Dogs are capable of showing rich motor skills in complex environments. No such capabilities have yet been seen in quadruped robots. In this work we present the design and realization of a biologically inspired quadruped robot based on a real dogs’ anatomy. This dog, referred to as the Reservoir Dog, is capable of autonomously showing multiple gaits such as walk, which require active retraction of the legs, and gallop, during which all four legs are lifted from the ground. Each leg consists of three segments of which two joints can be actively controlled and one joint is passively compliant. To keep the leg’s weight as low as possible all actuation is mounted on the body
Quadrupeds have distinct advantages over humanoid and wheeled robots. They potentially possess super...
Advancements and research in technology takes influence from several different sources, some of whic...
We present a new quadruped robot, “Cheetah”, featuring three-segment pantographic legs with passive ...
Dogs are capable of showing rich motor skills in complex environments. No such capabilities have yet...
In contrast to the high movement adaptability of quadruped animals in many environmental conditions,...
In this paper we summarize some basic principles of legged locomotion in animals and then discuss th...
Adaptability of quadruped animals is not solely reached by brain control, but by the interaction bet...
The legged locomotion system of biological quadrupeds has proven to be the most efficient in natural...
The Robo-dog was designed and implemented by a Shiqi Peng, a PhD student in 2006. The dog incorporat...
The legged locomotion system of biological quadrupeds has proven to be the most effi-cient in natura...
A major bottleneck in building autonomous robots is the lack of suitable power supplies. Consequentl...
Legged robots are useful in the uneven terrain field than wheeled robots since they can have many ki...
This paper introduces the quadruped robot called HUNTER (Hanyang UNiversity TEtrapod Robot), its con...
Bionic quadruped robots received considerable worldwide research attention. For a quadruped robot wa...
The development of functional legged robots has encountered its limits in human-made actuation techn...
Quadrupeds have distinct advantages over humanoid and wheeled robots. They potentially possess super...
Advancements and research in technology takes influence from several different sources, some of whic...
We present a new quadruped robot, “Cheetah”, featuring three-segment pantographic legs with passive ...
Dogs are capable of showing rich motor skills in complex environments. No such capabilities have yet...
In contrast to the high movement adaptability of quadruped animals in many environmental conditions,...
In this paper we summarize some basic principles of legged locomotion in animals and then discuss th...
Adaptability of quadruped animals is not solely reached by brain control, but by the interaction bet...
The legged locomotion system of biological quadrupeds has proven to be the most efficient in natural...
The Robo-dog was designed and implemented by a Shiqi Peng, a PhD student in 2006. The dog incorporat...
The legged locomotion system of biological quadrupeds has proven to be the most effi-cient in natura...
A major bottleneck in building autonomous robots is the lack of suitable power supplies. Consequentl...
Legged robots are useful in the uneven terrain field than wheeled robots since they can have many ki...
This paper introduces the quadruped robot called HUNTER (Hanyang UNiversity TEtrapod Robot), its con...
Bionic quadruped robots received considerable worldwide research attention. For a quadruped robot wa...
The development of functional legged robots has encountered its limits in human-made actuation techn...
Quadrupeds have distinct advantages over humanoid and wheeled robots. They potentially possess super...
Advancements and research in technology takes influence from several different sources, some of whic...
We present a new quadruped robot, “Cheetah”, featuring three-segment pantographic legs with passive ...