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MANIPULATION

Sensor-based whole-arm obstacle avoidance utilizing ASIC technology

A.L. Wintenberg, M.N. Ericson, S.M. Babcock, G. A. Armstrong, C.L. Britton, P.L. Butler, W.R. Hamel, D.F. Newport

Year
1993
Citations
3

Abstract

Operation of manipulator systems in poorly defined work environments often presents a significant hazard to both the robotic assembly and the environment. In applications relating to the Environmental Restoration and Waste Management (ER&WM) Program, many of the environments are considered hazardous, both, in the structure and composition of the environment Use of a sensing system that provides information to the manipulator control unit regarding obstacles in close proximity will provide protection against collisions. In this paper, a hierarchical design and implementation of a whole-arm obstacle avoidance system is presented. The system is based on capacitive sensors configured as bracelets for proximity sensing. Each bracelet contains a number of sensor nodes and a processor for sensor node control and readout, and communications with a higher level host, common to all bracelets. The host controls the entire sensing network and communicates proximity information to the manipulator controller. The overall architecture of this system is discussed with detail on the individual system modules. Details of an application specific integrated circuit (ASIC) designed to implement the sensor node electronics are presented. Justifications for the general measurement methods and associated implementation are discussed. Additionally, the current state of development including measured dam is presented.

Keywords

Host (biology)Robotic armEmbedded systemApplication-specific integrated circuitNode (physics)Obstacle avoidanceSensor nodeEngineeringControl unitWireless sensor network

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