Serially connected robots are promising candidates for performing tasks in confined spaces such as search-and-rescue in large-scale disasters. Such robots are typically limbless, and we hypothesize that the addition of limbs could improve mobility. However, a challenge in designing and controlling such devices lies in the coordination of high-dimensional redundant modules in a way that improves mobility. Here we develop a general framework to control serially connected multi-legged robots. Specifically, we combine two approaches to build a general shape control scheme which can provide baseline patterns of self-deformation ("gaits") for effective locomotion in diverse robot morphologies. First, we take inspiration from a dimensionality redu...
Modular robots are robots composed of multiple units, called 'modules'. Each module is an independen...
Animals display an enormous versatility and a remarkable ability to adapt to changes in environment ...
ムカデはなぜあれほど機敏に動けるのだろうか?-多足ロボットを用いた実験的検証-. 京都大学プレスリリース. 2016-07-22.Multilegged locomotion improves the...
Legged machines have the potential to traverse terrain that wheeled robots cannot. These capabilitie...
Legged robots represent a new category of mobile robots that have recently attracted a lot of attent...
This paper introduces a framework for representing, generating, and then tuning gaits of legged robo...
We develop robust methods that allow specification, control, and transition of a multi-legged robot’...
Terrestrial robots must be capable of negotiating rough terrain if they are to become autonomous out...
This paper discusses the design of a three degree-of-freedom (3-DOF) non-redundant walking robot wit...
This paper discusses the design of a three degree-of-freedom (3-DOF) non-redundant walking robot wit...
This dissertation describes an optimization-based framework to perform complex and dynamic locomotio...
In this chapter, we developed and investigated numerically a general kinematic model of a multi-legg...
International audiencePlanning, adapting and executing multi-contact locomotion movements on legged ...
Among a large variety of available mobile ground robotic designs, legged robots are potentially the ...
International audienceThis paper presents a generic and efficient approach to generate dynamically c...
Modular robots are robots composed of multiple units, called 'modules'. Each module is an independen...
Animals display an enormous versatility and a remarkable ability to adapt to changes in environment ...
ムカデはなぜあれほど機敏に動けるのだろうか?-多足ロボットを用いた実験的検証-. 京都大学プレスリリース. 2016-07-22.Multilegged locomotion improves the...
Legged machines have the potential to traverse terrain that wheeled robots cannot. These capabilitie...
Legged robots represent a new category of mobile robots that have recently attracted a lot of attent...
This paper introduces a framework for representing, generating, and then tuning gaits of legged robo...
We develop robust methods that allow specification, control, and transition of a multi-legged robot’...
Terrestrial robots must be capable of negotiating rough terrain if they are to become autonomous out...
This paper discusses the design of a three degree-of-freedom (3-DOF) non-redundant walking robot wit...
This paper discusses the design of a three degree-of-freedom (3-DOF) non-redundant walking robot wit...
This dissertation describes an optimization-based framework to perform complex and dynamic locomotio...
In this chapter, we developed and investigated numerically a general kinematic model of a multi-legg...
International audiencePlanning, adapting and executing multi-contact locomotion movements on legged ...
Among a large variety of available mobile ground robotic designs, legged robots are potentially the ...
International audienceThis paper presents a generic and efficient approach to generate dynamically c...
Modular robots are robots composed of multiple units, called 'modules'. Each module is an independen...
Animals display an enormous versatility and a remarkable ability to adapt to changes in environment ...
ムカデはなぜあれほど機敏に動けるのだろうか?-多足ロボットを用いた実験的検証-. 京都大学プレスリリース. 2016-07-22.Multilegged locomotion improves the...