Add to ORKGIn this paper, we investigate motion planning for a biomimetic robotic fish which swims in underwater cluttered environment For the collision-free motion planning problem, a widespread approach is to decouple it into two subproblems: paths generation and tracking control (or feedback regulation). However, consider the special propulsion mechanism and kinematic property of the robotic fish, it is difficult for it to track a predetermined path. To cope with this situation, a novel approach based on numerical flow field is proposed, which will generate a feasible velocity vector field instead of a determined path. Then the robotic fish will be inducted by a series of feasible velocity vectors to reach its destination. Experiments are conducted...
Propulsion and manoeuvring ability are parts of the most common and complicated mechanisms in nature...
A new type of vision-based autonomous robotic fish capable of 3-D locomotion is developed in this pa...
In this paper, we propose a modular approach to decompose the fish movement into several basic behav...
In this paper, we investigate motion planning for a biomimetic robotic fish which swims in underwate...
This paper investigates the problem of obstacle avoidance and path planning for robotic fish. The sw...
This paper investigates the problem of obstacle avoidance and path planning for robotic fish. The sw...
This paper presents a real-time motion planning method for biomimetic robotic fish with kinematic co...
This paper presents a novel reactive collision avoidance method among multiple biomimetic robotic fi...
This paper is concerned with the design and motion control of a radio-controlled, multi-link and fre...
This paper deals with the design and 3-D motion control of a radio-controlled, multi-link and free-s...
The attainment of accurate motion control for robotic fish inside intricate underwater environments ...
Investigation in biomimetic robotic fish is a multidisciplinary problem entirely involving hydrodyna...
This paper presents a coordination method for multiple biomimetic robotic fish in underwater transpo...
This paper gives a coordination method for multiple biomimetic robotic fish in underwater transport ...
This paper proposes a kinematic modeling method for a bio-inspired robotic fish based on single join...
Propulsion and manoeuvring ability are parts of the most common and complicated mechanisms in nature...
A new type of vision-based autonomous robotic fish capable of 3-D locomotion is developed in this pa...
In this paper, we propose a modular approach to decompose the fish movement into several basic behav...
In this paper, we investigate motion planning for a biomimetic robotic fish which swims in underwate...
This paper investigates the problem of obstacle avoidance and path planning for robotic fish. The sw...
This paper investigates the problem of obstacle avoidance and path planning for robotic fish. The sw...
This paper presents a real-time motion planning method for biomimetic robotic fish with kinematic co...
This paper presents a novel reactive collision avoidance method among multiple biomimetic robotic fi...
This paper is concerned with the design and motion control of a radio-controlled, multi-link and fre...
This paper deals with the design and 3-D motion control of a radio-controlled, multi-link and free-s...
The attainment of accurate motion control for robotic fish inside intricate underwater environments ...
Investigation in biomimetic robotic fish is a multidisciplinary problem entirely involving hydrodyna...
This paper presents a coordination method for multiple biomimetic robotic fish in underwater transpo...
This paper gives a coordination method for multiple biomimetic robotic fish in underwater transport ...
This paper proposes a kinematic modeling method for a bio-inspired robotic fish based on single join...
Propulsion and manoeuvring ability are parts of the most common and complicated mechanisms in nature...
A new type of vision-based autonomous robotic fish capable of 3-D locomotion is developed in this pa...
In this paper, we propose a modular approach to decompose the fish movement into several basic behav...