Add to ORKGAlong with sensation and intelligence, actuation is one of the most important factors in the development of conventional robots. Many novel achievements have been made regarding bio-based actuators to solve the challenges of conventional actuation. However, few studies have focused on methods for controlling the movement performance of bio-syncretic robots by designing robotic structures and programming actuation bio-entities. In this paper, a theoretical model was derived considering kinematics and hydromechanics to describe the dynamics of a dolphin-shaped microstructure and to control the bio-syncretic swimmer movement by establishing the relationships between the swimming velocity of the bio-swimmer, the cell seeding concentration and t...
The quest for swimming microrobots originates from possible applications in medicine, especially inv...
Bio-actuators that use insect muscular tissue have attracted attention from researchers worldwide be...
Accurate prediction of the three-dimensional trajectories of micro/nano-swimmers is a key element as...
Along with sensation and intelligence, actuation is one of the most important factors in the develop...
Control and actuation are the most important factors that determine the performance of traditional e...
Abstract Biomechatronics is the integration of biological components with artificial devices, in whi...
Biorobots that harness the power generated by living muscle cells have recently gained interest as a...
Biological machines often referred to as biorobots, are living cell- or tissue-based devices that ar...
Energy efficiency and intrinsic safety are two critical challenges faced by traditional robots based...
Biohybrid robotics are a new class of mechanical systems which use biological cells as machine compo...
In recent years, hybrid devices that consist of a living cell or tissue component integrated with a ...
Experiments are carried out with a cm-scale bio-mimetic swimming robot, which consists of a body and...
Bio-syncretic robots consisting of both living biological materials and non-living systems possess d...
Bioinspired hybrid soft robots that combine living and synthetic components are an emerging field in...
Nature consists of numerous solutions to overcome challenges in designing artificial systems. Variou...
The quest for swimming microrobots originates from possible applications in medicine, especially inv...
Bio-actuators that use insect muscular tissue have attracted attention from researchers worldwide be...
Accurate prediction of the three-dimensional trajectories of micro/nano-swimmers is a key element as...
Along with sensation and intelligence, actuation is one of the most important factors in the develop...
Control and actuation are the most important factors that determine the performance of traditional e...
Abstract Biomechatronics is the integration of biological components with artificial devices, in whi...
Biorobots that harness the power generated by living muscle cells have recently gained interest as a...
Biological machines often referred to as biorobots, are living cell- or tissue-based devices that ar...
Energy efficiency and intrinsic safety are two critical challenges faced by traditional robots based...
Biohybrid robotics are a new class of mechanical systems which use biological cells as machine compo...
In recent years, hybrid devices that consist of a living cell or tissue component integrated with a ...
Experiments are carried out with a cm-scale bio-mimetic swimming robot, which consists of a body and...
Bio-syncretic robots consisting of both living biological materials and non-living systems possess d...
Bioinspired hybrid soft robots that combine living and synthetic components are an emerging field in...
Nature consists of numerous solutions to overcome challenges in designing artificial systems. Variou...
The quest for swimming microrobots originates from possible applications in medicine, especially inv...
Bio-actuators that use insect muscular tissue have attracted attention from researchers worldwide be...
Accurate prediction of the three-dimensional trajectories of micro/nano-swimmers is a key element as...