.
