We develop robust methods that allow specification, control, and transition of a multi-legged robot’s stepping pattern—its gait—during active locomotion over natural terrain. Resulting gaits emerge through the introduction of controllers that impose appropriately-placed repellors within the space of gaits, the torus of relative leg phases, thereby mitigating against dangerous patterns of leg timing. Moreover, these repellors are organized with respect to a natural cellular decomposition of gait space and result in limit cycles with associated basins that are well characterized by these cells, thus conferring a symbolic character upon the overall behavioral repertoire. These ideas are particularly applicable to four- and six-legged robots, f...
Abstract—It is a widespread idea that animal-legged locomotion is better than wheeled locomotion on ...
This three-part paper discusses the analysis and control of legged locomotion in terms of N-step cap...
The task of reproducing artificial legged locomotion presents lots of challenges, most of them relat...
We develop robust methods that allow specification, control, and transition of a multi-legged robot’s...
As robot bodies become more capable, the motivation grows to better coordinate them—whether multiple...
As robot bodies become more capable, the motivation grows to better coordinate them—whether multiple...
Serially connected robots are promising candidates for performing tasks in confined spaces such as s...
We address the problem of gait generation for a six-legged robot walking on irregular terrain and su...
Legged robots often need to move through different terrains as they function. This requires a change...
Studies show that the human nervous system is able to parameterize gait cycle phase using sensory fe...
Studies show that the human nervous system is able to parameterize gait cycle phase using sensory fe...
Legged animals can traverse significantly more of the Earth\u27s land mass than man-made wheeled and...
Abstract:- The paper presents a systemic approach of a walking robot behavior and control in uncerta...
We discuss the gait generation and control architecture of a bioinspired climbing robot that present...
We present a single Trajectory Optimization for- mulation for legged locomotion that automatically d...
Abstract—It is a widespread idea that animal-legged locomotion is better than wheeled locomotion on ...
This three-part paper discusses the analysis and control of legged locomotion in terms of N-step cap...
The task of reproducing artificial legged locomotion presents lots of challenges, most of them relat...
We develop robust methods that allow specification, control, and transition of a multi-legged robot’s...
As robot bodies become more capable, the motivation grows to better coordinate them—whether multiple...
As robot bodies become more capable, the motivation grows to better coordinate them—whether multiple...
Serially connected robots are promising candidates for performing tasks in confined spaces such as s...
We address the problem of gait generation for a six-legged robot walking on irregular terrain and su...
Legged robots often need to move through different terrains as they function. This requires a change...
Studies show that the human nervous system is able to parameterize gait cycle phase using sensory fe...
Studies show that the human nervous system is able to parameterize gait cycle phase using sensory fe...
Legged animals can traverse significantly more of the Earth\u27s land mass than man-made wheeled and...
Abstract:- The paper presents a systemic approach of a walking robot behavior and control in uncerta...
We discuss the gait generation and control architecture of a bioinspired climbing robot that present...
We present a single Trajectory Optimization for- mulation for legged locomotion that automatically d...
Abstract—It is a widespread idea that animal-legged locomotion is better than wheeled locomotion on ...
This three-part paper discusses the analysis and control of legged locomotion in terms of N-step cap...
The task of reproducing artificial legged locomotion presents lots of challenges, most of them relat...