This paper presents a dynamic model of robotic fish which synthesizes both the carangiform and anguilliform swimming modes. The designed robotic fish is divided into three parts: stiff anterior body, flexible rear body, and an oscillating lunate caudal fin. We use unsteady flow theory to analyze the motion of the anterior part and the links, and adopt basic airfoil theory for the caudal fin. By summing up the longitudinal force, lateral force and yaw moment on each propulsive component, the kinematic and dynamic equations of the swimming robotic fish can be derived. The desired propulsive characteristics including forward velocity, sway velocity, angular speed, motion trajectory as well as propulsive efficiency can then be obtained via solv...
Designing a robotic fish is a challenging endeavor due to the non-linear dynamics of underwater envi...
The objective of presented article is in application of methods of theory of oscillations in elabora...
This paper deals with the design and 3-D motion control of a radio-controlled, multi-link and free-s...
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...
This paper deals with a three-dimensional (3-D) dynamic model for a free-swimming, multi-link fish-l...
This paper focuses on the dynamic modeling of a self-propelled, multimodal ostraciiform robotic fish...
This paper investigates the hydrodynamic characteristics of the rectilinear motion of a robotic fish...
This paper is concerned with the design and motion control of a radio-controlled, multi-link and fre...
The study of biomimetics is largely driven by the desire to integrate design advantages found in th...
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...
In this paper, a dynamic model is proposed for a carangiform-like robotic fish swimming both forward...
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of Electrical Engineering and...
In the last few years, there have been many new developments and significant accomplishments in the ...
Designing a robotic fish is a challenging endeavor due to the non-linear dynamics of underwater envi...
The objective of presented article is in application of methods of theory of oscillations in elabora...
This paper deals with the design and 3-D motion control of a radio-controlled, multi-link and free-s...
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...
This paper deals with a three-dimensional (3-D) dynamic model for a free-swimming, multi-link fish-l...
This paper focuses on the dynamic modeling of a self-propelled, multimodal ostraciiform robotic fish...
This paper investigates the hydrodynamic characteristics of the rectilinear motion of a robotic fish...
This paper is concerned with the design and motion control of a radio-controlled, multi-link and fre...
The study of biomimetics is largely driven by the desire to integrate design advantages found in th...
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...
In this paper, a dynamic model is proposed for a carangiform-like robotic fish swimming both forward...
Thesis (M.S.)--Wichita State University, College of Engineering, Dept. of Electrical Engineering and...
In the last few years, there have been many new developments and significant accomplishments in the ...
Designing a robotic fish is a challenging endeavor due to the non-linear dynamics of underwater envi...
The objective of presented article is in application of methods of theory of oscillations in elabora...
This paper deals with the design and 3-D motion control of a radio-controlled, multi-link and free-s...