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We propose a new framework and novel visual control system for motile cells in three-dimensional (3-D) space. Our goal is to utilize microorganisms as micro-robots in various applications by exploiting galvanotaxis (locomotor response to electrical stimulus) to actuate them. This requires automated motion control of swimming cells in 3-D space; in contrast, our previous work has been limited to 1-D...
A novel method is proposed to control a cluster of microorganisms as micro-robots by utilizing visual feedback. A visual feedback system is constructed to control microorganisms using galvanotaxis. A task of micro-manipulation of a small object is demonstrated by using a lot of paramecia. The experimental results support the feasibility of micro-manipulation by a cell cluster using visual feedback...
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