This book provides an overview of the noteworthy developments in the field of micromachining, with a specific focus on microinjection systems used for biological micromanipulation. The author also explores the design, development, and fabrication of new mechanical designs for micromachines, with plenty of examples that elucidate their modeling and control. The design and fabrication of a piezoelectric microinjector, constant force microinjector, constant force microgripper, PDVF microforce sensor, and a piezoelectric microsyringe are presented as examples of new technology for microinjection…mehr
This book provides an overview of the noteworthy developments in the field of micromachining, with a specific focus on microinjection systems used for biological micromanipulation. The author also explores the design, development, and fabrication of new mechanical designs for micromachines, with plenty of examples that elucidate their modeling and control. The design and fabrication of a piezoelectric microinjector, constant force microinjector, constant force microgripper, PDVF microforce sensor, and a piezoelectric microsyringe are presented as examples of new technology for microinjection systems. This book is appropriate for both researchers and advanced students in bioengineering.
Dr. Qingsong Xu is Associate Professor in the Department of Electromechanical Engineering at the University of Macau. His research encompasses MEMS-based microrobotics, intelligent theory and applications, and micro-/nanopositioning systems.
Inhaltsangabe
Introduction.- Review of Microinjection Systems.- Design, Fabrication, and Testing of a Microforce Sensor for Microinjection.- Design and Control of a Piezoelectric-Driven Microinjector.- Design, Fabrication, and Testing of a Constant-Force Microinjector.- Design, Modeling, and Control of a Constant-Force Microgripper.- Design and Development of a Flexure-Based Compact Constant-Force Robotic Gripper.- Design and Implementation of a Force-Sensing MEMS Microgripper.- Design, Analysis and Development of a Piezoelectric Microsyringe Pump.- Visual Servo Control with Force Regulation for Microinjection.
Introduction.- Review of Microinjection Systems.- Design, Fabrication, and Testing of a Microforce Sensor for Microinjection.- Design and Control of a Piezoelectric-Driven Microinjector.- Design, Fabrication, and Testing of a Constant-Force Microinjector.- Design, Modeling, and Control of a Constant-Force Microgripper.- Design and Development of a Flexure-Based Compact Constant-Force Robotic Gripper.- Design and Implementation of a Force-Sensing MEMS Microgripper.- Design, Analysis and Development of a Piezoelectric Microsyringe Pump.- Visual Servo Control with Force Regulation for Microinjection.
Introduction.- Review of Microinjection Systems.- Design, Fabrication, and Testing of a Microforce Sensor for Microinjection.- Design and Control of a Piezoelectric-Driven Microinjector.- Design, Fabrication, and Testing of a Constant-Force Microinjector.- Design, Modeling, and Control of a Constant-Force Microgripper.- Design and Development of a Flexure-Based Compact Constant-Force Robotic Gripper.- Design and Implementation of a Force-Sensing MEMS Microgripper.- Design, Analysis and Development of a Piezoelectric Microsyringe Pump.- Visual Servo Control with Force Regulation for Microinjection.
Introduction.- Review of Microinjection Systems.- Design, Fabrication, and Testing of a Microforce Sensor for Microinjection.- Design and Control of a Piezoelectric-Driven Microinjector.- Design, Fabrication, and Testing of a Constant-Force Microinjector.- Design, Modeling, and Control of a Constant-Force Microgripper.- Design and Development of a Flexure-Based Compact Constant-Force Robotic Gripper.- Design and Implementation of a Force-Sensing MEMS Microgripper.- Design, Analysis and Development of a Piezoelectric Microsyringe Pump.- Visual Servo Control with Force Regulation for Microinjection.
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