In this letter, we present a method for integrating central pattern generators (CPGs), i.e. systems of coupled oscillators, into the deep reinforcement learning (DRL) framework to produce robust and omnidirectional quadruped locomotion. The agent learns to directly modulate the intrinsic oscillator setpoints (amplitude and frequency) and coordinate rhythmic behavior among different oscillators. This approach also allows the use of DRL to explore questions related to neuroscience, namely the role of descending pathways, interoscillator couplings, and sensory feedback in gait generation. We train our policies in simulation and perform a sim-to-real transfer to the Unitree A1 quadruped, where we observe robust behavior to disturbances unseen d...
This paper is concerned with a method for design and analysis of specific neuronal networks, called ...
Animal rhythmic movements such as locomotion are con-sidered to be controlled by neural circuits cal...
In this article, we propose a bio-inspired architecture for a quadruped robot that is able to initia...
In this letter, we present a method for integrating central pattern generators (CPGs), i.e. systems ...
Peer reviewed: TruePublication status: PublishedAnimals have evolved to adapt to complex and uncerta...
Deep reinforcement learning (DRL) offers a promising approach for the synthesis of control policies ...
The ability to form support contacts at discontinuous locations makes legged robots suitable for loc...
In this paper we present a framework to learn a model-free feedback controller for locomotion and ba...
In traditional robotics, model-based controllers are usually needed in order to bring a robotic plan...
We are motivated to better understand how adaptive locomotion (rough terrain locomotion, turning, ga...
Autonomous adaptive locomotion over irregular terrain is one important topic in robotics research. ...
Building controllers for legged robots with agility and intelligence has been one of the typical cha...
The problem of controlling locomotion is an area in which neuroscience and robotics can fruitfully i...
Legged robots have gained an increased attention these past decades since they offer a promising tec...
© 2022 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
This paper is concerned with a method for design and analysis of specific neuronal networks, called ...
Animal rhythmic movements such as locomotion are con-sidered to be controlled by neural circuits cal...
In this article, we propose a bio-inspired architecture for a quadruped robot that is able to initia...
In this letter, we present a method for integrating central pattern generators (CPGs), i.e. systems ...
Peer reviewed: TruePublication status: PublishedAnimals have evolved to adapt to complex and uncerta...
Deep reinforcement learning (DRL) offers a promising approach for the synthesis of control policies ...
The ability to form support contacts at discontinuous locations makes legged robots suitable for loc...
In this paper we present a framework to learn a model-free feedback controller for locomotion and ba...
In traditional robotics, model-based controllers are usually needed in order to bring a robotic plan...
We are motivated to better understand how adaptive locomotion (rough terrain locomotion, turning, ga...
Autonomous adaptive locomotion over irregular terrain is one important topic in robotics research. ...
Building controllers for legged robots with agility and intelligence has been one of the typical cha...
The problem of controlling locomotion is an area in which neuroscience and robotics can fruitfully i...
Legged robots have gained an increased attention these past decades since they offer a promising tec...
© 2022 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
This paper is concerned with a method for design and analysis of specific neuronal networks, called ...
Animal rhythmic movements such as locomotion are con-sidered to be controlled by neural circuits cal...
In this article, we propose a bio-inspired architecture for a quadruped robot that is able to initia...