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Microbiorobotics
Biologically Inspired Microscale Robotic Systems
World-class contributors investigate how challenges faced by robotics as it is taken to the micro-scale can be addressed by deploying techniques used by microorganisms, and by introducing biological elements to micro-engineering systems. The techniques described in this book will help engineers to unleash the massive potential of microrobotics in applications from injectable devices to perform eye surgery to new micro-manufacturing techniques
Minjun Kim (Edited by), Anak Agung Julius (Edited by)
9780128103340, Elsevier Science
Paperback, published 19 August 2016
328 pages
23.4 x 19 x 2.1 cm, 0.45 kg
Microbiorobotics is a new engineering discipline that inherently involves a multidisciplinary approach (mechanical engineering, cellular biology, mathematical modeling, control systems, synthetic biology, etc). Building robotics system in the micro scale is an engineering task that has resulted in many important applications, ranging from micromanufacturing techniques to cellular manipulation. However, it is also a very challenging engineering task. One of the reasons is because many engineering ideas and principles that are used in larger scales do not scale well to the micro-scale. For example, locomotion principles in a fluid do not function in the same way, and the use of rotational motors is impractical because of the difficulty of building of the required components.
Introduction B: Fundamentals of Cellular Mechanics B.1: Fluid-structure Interactions and Flagellar Actuation B.2: Mathematical Models for Swimming Bacteria B.3: Tetrahymena pyriformis in Motion C: Theoretical Microbiorobotics C.1: Piezoelectric Cellular Actuators with Nested Rhombus Strain Amplification C.2: Stochastic Models and Control of Bacterial Bioactuators and Biomicrorobots C.3: Stochastic Model and Control in Microbiorobotics D: Experimental Microbiorobotics D.1: Bacteria-Inspired Microrobots D.2: Magnetotactic Bacteria for Microrobotics D.3: Flexible magnetic microswimmers D.4: Bacteria-Powered Microrobots D.5: Control of Tetrahymena pyriformis as a Microrobot E: Perspectives and Outlook
Subject Areas: Robotics [TJFM1], Microbiology [non-medical PSG], Biomedical engineering [MQW]
