2009
DOI: 10.1007/s12206-008-0902-y
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A novel optimal assembly algorithm for haptic interface applications of a virtual maintenance system

Abstract: A virtual maintenance system in a virtual environment can be used to simulate a real-world maintenance system. The efficiency of the simulation depends mainly on the assembly/disassembly task sequence. During simulation, path planning of mechanical parts becomes an important factor since it affects the overall efficiency of the maintenance system in terms of saving energy and time. Therefore, planners must consider the path-planning factors under constraints such as obstacles and the initial/final positions of… Show more

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Cited by 18 publications
(8 citation statements)
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References 12 publications
(23 reference statements)
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“…The method is especially useful for the proposed model, which has a complicated mechanism. Also, it robustly searches for a globally optimized solution [21].…”
Section: Application Of Genetic Algorithmmentioning
confidence: 99%
“…The method is especially useful for the proposed model, which has a complicated mechanism. Also, it robustly searches for a globally optimized solution [21].…”
Section: Application Of Genetic Algorithmmentioning
confidence: 99%
“…Murray et al set up an immersive virtual prototyping environment for supporting the product assembly and maintenance [33]. In [34], a novel assembly optimization framework based on genetic algorithm was proposed; the framework allows a user to determine an optimal plan for a maintenance process by following an optimal assembly sequence and considering path planning factors.…”
Section: Virtual Maintenancementioning
confidence: 99%
“…In [16], Christiand et al proposed a novel assembly optimization framework based on genetic algorithm that allows an operator to determine an optimal plan for a maintenance process by following an optimal assembly sequence and considering path planning factors. In [17,18], Lu Zhong et al presented the maintainability evaluation model based on fuzzy theory.…”
Section: Virtual Maintenancementioning
confidence: 99%