Abstract — This paper introduces a bounding gait control algorithm that allows a successful implementation of duty cycle modulation in the MIT Cheetah 2. Instead of controlling leg stiffness to emulate a ‘springy leg ’ inspired from the Spring-Loaded-Inverted-Pendulum (SLIP) model, the algorithm pre-scribes vertical impulse by generating scaled ground reaction forces at each step to achieve the desired stance and total stride duration. Therefore, we can control the duty cycle: the percentage of the stance phase over the entire cycle. By prescribing the required vertical impulse of the ground reaction force at each step, the algorithm can adapt to variable duty cycles attributed to variations in running speed. Following linear momentum conse...
In many ways, the simple act of walking is one of the most complex modes of locomotion there is. For...
This paper presents a simplistic passive dynamic model that is able to create realistic quadrupedal ...
This paper applies an extension of classical averaging methods to hybrid dynamical systems, thereby ...
This paper introduces a bounding gait control algorithm that allows a successful implementation of d...
This paper presents the design and implementation of a bounding controller for the MIT Cheetah 2 and...
Abstract — To date, quadruped speed control has either been achieved with two actuators per leg, or ...
Soft actuators have been designed as a promising novel technology to achieve robust and natural-like...
This paper presents a reference generation technique for bounding quadruped locomotion. Synthesis of...
Due to copyright restrictions, the access to the full text of this article is only available via sub...
Legged robots stand out with their maneuverability and terrain adaptability potential owing to their...
Poulakakis, IoannisA series of quadrupedal robots with different morphologies has been developed in ...
Abstract: This paper studies the control of quadrupedal bounding in the presence of torso flexibilit...
The spring loaded inverted pendulum (SLIP) model has been extensively shown to be fundamental for le...
In this paper we present the system design of a machine that we have constructed to study a quadrupe...
Different quadrupedal template models with fixed parameters have been introduced to facilitate the ...
In many ways, the simple act of walking is one of the most complex modes of locomotion there is. For...
This paper presents a simplistic passive dynamic model that is able to create realistic quadrupedal ...
This paper applies an extension of classical averaging methods to hybrid dynamical systems, thereby ...
This paper introduces a bounding gait control algorithm that allows a successful implementation of d...
This paper presents the design and implementation of a bounding controller for the MIT Cheetah 2 and...
Abstract — To date, quadruped speed control has either been achieved with two actuators per leg, or ...
Soft actuators have been designed as a promising novel technology to achieve robust and natural-like...
This paper presents a reference generation technique for bounding quadruped locomotion. Synthesis of...
Due to copyright restrictions, the access to the full text of this article is only available via sub...
Legged robots stand out with their maneuverability and terrain adaptability potential owing to their...
Poulakakis, IoannisA series of quadrupedal robots with different morphologies has been developed in ...
Abstract: This paper studies the control of quadrupedal bounding in the presence of torso flexibilit...
The spring loaded inverted pendulum (SLIP) model has been extensively shown to be fundamental for le...
In this paper we present the system design of a machine that we have constructed to study a quadrupe...
Different quadrupedal template models with fixed parameters have been introduced to facilitate the ...
In many ways, the simple act of walking is one of the most complex modes of locomotion there is. For...
This paper presents a simplistic passive dynamic model that is able to create realistic quadrupedal ...
This paper applies an extension of classical averaging methods to hybrid dynamical systems, thereby ...