This paper presents an efficient coil design for a mm-sized micro-robot which generates a propulsion force and torque and receives electrical energy using a wireless power transfer system. To determine the most efficient coil structures and produce propulsion and torque on the micro-robot, both helical and spiral coil modeling was conducted, and analytical formulations of the propulsion force and torque were derived for helical and spiral coil structures. Additionally, the dominant dimensional factors for determining propulsion and coil torque were analyzed in detail. Based on the results, an optimum coil structure for generating maximum force on the micro-robot was developed and is herein presented with dimensional analysis. Simulations an...
Wireless charging is the key technology to realize real autonomy of mobile robots. As the core part ...
A need for improvement in minimally invasive surgical techniques is well documented. A method of ach...
Minirobots which are under the field of miniature robotics, have a dimension of a few centimetres to...
This paper presents an efficient coil design for a mm-sized micro-robot which generates a propulsion...
Approaches to studying electromagnetic induction in weak coupling have recently received attention i...
In this paper, we propose a novel coil structure, using a ferromagnetic material which concentrates ...
Based on current implantable devices, a battery’s rigidity and large size makes it prone to immune r...
There is an increasing need for wireless autonomous micro electromechanical systems (MEMS) and micro...
University of Minnesota Ph.d. dissertation. December 2008. Major: Mechanical Engineering. Advisor: B...
The limited force or torque outputs of miniature magnetic actuators constrain the locomotion perform...
Abstract — Onboard power remains a major challenge for miniature robotic platforms. Locomotion at sm...
The design of a tiny swimming robot, which is composed of a spiral-type head and an elastic tail, is...
To receive a greater power and to demonstrate the soft bellows-shaped actuator’s wireless actuation,...
Small-scale wireless magnetic robots and devices offer an effective solution to operations in hard-t...
Actuation systems for few cubic millimeter sized mobile autonomous robots are subject to severe cons...
Wireless charging is the key technology to realize real autonomy of mobile robots. As the core part ...
A need for improvement in minimally invasive surgical techniques is well documented. A method of ach...
Minirobots which are under the field of miniature robotics, have a dimension of a few centimetres to...
This paper presents an efficient coil design for a mm-sized micro-robot which generates a propulsion...
Approaches to studying electromagnetic induction in weak coupling have recently received attention i...
In this paper, we propose a novel coil structure, using a ferromagnetic material which concentrates ...
Based on current implantable devices, a battery’s rigidity and large size makes it prone to immune r...
There is an increasing need for wireless autonomous micro electromechanical systems (MEMS) and micro...
University of Minnesota Ph.d. dissertation. December 2008. Major: Mechanical Engineering. Advisor: B...
The limited force or torque outputs of miniature magnetic actuators constrain the locomotion perform...
Abstract — Onboard power remains a major challenge for miniature robotic platforms. Locomotion at sm...
The design of a tiny swimming robot, which is composed of a spiral-type head and an elastic tail, is...
To receive a greater power and to demonstrate the soft bellows-shaped actuator’s wireless actuation,...
Small-scale wireless magnetic robots and devices offer an effective solution to operations in hard-t...
Actuation systems for few cubic millimeter sized mobile autonomous robots are subject to severe cons...
Wireless charging is the key technology to realize real autonomy of mobile robots. As the core part ...
A need for improvement in minimally invasive surgical techniques is well documented. A method of ach...
Minirobots which are under the field of miniature robotics, have a dimension of a few centimetres to...