Add to ORKG[Excerpt] The design of autonomous hexapod robots for rescue or exploratory missions aims to achieve high-performing and efficient locomotion, which must be able to adapt to complex environments with variable terrain topology. In this sense, the contact forces developed during the interaction between the robot’s feet and the ground can cause undesirable trajectory deviations and increase the torso instability during locomotion
Legged vehicles offer superior mobility over natural terrain compared to traditional mobile platform...
Dürr V, Schmitz J, Cruse H. Behaviour-based modelling of hexapod locomotion: Linking biology and tec...
This thesis is a study on controlling methods for six-legged robots. The study is based on mathemati...
The adaptability of hexapods for various locomotion tasks, especially in rescue and exploration miss...
In this paper we describe the dynamic simulation of an 18 degrees of freedom hexapod robot with the ...
In this paper, we describe the design and control of RHex, a power autonomous, untethered, compliant...
Legged robots are a promising locomotion system, capable of performing tasks that conventional vehic...
Legged robots are a promising locomotion system, capable of performing tasks that conventional vehic...
RHex: A Simple and Highly Mobile Hexapod Robot In this paper, the authors describe the design and co...
Despite of having higher complexity, in both morphology and control strategies, bioinspired hexapod ...
In this paper, the authors describe the design and control of RHex, a power autonomous, untethered, ...
In this paper, we present the design, modeling and preliminary control of RHex, an autonomous dynami...
Generating adaptive locomotion has seen a growing interest for the design of hexapods due to improvi...
This thesis contains problematics of robots with peddal chassis and is focused on hexapods. It conta...
In controlled environments, the hexapod limbs actuation can be controlled as a closed system. Howeve...
Legged vehicles offer superior mobility over natural terrain compared to traditional mobile platform...
Dürr V, Schmitz J, Cruse H. Behaviour-based modelling of hexapod locomotion: Linking biology and tec...
This thesis is a study on controlling methods for six-legged robots. The study is based on mathemati...
The adaptability of hexapods for various locomotion tasks, especially in rescue and exploration miss...
In this paper we describe the dynamic simulation of an 18 degrees of freedom hexapod robot with the ...
In this paper, we describe the design and control of RHex, a power autonomous, untethered, compliant...
Legged robots are a promising locomotion system, capable of performing tasks that conventional vehic...
Legged robots are a promising locomotion system, capable of performing tasks that conventional vehic...
RHex: A Simple and Highly Mobile Hexapod Robot In this paper, the authors describe the design and co...
Despite of having higher complexity, in both morphology and control strategies, bioinspired hexapod ...
In this paper, the authors describe the design and control of RHex, a power autonomous, untethered, ...
In this paper, we present the design, modeling and preliminary control of RHex, an autonomous dynami...
Generating adaptive locomotion has seen a growing interest for the design of hexapods due to improvi...
This thesis contains problematics of robots with peddal chassis and is focused on hexapods. It conta...
In controlled environments, the hexapod limbs actuation can be controlled as a closed system. Howeve...
Legged vehicles offer superior mobility over natural terrain compared to traditional mobile platform...
Dürr V, Schmitz J, Cruse H. Behaviour-based modelling of hexapod locomotion: Linking biology and tec...
This thesis is a study on controlling methods for six-legged robots. The study is based on mathemati...