The Ph.D. thesis is focused on using the reinforcement learning for four legged robot control. The main aim is to create an adaptive control system of the walking robot, which will be able to plan the walking gait through Q-learning algorithm. This aim is achieved using the design of the complex three layered architecture, which is based on the DEDS paradigm. The small set of elementary reactive behaviors forms the basis of proposed solution. The set of composite control laws is designed using simultaneous activations of these behaviors. Both types of controllers are able to operate on the plain terrain as well as on the rugged one. The model of all possible behaviors, that can be achieved using activations of mentioned controllers, is desi...
Abstract. Dynamical systems have been increasingly studied in the last decade for designing locomoti...
Peer reviewed: TruePublication status: PublishedAnimals have evolved to adapt to complex and uncerta...
This paper describes a neural learning architecture for control of legged robots inspired by mammali...
The Ph.D. thesis is focused on using the reinforcement learning for four legged robot control. The m...
Significant goal in walking robot design is realization of autonomous system which is capable of mot...
The ability to form support contacts at discontinuous locations makes legged robots suitable for loc...
We present a new reinforcement learning system more suitable to be used in robotics than existing on...
Possible discretization technique of the continuous state space of four-legged robot using simultane...
This work is based on literary search and is focused on description of various approaches in walking...
Deep reinforcement learning (DRL) offers a promising approach for the synthesis of control policies ...
Abstract—This paper investigates the learning of a controller for a flat-footed bipedal robot using ...
In this paper the problem of free gait generation and adaptability with reinforcement learning are a...
Das Ziel dieser Arbeit ist die Erstellung einer Reinforcement Learning Umgebung für einen Quadruped-...
The diploma paper deal with control problems of a four legged walking robot. They endeavour to estab...
Abstract: This paper presents the gait pattern generation work performed for the six-legged robot E...
Abstract. Dynamical systems have been increasingly studied in the last decade for designing locomoti...
Peer reviewed: TruePublication status: PublishedAnimals have evolved to adapt to complex and uncerta...
This paper describes a neural learning architecture for control of legged robots inspired by mammali...
The Ph.D. thesis is focused on using the reinforcement learning for four legged robot control. The m...
Significant goal in walking robot design is realization of autonomous system which is capable of mot...
The ability to form support contacts at discontinuous locations makes legged robots suitable for loc...
We present a new reinforcement learning system more suitable to be used in robotics than existing on...
Possible discretization technique of the continuous state space of four-legged robot using simultane...
This work is based on literary search and is focused on description of various approaches in walking...
Deep reinforcement learning (DRL) offers a promising approach for the synthesis of control policies ...
Abstract—This paper investigates the learning of a controller for a flat-footed bipedal robot using ...
In this paper the problem of free gait generation and adaptability with reinforcement learning are a...
Das Ziel dieser Arbeit ist die Erstellung einer Reinforcement Learning Umgebung für einen Quadruped-...
The diploma paper deal with control problems of a four legged walking robot. They endeavour to estab...
Abstract: This paper presents the gait pattern generation work performed for the six-legged robot E...
Abstract. Dynamical systems have been increasingly studied in the last decade for designing locomoti...
Peer reviewed: TruePublication status: PublishedAnimals have evolved to adapt to complex and uncerta...
This paper describes a neural learning architecture for control of legged robots inspired by mammali...