Add to ORKGThis paper presents a proposed adaptive impedance control that derived based on Center of Mass (CoM) of the hexapod robot for walking on the bottom of water or seabed. The study has been carried out by modeling the buoyancy force following the restoration force to a chieve the drowning level according to the Archimedes’ principle. The restoration force need to be positive in order to ensure robot locomotion is not affected by buoyancy factor. As for this force control solution, impedance control has been derived based on the total of for ce of foot placement to consider CoM of the robot during walking period. This derived impedance control is design for the real-time based 4 degree of freedom (DoF...
Abstract—The paper describes the impedance algorithm in locomotion of humanoid robot with proposed p...
<p>In this paper, the design, the development, and the control for an 18 degree-of-freedom electrohy...
Legged agricultural transportation robots are efficient tools that can autonomously transport goods ...
This paper presents a proposed adaptive admittance control that is derived based on Center of Mass (...
Buoyance forces are part of the fundamental physical resistances that act on moving or swimming obje...
This paper presents a proposed Proportional and Derivative (PD)-like Fuzzy Logic Control (FLC) (PD-...
A variety approach of multi-legged robot designs, especially on a large scale design with hydraulica...
This paper proposes a method for a biped robot to walk on uneven terrains. For stable locomotion, it...
Bioinspired legged locomotion is attractive for underwater applications that involve moving in unstr...
One of the challenging areas in developing bio-inspired legged robot is dynamic control, especially ...
This article presents the strategy of control to improve the performance of applied impedance contro...
In controlled environments, the hexapod limbs actuation can be controlled as a closed system. Howeve...
Abstract. An adaptive impedance control scheme with estimation of robot and environment param-eters ...
The energy consumption status of underwater hexapod robot has reference significance for long-time o...
In this research, the dynamic walking of a legged robot in underwater environments is proposed. For ...
Abstract—The paper describes the impedance algorithm in locomotion of humanoid robot with proposed p...
<p>In this paper, the design, the development, and the control for an 18 degree-of-freedom electrohy...
Legged agricultural transportation robots are efficient tools that can autonomously transport goods ...
This paper presents a proposed adaptive admittance control that is derived based on Center of Mass (...
Buoyance forces are part of the fundamental physical resistances that act on moving or swimming obje...
This paper presents a proposed Proportional and Derivative (PD)-like Fuzzy Logic Control (FLC) (PD-...
A variety approach of multi-legged robot designs, especially on a large scale design with hydraulica...
This paper proposes a method for a biped robot to walk on uneven terrains. For stable locomotion, it...
Bioinspired legged locomotion is attractive for underwater applications that involve moving in unstr...
One of the challenging areas in developing bio-inspired legged robot is dynamic control, especially ...
This article presents the strategy of control to improve the performance of applied impedance contro...
In controlled environments, the hexapod limbs actuation can be controlled as a closed system. Howeve...
Abstract. An adaptive impedance control scheme with estimation of robot and environment param-eters ...
The energy consumption status of underwater hexapod robot has reference significance for long-time o...
In this research, the dynamic walking of a legged robot in underwater environments is proposed. For ...
Abstract—The paper describes the impedance algorithm in locomotion of humanoid robot with proposed p...
<p>In this paper, the design, the development, and the control for an 18 degree-of-freedom electrohy...
Legged agricultural transportation robots are efficient tools that can autonomously transport goods ...