A biologically inspired robot in the form of fish (mackerel) model using rubber (as the biomimetic material) for its hyper-redundant joint is presented in this paper. Computerized simulation of the most critical part of the model (the peduncle) shows that the rubber joints will be able to take up the stress that will be created. Furthermore, the frequency-induced softening of the rubber used was found to be critical if the joints are going to oscillate at frequency above 25 Hz. The robotic fish was able to attain a speed of 0.985 m/s while the tail beats at a maximum of 1.7 Hz when tested inside water. Furthermore, a minimum turning radius of 0.8 m (approximately 2 times the fish body length) was achieved
This paper proposes a kinematic modeling method for a bio-inspired robotic fish based on single join...
In the last few years, there have been many new developments and significant accomplishments in the ...
Biomimetic robotics can help support underwater exploration and monitoring while minimizing ecosyste...
Biological evidence suggests that fish use muscles to stiffen their bodies and improve their swimmin...
This article presents the design, fabrication, and characterization of a soft biomimetic robotic fis...
This paper presents mechatronic design and manufacturing of a biomimetic Carangiform-type autonomous...
The study of biomimetics is largely driven by the desire to integrate design advantages found in th...
This paper presents a method to create fish-like robots with tensegrity systems and describes a prot...
The traditional multi joint mechanical serial parallel structure biomimetic fish has lower propulsiv...
Imitating the style of the motion of fish mail in nature, this paper design and develop a single joi...
This paper is concerned with the design and motion control of a radio-controlled, multi-link and fre...
Biomimetic robotic fish is a new type of underwater robot with many superior characteristics such as...
Fishes have evolved different excellent swimming strategies. To study the influence of tail fin swin...
In this paper, a novel design of a biomimetic robot fish is presented. Based on the propulsion and m...
This paper describes the performance analysis of a conceptual bio-inspired robotic fish design, whic...
This paper proposes a kinematic modeling method for a bio-inspired robotic fish based on single join...
In the last few years, there have been many new developments and significant accomplishments in the ...
Biomimetic robotics can help support underwater exploration and monitoring while minimizing ecosyste...
Biological evidence suggests that fish use muscles to stiffen their bodies and improve their swimmin...
This article presents the design, fabrication, and characterization of a soft biomimetic robotic fis...
This paper presents mechatronic design and manufacturing of a biomimetic Carangiform-type autonomous...
The study of biomimetics is largely driven by the desire to integrate design advantages found in th...
This paper presents a method to create fish-like robots with tensegrity systems and describes a prot...
The traditional multi joint mechanical serial parallel structure biomimetic fish has lower propulsiv...
Imitating the style of the motion of fish mail in nature, this paper design and develop a single joi...
This paper is concerned with the design and motion control of a radio-controlled, multi-link and fre...
Biomimetic robotic fish is a new type of underwater robot with many superior characteristics such as...
Fishes have evolved different excellent swimming strategies. To study the influence of tail fin swin...
In this paper, a novel design of a biomimetic robot fish is presented. Based on the propulsion and m...
This paper describes the performance analysis of a conceptual bio-inspired robotic fish design, whic...
This paper proposes a kinematic modeling method for a bio-inspired robotic fish based on single join...
In the last few years, there have been many new developments and significant accomplishments in the ...
Biomimetic robotics can help support underwater exploration and monitoring while minimizing ecosyste...