Traversing unstructured environments, (statically stable) legged robots could be applied effectively but, they face two main problems: the high complexity of the system and the low speed of locomotion. To address the complexity of the controller, we apply a control layer that abstracts the legged robot to an omni-directional moving mass. In this control scheme, we apply the gait generator as proposed by Estremera and de Santos. We present theory to determine the theoretically maximum achievable velocity of a quadruped and compare the (omni-directional) maximum velocity of the selected gait generator with this optimum to validate its performance. For our use case the theoretically maximum achievable velocity is 1 ms − 1; in simulations we ac...
Fundamental principles and recent methods for investigating the nonlinear dynamics of legged robot m...
This paper deals with the design method of a control system for a quadruped locomotion robot. The pr...
Abstract: The authors have proposed a dynamic turning control system of a quadruped robot by using n...
Traversing unstructured environments, (statically stable) legged robots could be applied effectively...
Walking robots have long been proposed as solutions to the problem of mobile machines operating in u...
Abstract. The legged animals are capable of rapid, energy efficient, and adaptive lo-comotion in a c...
Exploiting the body dynamics to control the behavior of robots is one of the most challenging issues...
With the emergence of more and more torque-controlled robots, the agility of leg locomotion has been...
Abstract—Quadrupedal animals move through their environ-ments with unmatched agility and grace. An i...
This paper is aimed at presenting a locomotion control framework to realize agile and robust locomot...
We describe the design and construction of a quadruped robot which walks on uneven terrain. A contro...
Abstract — This paper presents two planning methods for gen-erating fast walking gaits for the quadr...
We show dynamic locomotion strategies for wheeled quadrupedal robots that combine the advantages of ...
Abstract: Scout II, an autonomous four-legged robot with only one actuator per compliant leg is desc...
Designing an effective motion control for legged robots is a challenging task. Inspired by biologica...
Fundamental principles and recent methods for investigating the nonlinear dynamics of legged robot m...
This paper deals with the design method of a control system for a quadruped locomotion robot. The pr...
Abstract: The authors have proposed a dynamic turning control system of a quadruped robot by using n...
Traversing unstructured environments, (statically stable) legged robots could be applied effectively...
Walking robots have long been proposed as solutions to the problem of mobile machines operating in u...
Abstract. The legged animals are capable of rapid, energy efficient, and adaptive lo-comotion in a c...
Exploiting the body dynamics to control the behavior of robots is one of the most challenging issues...
With the emergence of more and more torque-controlled robots, the agility of leg locomotion has been...
Abstract—Quadrupedal animals move through their environ-ments with unmatched agility and grace. An i...
This paper is aimed at presenting a locomotion control framework to realize agile and robust locomot...
We describe the design and construction of a quadruped robot which walks on uneven terrain. A contro...
Abstract — This paper presents two planning methods for gen-erating fast walking gaits for the quadr...
We show dynamic locomotion strategies for wheeled quadrupedal robots that combine the advantages of ...
Abstract: Scout II, an autonomous four-legged robot with only one actuator per compliant leg is desc...
Designing an effective motion control for legged robots is a challenging task. Inspired by biologica...
Fundamental principles and recent methods for investigating the nonlinear dynamics of legged robot m...
This paper deals with the design method of a control system for a quadruped locomotion robot. The pr...
Abstract: The authors have proposed a dynamic turning control system of a quadruped robot by using n...