Energy-efficient propulsion is a critical design target for robotic swimmers. Although previous studies have pointed out the importance of nonuniform body bending stiffness distribution (k) in improving the undulatory swimming efficiency of adult fish-like robots in the inertial flow regime, whether such an elastic mechanism is beneficial in the intermediate flow regime remains elusive. Hence, we develop a class of untethered soft milliswimmers consisting of a magnetic composite head and a passive elastic body with different k These robots realize larval zebrafish-like undulatory swimming at the same scale. Investigations reveal that uniform k and high swimming frequency (60 to 100 Hz) are favorable to improve their efficiency. A shape memo...
This paper deals with a novel fast swimming robotic fish capable of high maneuverability and yet wit...
Biomimetic compliant untethered robots find a plethora of applications in biomedical engineering, mi...
Undulatory fishes display a wide range of body amplitudes and wavelengths during steady swimming. Th...
Biological evidence suggests that fish use muscles to stiffen their bodies and improve their swimmin...
Simple mechanical models emulating fish have been used recently to enable targeted study of individu...
This article presents the design, fabrication, and characterization of a soft biomimetic robotic fis...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Th...
Undulatory motion of the body is the dominant mode of locomotion in fishes, and numerous studies of ...
The efficient motility of invertebrates helps them survive under evolutionary pressures. Reconstruct...
We present a novel DC motor driven soft robotic fish which is optimized for speed and efficiency bas...
An undulatory pattern of body bending in which waves pass along the body from head to tail is a majo...
Motivated by the incredible agility of fish and aquatic mammals underwater, scientists and engineers...
This article introduces a biologically inspired modular swimming robot. Due to defi ned interfaces i...
Fish excel in their swimming capabilities. These result from a dynamic interplay of actuation, passi...
Swimming robots are mainly classified into two categories according to their propulsion method: Body...
This paper deals with a novel fast swimming robotic fish capable of high maneuverability and yet wit...
Biomimetic compliant untethered robots find a plethora of applications in biomedical engineering, mi...
Undulatory fishes display a wide range of body amplitudes and wavelengths during steady swimming. Th...
Biological evidence suggests that fish use muscles to stiffen their bodies and improve their swimmin...
Simple mechanical models emulating fish have been used recently to enable targeted study of individu...
This article presents the design, fabrication, and characterization of a soft biomimetic robotic fis...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Mechanical Engineering, 2018.Th...
Undulatory motion of the body is the dominant mode of locomotion in fishes, and numerous studies of ...
The efficient motility of invertebrates helps them survive under evolutionary pressures. Reconstruct...
We present a novel DC motor driven soft robotic fish which is optimized for speed and efficiency bas...
An undulatory pattern of body bending in which waves pass along the body from head to tail is a majo...
Motivated by the incredible agility of fish and aquatic mammals underwater, scientists and engineers...
This article introduces a biologically inspired modular swimming robot. Due to defi ned interfaces i...
Fish excel in their swimming capabilities. These result from a dynamic interplay of actuation, passi...
Swimming robots are mainly classified into two categories according to their propulsion method: Body...
This paper deals with a novel fast swimming robotic fish capable of high maneuverability and yet wit...
Biomimetic compliant untethered robots find a plethora of applications in biomedical engineering, mi...
Undulatory fishes display a wide range of body amplitudes and wavelengths during steady swimming. Th...