Recently, wireless controlled microrobots have been studied because of their great development prospects in the biomedical field. Electromagnetic microrobots have the advantages of control agility and good precision, and thus, have received much attention. Most of the control methods for controlling a magnetic microrobot use manual operation. Compared to the manual method, the automatic method will increase the accuracy and stability of locomotion and manipulation of microrobots. In this paper, we propose an electromagnetic manipulation system for automatically controlling the locomotion and manipulation of microrobots. The microrobot can be automatically controlled to track various paths by using visual feedback with an expert control algo...
A guided microrobot position control methodology is introduced in this paper. Using an electromagnet...
In this paper, we have developed an approach for independent autonomous navigation of multiple micro...
Accurate control systems are critical for safe and practical utilization of microrobots for in vivo ...
Recently, wireless controlled microrobots have been studied because of their great development prosp...
The Electromagnetic robots have received much attention because of their advantages of control agili...
Abstract -A microrobot that can be moved along blood vessels has a great potential application for m...
Micro/nanorobots have several potential biomedical applications, such as drug delivery, minimal inva...
Micro-technologies based on wirelessly powered and manoeuvred submillimeter device, i.e., microrobot...
Untethered, controllable, mobile microrobots have been proposed for numerous applications, ranging f...
Different magnetic navigation systems (MNSs) have been investigated for the wireless manipulation of...
This paper proposes an effective method to manipulate the 2D motions of a magnetic small-scale robot...
AbstractThis paper researches the design and control method of a microrobot in a microfluidic system...
This paper proposes a crawling microrobot that can effectively navigate and anchor in various tubula...
Abstract – In this paper, we discuss a multi-DOFs locomotion and position detection system of the mi...
Untethered submilliliter-sized robots (microrobots) are showing potential use in different industria...
A guided microrobot position control methodology is introduced in this paper. Using an electromagnet...
In this paper, we have developed an approach for independent autonomous navigation of multiple micro...
Accurate control systems are critical for safe and practical utilization of microrobots for in vivo ...
Recently, wireless controlled microrobots have been studied because of their great development prosp...
The Electromagnetic robots have received much attention because of their advantages of control agili...
Abstract -A microrobot that can be moved along blood vessels has a great potential application for m...
Micro/nanorobots have several potential biomedical applications, such as drug delivery, minimal inva...
Micro-technologies based on wirelessly powered and manoeuvred submillimeter device, i.e., microrobot...
Untethered, controllable, mobile microrobots have been proposed for numerous applications, ranging f...
Different magnetic navigation systems (MNSs) have been investigated for the wireless manipulation of...
This paper proposes an effective method to manipulate the 2D motions of a magnetic small-scale robot...
AbstractThis paper researches the design and control method of a microrobot in a microfluidic system...
This paper proposes a crawling microrobot that can effectively navigate and anchor in various tubula...
Abstract – In this paper, we discuss a multi-DOFs locomotion and position detection system of the mi...
Untethered submilliliter-sized robots (microrobots) are showing potential use in different industria...
A guided microrobot position control methodology is introduced in this paper. Using an electromagnet...
In this paper, we have developed an approach for independent autonomous navigation of multiple micro...
Accurate control systems are critical for safe and practical utilization of microrobots for in vivo ...