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浙江大学学报(工学版)
JOURNAL OF ZHEJIANG UNIVERSITY (ENGINEERING SCIENCE)
Mechanical and Energy Engineering     
Construction method of vehicle test service platform based on cloud manufacturing model
WEN Xian he, ZHOU Xiao jun, YANG Chen long
The State Key Laboratory of Fluid Power Transmission and Control, Zhejiang University, Hangzhou 310027, China
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Abstract  

Cloud manufacturing model was introduced into the vehicle test area based on the latest cloud manufacturing concept, aiming at all kinds of problems in building vehicle test bed, such as redundant construction, supply homogeneity, poor adaptability to different types of specimens, the lack of innovation and reliability, the lack of effective use of expert knowledge, the shortage of post-processing analysis for the test data and so on,  A novel approach for building the vehicle test service platform was proposed. The platform architecture and business processes were introduced. The physical infrastructure of platform network was raised. The technology system for the platform was planned. The implementation of the platform and the relationship between the main class diagrams were provided. This approach provides an effective means for the informationization and servicization of the vehicle test area. It also provides theoretical support for reduction of the redundant construction and improvement of the effective use of existed test resources and expert knowledge.

Published: 08 December 2016
CLC:  TH 166  
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Cite this article:

WEN Xian he, ZHOU Xiao jun, YANG Chen long. Construction method of vehicle test service platform based on cloud manufacturing model. JOURNAL OF ZHEJIANG UNIVERSITY (ENGINEERING SCIENCE), 2016, 50(12): 2254-2261.

URL:

http://www.zjujournals.com/eng/10.3785/j.issn.1008-973X.2016.12.002     OR     http://www.zjujournals.com/eng/Y2016/V50/I12/2254


云制造模式车辆试验服务平台构建方法

针对车辆试验台重复建设严重、供应同质化、对不同型号的被试件适应性差、缺乏创新性和可靠性、对试验数据的保存及其后处理分析不足、缺少对试验领域专家知识的有效利用等诸多问题,结合最新的云制造理念,从服务平台的角度将云制造模式引入车辆试验领域,提出基于云制造模式的车辆试验服务平台构建方法.介绍平台架构及其业务流程,提出平台网络物理架构,规划平台的技术体系,给出平台实施及其主要类图关系.为车辆试验领域的信息化和服务化提供有效手段,为减少车辆试验领域的重复建设和提高对行业已有试验资源和专家知识的有效利用提供方法支撑.

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