Camouflage through colour change: mechanisms, adaptive value and ecological significance

Abstract-This paper describes a novel microassembly system that can be used to construct out-of-plane three-dimensional (3-D) microstructures. The system makes use of a surface-micromachined microgripper that is solder bonded to a robotic manipulator. The microgripper is able to grasp a micropart, remove it from the chip, reorient it about two independent axes, translate it along the , and axes to a secondary location, and join it to another micropart. In this way, out-of-plane 3-D microstructures can be assembled from a set of initially planar and parallel surface micromachined microparts. The microgripper is 380 410 m in size. It utilizes three geometric features for operation: 1) compliant beams to allow for deflection at the grasping tips; 2) self-tightening geometry during grasping; and 3) 3-D interlocking geometry to secure a micropart after the grasp. Each micropart has three geometric features built into its body. The first is the interlock interface feature that allows it to be grasped by the microgripper. The second is a tether feature that secures the micropart to the substrate, and breaks away after the microgripper has grasped the micropart. The third is the snap-lock feature, which is used to join the micropart to other microparts.[1061]Index Terms-Compliant, joint, microelectromechanical systems (MEMS), microgripper, microassembly, microstructure, micropart, snap-lock microjoint, three-dimensional (3-D).

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Force and position control of manipulators during constrained motion tasks

Mills

Goldenberg

1989

IEEE Trans. Robot. Automat.

362

112

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Dynamic finite-element analysis of a planar high-speed, high-precision parallel manipulator with flexible links

Piras

Cleghorn

Mills

2005

Mechanism and Machine Theory

183

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A PZT actuator control of a single-link flexible manipulator based on linear velocity feedback and actuator placement

et al. 2004

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Robotic Cell Injection System With Position and Force Control: Toward Automatic Batch Biomanipulation

et al. 2009

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A survey of piezoelectric actuators with long working stroke in recent years: Classifications, principles, connections and distinctions

Wang

Rong

Wang

et al. 2019

Mechanical Systems and Signal Processing

133

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Dynamic modeling of a flexible-link planar parallel platform using a substructuring approach

Wang

Mills

2006

Mechanism and Machine Theory

103

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Dynamic Modeling and Experimental Validation of a 3-PRR Parallel Manipulator with Flexible Intermediate Links

Zhang

Mills

Cleghorn

2007

J Intell Robot Syst

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James K. Mills

Microassembly of 3-D Microstructures Using a Compliant, Passive Microgripper

Force and position control of manipulators during constrained motion tasks

Dynamic finite-element analysis of a planar high-speed, high-precision parallel manipulator with flexible links

A PZT actuator control of a single-link flexible manipulator based on linear velocity feedback and actuator placement

Robotic Cell Injection System With Position and Force Control: Toward Automatic Batch Biomanipulation

A survey of piezoelectric actuators with long working stroke in recent years: Classifications, principles, connections and distinctions

Dynamic modeling of a flexible-link planar parallel platform using a substructuring approach

Dynamic Modeling and Experimental Validation of a 3-PRR Parallel Manipulator with Flexible Intermediate Links

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