Design in Face-shovel Hydraulic Excavator Based on Question-answer Drive

For the process modeling of complex product, a methodology of an iterative question driven simulation process is introduced. In which, the design process model is capable to describe problem statements, model specifications, simulation models and problem answers as separate objects. This enables a g...

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Veröffentlicht in:	Journal of applied sciences (Asian Network for Scientific Information) 2013, Vol.13 (12), p.2196-2196
Hauptverfasser:	Ning, Xiaobin, She, Yini, Li, Aifeng
Format:	Artikel
Sprache:	eng
Schlagworte:	Computational fluid dynamics Computer simulation Excavators Hinges Iterative methods Mathematical models Requirements specifications Specifications
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container_title	Journal of applied sciences (Asian Network for Scientific Information)
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creator	Ning, Xiaobin She, Yini Li, Aifeng
description	For the process modeling of complex product, a methodology of an iterative question driven simulation process is introduced. In which, the design process model is capable to describe problem statements, model specifications, simulation models and problem answers as separate objects. This enables a granularity level of information that allows traceability on an object-to-object level between the attributes in the requirements specification and the estimated product properties. This also offers a traceability and reuse of partial result created during the verification of a specific requirements attribute, as well, as a possibility to study the effects that changes in the requirements specification have on product properties. Based on an iterative question-answer driven process, the best design plan of hinge points is chosen from 5120 different attachment hinge points' designs, and the traceability from the establishment of the requirement specification to the draft process of the decision basis is realized. It showed that, the question-answer driven method is a valid method, could meet the design requirement.
doi_str_mv	10.3923/jas.2013.2196.2202
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subjects	Computational fluid dynamics Computer simulation Excavators Hinges Iterative methods Mathematical models Requirements specifications Specifications
title	Design in Face-shovel Hydraulic Excavator Based on Question-answer Drive
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