Bipedalism is theorised to have emerged in humans in order to enable endurance running and tool use via the hands. It is one of the most complex styles of locomotion, with agents typically having a high center of mass and two feet very close together. It is therefore particularly difficult to build smooth cyclic motion on top of this instability.Existing neuro-evolutionary methods for bipedalism involve the use of a central pattern generator or passive dynamics. A bipedal walker designed by Solomon et al was able to walk on rough terrain with a set of simple linear neural network controllers. I utilise control cost enhancements alongside additional elitism to initialise the walking agents in 3D without the 2D bootstrapping required by the o...
Human locomotion shows fascinating abilities which are the results of the interplay between the envi...
Humans demonstrate speed, efficiency, and adaptability when traveling over rugged terrain. Bipedal r...
This thesis presents a control design approach, which uses human data in the development of bipedal ...
Bipedalism is theorised to have emerged in humans in order to enable endurance running and tool use ...
Bipedal locomotion requires precise rhythm and balance. Here we demonstrate two fitness-function enh...
Bipedal locomotion is a challenging task in the sense that it requires to maintain dynamic balance w...
Bipedal locomotion is a challenging task in the sense that it requires to maintain dynamic balance w...
A balance scheme for handling variable speed gaits was implemented on an experimental biped. The con...
Many legged robots have boon built with a variety of different abilities, from running to liopping ...
We describe an evolutionary approach to the control problem of bipedal walking. Using a full rigid-b...
Abstract-This paper shows how Genetic Programming can be applied to the task of evolving the neural ...
Teaching simulated biped robots to walk is a popular problem in machine learning. However, until thi...
Thanks to better actuator technologies and control algorithms, humanoid robots to date can perform a...
Human walking is a dynamic, partly self-stabilizing process relying on the interaction of the biomec...
This paper provides an update on the neural control of bipedal walking in relation to bioinspired mo...
Human locomotion shows fascinating abilities which are the results of the interplay between the envi...
Humans demonstrate speed, efficiency, and adaptability when traveling over rugged terrain. Bipedal r...
This thesis presents a control design approach, which uses human data in the development of bipedal ...
Bipedalism is theorised to have emerged in humans in order to enable endurance running and tool use ...
Bipedal locomotion requires precise rhythm and balance. Here we demonstrate two fitness-function enh...
Bipedal locomotion is a challenging task in the sense that it requires to maintain dynamic balance w...
Bipedal locomotion is a challenging task in the sense that it requires to maintain dynamic balance w...
A balance scheme for handling variable speed gaits was implemented on an experimental biped. The con...
Many legged robots have boon built with a variety of different abilities, from running to liopping ...
We describe an evolutionary approach to the control problem of bipedal walking. Using a full rigid-b...
Abstract-This paper shows how Genetic Programming can be applied to the task of evolving the neural ...
Teaching simulated biped robots to walk is a popular problem in machine learning. However, until thi...
Thanks to better actuator technologies and control algorithms, humanoid robots to date can perform a...
Human walking is a dynamic, partly self-stabilizing process relying on the interaction of the biomec...
This paper provides an update on the neural control of bipedal walking in relation to bioinspired mo...
Human locomotion shows fascinating abilities which are the results of the interplay between the envi...
Humans demonstrate speed, efficiency, and adaptability when traveling over rugged terrain. Bipedal r...
This thesis presents a control design approach, which uses human data in the development of bipedal ...