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Optimizing robot motion strategies for assembly with stochastic models of the assembly process

Rajeev Sharma, Steven M. LaValle, Seth Hutchinson

发表年份
1996
引用次数
10

摘要

Gross-motion planning for assembly is commonly considered as a distinct, isolated step between task sequencing/scheduling and fine-motion planning. In this paper the authors formulate a problem of delivering parts for assembly in a manner that integrates it with both the manufacturing process and the fine motions involved in the final assembly stages. One distinct characteristic of gross-motion planning for assembly is the prevalence of uncertainty involving time-in parts arrival, in request arrival, etc. The authors propose a stochastic representation of the assembly process, and design a state-feedback controller that optimizes the expected time that parts wait to be delivered. This leads to increased performance and a greater likelihood of stability in a manufacturing process. Six specific instances of the general framework are modeled and solved to yield optimal motion strategies for different robots operating under different assembly situations. Several extensions are also discussed.

关键词

Scheduling (production processes)Computer scienceMotion planningRobotProcess (computing)Representation (politics)Motion (physics)Control engineeringStochastic processMathematical optimization

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