This paper presents a dynamic locomotion generation for a one-legged floating-base robot. Reference synthesis is performed by planning both swing motion of the foot and contact forces acting from the ground. A fifth-order polynomial is employed as the position reference to reduce the impact forces and ensure a steady transition between the swing and stance phases. Contact force references are designed utilizing the laws of momentum conservation and impulse. A hybrid force-motion control framework is created in the operational space for tracking generated references. Gait phase transition is proposed to assist the transition between the force and motion controller. A full-dynamics simulation environment is utilized to test the proposed contr...
This paper addresses the problem of modelling and control of biped robot by combining Cartesian-base...
This paper is aimed at presenting a locomotion control framework to realize agile and robust locomot...
Legged robots stand out with their maneuverability and terrain adaptability potential owing to their...
Past three decades witnessed a growing interest in biped walking robots because of their advantageou...
Past three decades witnessed a growing interest in biped walking robots because of their advantageou...
This paper studies the full-body motion generation of a quadruped robot for pace gait. A motion plan...
Fast, ecient and versatile locomotion is the objective of the cutting-edge research of legged robots...
International audienceLegged robots are typically in rigid contact with the environment at multiple ...
Current state-of-the-art walking controllers for humanoid robots use simple models, such as Linear I...
Abstract—This paper introduces the concept of hybrid opera-tional space control, a method that unifi...
The control system proposed in the paper is motivated by robotic testing of prosthetic legs, where a...
This paper addresses the problem of modelling and control of a biped robot by combining Cartesian-ba...
In this chapter, we developed and investigated numerically a general kinematic model of a multi-legg...
Legged locomotion systems are a class of biological robots by supporting on the ground with discrete...
New results on the development of two adaptive six-legged vehicle-rectangular and hexagonal - and th...
This paper addresses the problem of modelling and control of biped robot by combining Cartesian-base...
This paper is aimed at presenting a locomotion control framework to realize agile and robust locomot...
Legged robots stand out with their maneuverability and terrain adaptability potential owing to their...
Past three decades witnessed a growing interest in biped walking robots because of their advantageou...
Past three decades witnessed a growing interest in biped walking robots because of their advantageou...
This paper studies the full-body motion generation of a quadruped robot for pace gait. A motion plan...
Fast, ecient and versatile locomotion is the objective of the cutting-edge research of legged robots...
International audienceLegged robots are typically in rigid contact with the environment at multiple ...
Current state-of-the-art walking controllers for humanoid robots use simple models, such as Linear I...
Abstract—This paper introduces the concept of hybrid opera-tional space control, a method that unifi...
The control system proposed in the paper is motivated by robotic testing of prosthetic legs, where a...
This paper addresses the problem of modelling and control of a biped robot by combining Cartesian-ba...
In this chapter, we developed and investigated numerically a general kinematic model of a multi-legg...
Legged locomotion systems are a class of biological robots by supporting on the ground with discrete...
New results on the development of two adaptive six-legged vehicle-rectangular and hexagonal - and th...
This paper addresses the problem of modelling and control of biped robot by combining Cartesian-base...
This paper is aimed at presenting a locomotion control framework to realize agile and robust locomot...
Legged robots stand out with their maneuverability and terrain adaptability potential owing to their...