Add to ORKGThis paper presents an artificial locomotion servo-system for an insect like hexapod BioMicroRobot (BMR). This servo-system, programmed with VHDL code, will act as a driver in a RISC architecture microcontroller to reproduce insect tripod walking. An overview of the robot control system, in accordance with the insect displacement principle, is demonstrated with timing parameters. A control algorithm of the six legs driving the robot in any direction versus Pulse Width Modulation (PWM) is reviewed. BMR microlegs are built with cylindrical Nafion-Pt Ionomeric Polymer-Metal Composite (IPMC) that have 2.5 degrees of freedom. Specific fabrication process for one leg is...
Insects have long been a source of inspiration for the design and implementation of legged robots. T...
Living muscle tissues and cells have been attracting attention as potential actuator candidates. In ...
A variety of microrobots have commonly been used in the fields of biomedical engineering and underwa...
This paper presents an artificial locomotion servo-system for an insect like hexapod Bi...
This paper presents the electromechanical characterization of Nafion-Pt microlegs for the developmen...
This paper shows a new propulsion system for an insect like hexapod BioMicroRobot (BMR) build with t...
Microrobots have powerful applications in biomedical and naval fields. They should have a compact st...
This paper presents the conceptual design and testing of a bio-inspired locomotion system activated ...
<div><p>In this study, a biological microactuator was demonstrated by closed-loop motion control of ...
Purpose - Biological systems such as insects have often been used as a source of inspiration when de...
International audienceNowadays, servomotors are classically used for actuating small legged robots. ...
In this study, a biological microactuator was demonstrated by closed-loop motion control of the fron...
© Springer International Publishing Switzerland 2015. We present an energetically autonomous robotic...
International audienceNowadays, servomotors are classically used as actuators for actuating small le...
In this study, a biological microactuator was demonstrated by closed-loop motion control of the fron...
Insects have long been a source of inspiration for the design and implementation of legged robots. T...
Living muscle tissues and cells have been attracting attention as potential actuator candidates. In ...
A variety of microrobots have commonly been used in the fields of biomedical engineering and underwa...
This paper presents an artificial locomotion servo-system for an insect like hexapod Bi...
This paper presents the electromechanical characterization of Nafion-Pt microlegs for the developmen...
This paper shows a new propulsion system for an insect like hexapod BioMicroRobot (BMR) build with t...
Microrobots have powerful applications in biomedical and naval fields. They should have a compact st...
This paper presents the conceptual design and testing of a bio-inspired locomotion system activated ...
<div><p>In this study, a biological microactuator was demonstrated by closed-loop motion control of ...
Purpose - Biological systems such as insects have often been used as a source of inspiration when de...
International audienceNowadays, servomotors are classically used for actuating small legged robots. ...
In this study, a biological microactuator was demonstrated by closed-loop motion control of the fron...
© Springer International Publishing Switzerland 2015. We present an energetically autonomous robotic...
International audienceNowadays, servomotors are classically used as actuators for actuating small le...
In this study, a biological microactuator was demonstrated by closed-loop motion control of the fron...
Insects have long been a source of inspiration for the design and implementation of legged robots. T...
Living muscle tissues and cells have been attracting attention as potential actuator candidates. In ...
A variety of microrobots have commonly been used in the fields of biomedical engineering and underwa...