Design and implementation of an adaptive process planner for disassembly processes
Document Type
Article
Publication Date
12-3-2000
Abstract
This paper presents a methodology for designing and implementing disassembly plans and processes using Petri nets (PN's) for remanufacturing obsolete products. Process modeling and planning using PN's are discussed. The proposed PN's accommodate product topology and precedence relations during disassembly. Decision values are attached to PN's to enable consideration of uncertainty during process execution. The resulting planner guarantees the plan's optimality when product remanufacturing parameters are known. In cases of uncertainty about product parameters, an adaptation scheme is designed and implemented to facilitate the goal of maximum benefit. Three planning and execution algorithms (globally fixed, limited adaptive, adaptive) are presented for disassembly processes. They are demonstrated comprehensively through a robotic disassembly system, and its use is demonstrated in disassembly of a car radio.
Identifier
0033721516 (Scopus)
Publication Title
IEEE Transactions on Robotics and Automation
External Full Text Location
https://doi.org/10.1109/70.843173
ISSN
1042296X
First Page
171
Last Page
179
Issue
2
Volume
16
Fund Ref
State of New Jersey Commission on Science and Technology
Recommended Citation
Zussman, Eyal and Zhou, Meng Chu, "Design and implementation of an adaptive process planner for disassembly processes" (2000). Faculty Publications. 15431.
https://digitalcommons.njit.edu/fac_pubs/15431
