Add to ORKGThis paper presents a proposed adaptive admittance control that is derived based on Center of Mass (CoM) of the hexapod robot designed 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 achieve the drowning level according to the Archimedes’ principle. The restoration force needs to be positive in order to ensure robot locomotion is not affected by buoyancy factor. As a solution to regulate this force, admittance control has been derived based on the total force of foot placement to determine CoM of the robot while walking. This admittance control is designed according to a model of a real-time based 4-degree of freedom (DoF) leg configuration of a h...
Amphibious robots have attracted more and more attention from researchers for their broad applicatio...
Abstract — In this paper we propose a design of a class of robotic legs (known as “Ninja legs”) that...
The energy consumption status of underwater hexapod robot has reference significance for long-time o...
This paper presents a proposed adaptive impedance control that derived based on Center of Mass (CoM)...
This paper presents a proposed Proportional and Derivative (PD)-like Fuzzy Logic Control (FLC) (PD-...
Buoyance forces are part of the fundamental physical resistances that act on moving or swimming obje...
Bioinspired legged locomotion is attractive for underwater applications that involve moving in unstr...
This paper describes the control of multiple fins for basic modes of an underwater fin-type robot. T...
This paper describes the control of multiple fins for basic modes of an underwater fin-type robot. T...
In this research, the dynamic walking of a legged robot in underwater environments is proposed. For ...
Drawing inspiration from the locomotion modalities of animals, legged robots demonstrated the potent...
A variety approach of multi-legged robot designs, especially on a large scale design with hydraulica...
In this paper a model-based open loop control of SILVER, a multigait legged underwater vehicle for t...
This thesis regards the development of a controlling algorithm for a six-legged benthic robot, calle...
The adaptability of hexapods for various locomotion tasks, especially in rescue and exploration miss...
Amphibious robots have attracted more and more attention from researchers for their broad applicatio...
Abstract — In this paper we propose a design of a class of robotic legs (known as “Ninja legs”) that...
The energy consumption status of underwater hexapod robot has reference significance for long-time o...
This paper presents a proposed adaptive impedance control that derived based on Center of Mass (CoM)...
This paper presents a proposed Proportional and Derivative (PD)-like Fuzzy Logic Control (FLC) (PD-...
Buoyance forces are part of the fundamental physical resistances that act on moving or swimming obje...
Bioinspired legged locomotion is attractive for underwater applications that involve moving in unstr...
This paper describes the control of multiple fins for basic modes of an underwater fin-type robot. T...
This paper describes the control of multiple fins for basic modes of an underwater fin-type robot. T...
In this research, the dynamic walking of a legged robot in underwater environments is proposed. For ...
Drawing inspiration from the locomotion modalities of animals, legged robots demonstrated the potent...
A variety approach of multi-legged robot designs, especially on a large scale design with hydraulica...
In this paper a model-based open loop control of SILVER, a multigait legged underwater vehicle for t...
This thesis regards the development of a controlling algorithm for a six-legged benthic robot, calle...
The adaptability of hexapods for various locomotion tasks, especially in rescue and exploration miss...
Amphibious robots have attracted more and more attention from researchers for their broad applicatio...
Abstract — In this paper we propose a design of a class of robotic legs (known as “Ninja legs”) that...
The energy consumption status of underwater hexapod robot has reference significance for long-time o...