Diagnosis of irregularities in the robotized part mating process based on contextual recognition of contact states transitions

Purpose – The purpose of this paper is to provide a method for the generation of information machines for part mating process diagnosis. Recognition of contact states between parts during robotized part mating represents a significant element of the system for active compliant robot motion. All prop...

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Bibliographic Details
Published in:Assembly automation 2015-04, Vol.35 (2), p.190-199
Main Authors: Jakovljevic, Zivana, Petrovic, Petar B, Milkovic, Dragan, Pajic, Miroslav
Format: Article
Language:English
Subjects:
Active control
Automata theory
Automation
Contact
Diagnosis
Engineering
Fault diagnosis
Industrial engineering, design & manufacturing
Irregularities
Methodology
Methods
Motion systems
Neural networks
Recognition
Robot dynamics
Robots
Support vector machines
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Summary:Purpose – The purpose of this paper is to provide a method for the generation of information machines for part mating process diagnosis. Recognition of contact states between parts during robotized part mating represents a significant element of the system for active compliant robot motion. All proposed information machines for contact states recognition will recognize one of the possible contact states even when irregular events in the process occur, and the active motion planner will continue to send commands to robot controller according to the planned trajectory. Design/methodology/approach – The presented framework is based on the general theory of automata and formal languages. Starting from possible regular contact states transitions in part mating, the authors create an automaton for diagnostics, which, besides regular, accepts all irregular (observable and unobservable) process sequences. Findings – Contact states do not appear arbitrarily during regular processes, but in certain context. Theory of automata represents a solid basis for contextual recognition and diagnosis of irregularities in part mating. Research limitations/implications – The proposed methodology is elaborated and experimentally verified using an example of cylindrical part mating, and stick-slip effect as an observable irregularity. The future work will address the generation of diagnosers for other types of part mating tasks and extension of the set of observable irregularities. Practical implications – The process diagnosis increases the robustness of active compliant motion system. Originality/value – Although very important feedback information provider for active motion planner, part mating process monitoring was not frequently addressed in the past. In this paper, the authors propose a methodology for generation of part mating process diagnoser that is based on general automata theory.
ISSN:0144-5154
2754-6969
1758-4078
2754-6977
DOI:10.1108/AA-10-2014-077