Add to ORKGThe Lateral Leg Spring model (LLS) was developed by Schmitt and Holmes to model the horizontal-plane dynamics of a running cockroach. The model captures several salient features of real insect locomotion, and demonstrates that horizontal plane locomotion can be passively stabilized by a well-tuned mechanical system, thus requiring minimal neural reflexes. We propose two enhancements to the LLS model. First, we derive the dynamical equations for a more flexible placement of the center of pressure (COP), which enables the model to capture the phase relationship between the body orientation and center-of-mass (COM) heading in a simpler manner than previously possible. Second, we propose a reduced LLS "plant model" and biologically ins...
The Dynamics of Legged Locomotion: Models, Analyses, and Challenges Cheetahs and beetles run, dolphi...
Mechanisms dependent upon leg position coordinate the alternate stepping of adjacent ipsilateral and...
To traverse complex natural terrain, animals often transition between locomotor modes. It is well kn...
The Lateral Leg Spring model (LLS) was developed by Schmitt and Holmes to model the horizontal-plane...
Abstract—It may come as no surprise that a simple “planar unicycle ” (or “skate”) model can successf...
In this dissertation, we model biological sensorimotor behaviors of two species, a cockroach followi...
The purpose of this work is to better understand how animals control locomotion. This knowledge can ...
Biological inspiration has long been pursued as a key to more efficient, agile and elegant control i...
Graduation date: 2010Sprawled-posture insects exhibit a remarkable ability to rapidly run in a stabl...
Abstract—The interplay between robotics and neuromechanics facilitates discoveries in both fields: n...
The interplay between robotics and neuromechanics facilitates discoveries in both fields: nature pro...
Animals’ ability to demonstrate both stereotyped and adaptive locomotor behavior is largely dependen...
Abstract An advantage of legged locomotion is the ability to climb over obstacles. We studied deathh...
An information-processing model of leg control is presented. The model incorporates the four primary...
We define a theoretical framework for the experimental study of neuromechanical control in animals, ...
The Dynamics of Legged Locomotion: Models, Analyses, and Challenges Cheetahs and beetles run, dolphi...
Mechanisms dependent upon leg position coordinate the alternate stepping of adjacent ipsilateral and...
To traverse complex natural terrain, animals often transition between locomotor modes. It is well kn...
The Lateral Leg Spring model (LLS) was developed by Schmitt and Holmes to model the horizontal-plane...
Abstract—It may come as no surprise that a simple “planar unicycle ” (or “skate”) model can successf...
In this dissertation, we model biological sensorimotor behaviors of two species, a cockroach followi...
The purpose of this work is to better understand how animals control locomotion. This knowledge can ...
Biological inspiration has long been pursued as a key to more efficient, agile and elegant control i...
Graduation date: 2010Sprawled-posture insects exhibit a remarkable ability to rapidly run in a stabl...
Abstract—The interplay between robotics and neuromechanics facilitates discoveries in both fields: n...
The interplay between robotics and neuromechanics facilitates discoveries in both fields: nature pro...
Animals’ ability to demonstrate both stereotyped and adaptive locomotor behavior is largely dependen...
Abstract An advantage of legged locomotion is the ability to climb over obstacles. We studied deathh...
An information-processing model of leg control is presented. The model incorporates the four primary...
We define a theoretical framework for the experimental study of neuromechanical control in animals, ...
The Dynamics of Legged Locomotion: Models, Analyses, and Challenges Cheetahs and beetles run, dolphi...
Mechanisms dependent upon leg position coordinate the alternate stepping of adjacent ipsilateral and...
To traverse complex natural terrain, animals often transition between locomotor modes. It is well kn...