This article introduces a biologically inspired modular swimming robot. Due to defi ned interfaces in mass, energy, and information fl ux, the robot’s swimming behavior is changeable: an undulant, successive called anguilliform as well as a thunniform swimming mode is adjustable. Unlike the current state of the art, the robot comes with specifi c designed mechanics for the reduction of the complexity of software-sided control. Thereby, the number of actuators required for propulsion is reduced to the minimum number of one. Currently the pro-totype robot consists of a basic structure generating amongst others the required torque and several effector modules. The locomotion mode is switchable depending on the number of effector modules. There...
This paper describes the development of a new biorobotic platform inspired by the lamprey. Design, f...
This article presents a project that aims at constructing a biologically inspired amphibious snake-l...
Water beetles are proficient drag-powered swimmers, with oar-like legs. Inspired by this mechanism, ...
Drag-based swimming is usually accompanied with the shape change of rowing appendages to generate as...
Swimming robots are mainly classified into two categories according to their propulsion method: Body...
Biomechatronics is the integration of biological components with artificial devices, in which the bi...
In this paper the development of a bio-robotic platform is described. The robot design exploits biom...
Drag-based swimming is usually accompanied with the shape change of rowing appendages to generate as...
Abstract – We present the design and control of a soft undulating snake-like swimming robot that can...
The following paper presents the design and fabrication of an ostraciiform swimming robot and its na...
Biology provides many examples of how body adaption can be used to achieve a change in functionality...
The locomotion of water beetles has been widely studied in biology owing to their remarkable swimmin...
Bio-inspired solutions devised for Autonomous Underwater Robots are currently investigated by resear...
It is often impractical or dangerous to send people to explore underwater environments. In these sit...
(Received?; revised?; accepted?.- To be entered by editorial office) Most aquatic vertebrates swim b...
This paper describes the development of a new biorobotic platform inspired by the lamprey. Design, f...
This article presents a project that aims at constructing a biologically inspired amphibious snake-l...
Water beetles are proficient drag-powered swimmers, with oar-like legs. Inspired by this mechanism, ...
Drag-based swimming is usually accompanied with the shape change of rowing appendages to generate as...
Swimming robots are mainly classified into two categories according to their propulsion method: Body...
Biomechatronics is the integration of biological components with artificial devices, in which the bi...
In this paper the development of a bio-robotic platform is described. The robot design exploits biom...
Drag-based swimming is usually accompanied with the shape change of rowing appendages to generate as...
Abstract – We present the design and control of a soft undulating snake-like swimming robot that can...
The following paper presents the design and fabrication of an ostraciiform swimming robot and its na...
Biology provides many examples of how body adaption can be used to achieve a change in functionality...
The locomotion of water beetles has been widely studied in biology owing to their remarkable swimmin...
Bio-inspired solutions devised for Autonomous Underwater Robots are currently investigated by resear...
It is often impractical or dangerous to send people to explore underwater environments. In these sit...
(Received?; revised?; accepted?.- To be entered by editorial office) Most aquatic vertebrates swim b...
This paper describes the development of a new biorobotic platform inspired by the lamprey. Design, f...
This article presents a project that aims at constructing a biologically inspired amphibious snake-l...
Water beetles are proficient drag-powered swimmers, with oar-like legs. Inspired by this mechanism, ...