A novice-centered decision-support system for type synthesis of function-generation mechanisms

Abdullah F. Al-Dwairi; Fikri T. Dweiri; Omar M. Ashour

doi:10.1016/j.mechmachtheory.2010.04.006

A novice-centered decision-support system for type synthesis of function-generation mechanisms

Abdullah F. Al-Dwairi
, Fikri T. Dweiri
, Omar M. Ashour

School of Engineering (Behrend)

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

This paper proposes an automated decision-support system for conceptual design of mechanisms for function-generation design tasks. The developed system involves a library of function shapes and a knowledgebase of mechanism topologies. For each function shape, the topologies are assessed using kinematic and non-kinematic criteria and the assessments are stored in the knowledgebase. The analytic-hierarchy process (AHP) is employed to provide the user with a prioritized list of candidate design solutions. Sensitivity analysis can be performed by the system to test the prioritization for robustness. Feasibility of the system is demonstrated on a selected set of function shapes and mechanism topologies.

Original language	English (US)
Pages (from-to)	1252-1268
Number of pages	17
Journal	Mechanism and Machine Theory
Volume	45
Issue number	9
DOIs	https://doi.org/10.1016/j.mechmachtheory.2010.04.006
State	Published - Sep 2010

All Science Journal Classification (ASJC) codes

Bioengineering
Mechanics of Materials
Mechanical Engineering
Computer Science Applications

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10.1016/j.mechmachtheory.2010.04.006

Cite this

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title = "A novice-centered decision-support system for type synthesis of function-generation mechanisms",

abstract = "This paper proposes an automated decision-support system for conceptual design of mechanisms for function-generation design tasks. The developed system involves a library of function shapes and a knowledgebase of mechanism topologies. For each function shape, the topologies are assessed using kinematic and non-kinematic criteria and the assessments are stored in the knowledgebase. The analytic-hierarchy process (AHP) is employed to provide the user with a prioritized list of candidate design solutions. Sensitivity analysis can be performed by the system to test the prioritization for robustness. Feasibility of the system is demonstrated on a selected set of function shapes and mechanism topologies.",

author = "Al-Dwairi, \{Abdullah F.\} and Dweiri, \{Fikri T.\} and Ashour, \{Omar M.\}",

note = "Funding Information: The authors acknowledge the financial support from the Deanship of Scientific Research of Jordan University of Science and Technology . The assistance from Eng. M. Hajjat during the system's interface development is gratefully acknowledged.",

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AU - Ashour, Omar M.

N1 - Funding Information: The authors acknowledge the financial support from the Deanship of Scientific Research of Jordan University of Science and Technology . The assistance from Eng. M. Hajjat during the system's interface development is gratefully acknowledged.

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N2 - This paper proposes an automated decision-support system for conceptual design of mechanisms for function-generation design tasks. The developed system involves a library of function shapes and a knowledgebase of mechanism topologies. For each function shape, the topologies are assessed using kinematic and non-kinematic criteria and the assessments are stored in the knowledgebase. The analytic-hierarchy process (AHP) is employed to provide the user with a prioritized list of candidate design solutions. Sensitivity analysis can be performed by the system to test the prioritization for robustness. Feasibility of the system is demonstrated on a selected set of function shapes and mechanism topologies.

AB - This paper proposes an automated decision-support system for conceptual design of mechanisms for function-generation design tasks. The developed system involves a library of function shapes and a knowledgebase of mechanism topologies. For each function shape, the topologies are assessed using kinematic and non-kinematic criteria and the assessments are stored in the knowledgebase. The analytic-hierarchy process (AHP) is employed to provide the user with a prioritized list of candidate design solutions. Sensitivity analysis can be performed by the system to test the prioritization for robustness. Feasibility of the system is demonstrated on a selected set of function shapes and mechanism topologies.

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A novice-centered decision-support system for type synthesis of function-generation mechanisms

Abstract

All Science Journal Classification (ASJC) codes

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