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A robotic leg powered by air muscles. A robot leg (or robotic leg) is a mechanical leg that performs the same functions that a human leg can. The robotic leg is typically programmed to execute similar functions as a human leg. A robotic leg is similar to a prosthetic leg. However, a robotic leg can be controlled electrically or mechanically.
Valkyrie, a humanoid robot, [1] from NASA. A humanoid robot is a robot resembling the human body in shape. The design may be for functional purposes, such as interacting with human tools and environments, for experimental purposes, such as the study of bipedal locomotion, or for other purposes. In general, humanoid robots have a torso, a head ...
Legged robots, or walking machines, are designed for locomotion on rough terrain and require control of leg actuators to maintain balance, sensors to determine foot placement and planning algorithms to determine the direction and speed of movement. [3] [4] The periodic contact of the legs of the robot with the ground is called the gait of the ...
The bot uses its leg joints and propellor-based thrusters to transition from walking to flying while performing complex tasks. Part high-heeled humanoid, part drone, this robot is one smooth mover ...
Korea's history in robotics engineering is relatively short. KAIST only began research in 2000, led by professor Oh Jun-ho. The first prototype, KHR-0, consisting of two legs without an upper body was built in 2001. KHR-1 was developed without a head or hands released in 2003, followed by a complete humanoid KHR-2 in 2004. [citation needed]
A humanoid robot is a robot that is based on the general structure of a human, such as a robot that walks on two legs and has an upper torso, or a robot that has two arms, two legs and a head. A humanoid robot does not necessarily look convincingly like a real person, for example, the ASIMO humanoid robot has a helmet instead of a face. An ...
The inside of the robot's chest contains a mechanical controller for the arms. [1] This controller triggers the worm gears connected to the robot’s pulley system, enabling the robot to wave its arms. [1] [3] The robot’s legs are controlled with an external crank and cable system attached to key pivots on the ankles, knees, and hips. [2]
RHex is an autonomous robot design, based on hexapod with compliant legs and one actuator per leg. A number of US universities have participated, with funding grants also coming from DARPA . Versions have shown good mobility over a wide range of terrain types [ 1 ] at speeds exceeding five body lengths per second (2.7 m/s), climbed slopes ...