This paper focuses on the dynamic modeling of a self-propelled, multimodal ostraciiform robotic fish, whose three active joints (two pectoral fins and one caudal fin) are actuated by a Central Pattern Generator (CPG) controller. Compared with other dynamic modes for robotic fish, we introduce angle of attack (AoA) theory on the fish modeling, which can be used to further explore the relationship between swimming efficiency and AoA of robotic fish. First, by using the quasi-steady wing theory, AoA of the oscillatory fins are explicitly derived. Then, with the simplification of the robot as a multi-rigid-body mechanism, AoA-based fluid forces acting on the oscillatory fins of the robot are further approximately calculated in a three-dimension...
Fishes have evolved different excellent swimming strategies. To study the influence of tail fin swin...
In the last few years, there have been many new developments and significant accomplishments in the ...
This paper deals with a novel fast swimming robotic fish capable of high maneuverability and yet wit...
This paper presents a dynamic model of robotic fish which synthesizes both the carangiform and angui...
This paper presents a dynamic model of robotic fish which synthesizes both the carangiform and angui...
This paper presents a three-dimensional, dynamic model of robotic fish which synthesizes both the ca...
The objective of presented article is in application of methods of theory of oscillations in elabora...
This paper deals with a three-dimensional (3-D) dynamic model for a free-swimming, multi-link fish-l...
This paper proposes a kinematic modeling method for a bio-inspired robotic fish based on single join...
The following paper presents the integration between the computational fluid dynamics (CFD) analysis...
In this paper, a dynamic model is proposed for a carangiform-like robotic fish swimming both forward...
This paper deals with the design and 3-D motion control of a radio-controlled, multi-link and free-s...
This paper proposes a dynamic model and control for the four-joint biomimetic robotic fish with yawi...
This paper is concerned with the design and motion control of a radio-controlled, multi-link and fre...
Abstract — This paper presents a novel modelling methodology for our robotic fish, which considers t...
Fishes have evolved different excellent swimming strategies. To study the influence of tail fin swin...
In the last few years, there have been many new developments and significant accomplishments in the ...
This paper deals with a novel fast swimming robotic fish capable of high maneuverability and yet wit...
This paper presents a dynamic model of robotic fish which synthesizes both the carangiform and angui...
This paper presents a dynamic model of robotic fish which synthesizes both the carangiform and angui...
This paper presents a three-dimensional, dynamic model of robotic fish which synthesizes both the ca...
The objective of presented article is in application of methods of theory of oscillations in elabora...
This paper deals with a three-dimensional (3-D) dynamic model for a free-swimming, multi-link fish-l...
This paper proposes a kinematic modeling method for a bio-inspired robotic fish based on single join...
The following paper presents the integration between the computational fluid dynamics (CFD) analysis...
In this paper, a dynamic model is proposed for a carangiform-like robotic fish swimming both forward...
This paper deals with the design and 3-D motion control of a radio-controlled, multi-link and free-s...
This paper proposes a dynamic model and control for the four-joint biomimetic robotic fish with yawi...
This paper is concerned with the design and motion control of a radio-controlled, multi-link and fre...
Abstract — This paper presents a novel modelling methodology for our robotic fish, which considers t...
Fishes have evolved different excellent swimming strategies. To study the influence of tail fin swin...
In the last few years, there have been many new developments and significant accomplishments in the ...
This paper deals with a novel fast swimming robotic fish capable of high maneuverability and yet wit...