A novel optimal assembly algorithm for haptic interface applications of a virtual maintenance system

Christiand,; Yoon, Jungwon; Kumar, R. Prasanth

doi:10.1007/s12206-008-0902-y

Cited by 18 publications

(8 citation statements)

References 12 publications

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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%

Optimum design of 6-DOF parallel manipulator with translational/rotational workspaces for haptic device application

2010

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This paper proposes an optimum design method that satisfies the desired orientation workspace at the boundary of the translation workspace while maximizing the mechanism isotropy for parallel manipulators. A simple genetic algorithm is used to obtain the optimal linkage parameters of a six-degree-of-freedom parallel manipulator that can be used as a haptic device. The objective function is composed of a desired spherical shape translation workspace and a desired orientation workspace located on the boundaries of the desired translation workspace, along with a global conditioning index based on a homogeneous Jacobian matrix. The objective function was optimized to satisfy the desired orientation workspace at the boundary positions as translated from a neutral position of the increasedentropy mechanism. An optimization result with desired translation and orientation workspaces for a haptic device was obtained to show the effectiveness of the suggested scheme, and the kinematic performances of the proposed model were compared with those of a preexisting base model.

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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%

Optimum design of 6-DOF parallel manipulator with translational/rotational workspaces for haptic device application

2010

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“…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%

A visualization system for integrating maintainability design and evaluation at product design stage

Peng

Hou

Gao

et al. 2011

Int J Adv Manuf Technol

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Thoughtful consideration of products maintenance features early in design stage can reduce or eliminate maintenance costs, reduce downtime, and improve safety. As such, the effective collaboration of product designers and maintenance technicians throughout the product design process is becoming much more important for the most advanced competitiveness. To address this need, a visualization system that enables maintainability-related technicians cooperated with product designers in a networked manufacturing environment is proposed in this study. This paper presents a systematic approach to implementation of a Web-based visualization system by using virtual reality technology. The system aims at providing a simulated environment and concurrent engineering processes to facilitate communication, coordination, control, and integration of product maintainability validation and improvement activities. The result of this research will help increase product maintainability, reduce development cycle time and cost, and hence increase product marketability.

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“…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%

Development of a collaborative virtual maintenance environment with agent technology

Liu

Peng

Liu

et al. 2010

Journal of Manufacturing Systems

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A novel optimal assembly algorithm for haptic interface applications of a virtual maintenance system

Cited by 18 publications

References 12 publications

Optimum design of 6-DOF parallel manipulator with translational/rotational workspaces for haptic device application

Optimum design of 6-DOF parallel manipulator with translational/rotational workspaces for haptic device application

A visualization system for integrating maintainability design and evaluation at product design stage

Development of a collaborative virtual maintenance environment with agent technology

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