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Parametric model construction of solid mechanics based on wireless environment and cloud computing mode
EURASIP Journal on Wireless Communications and Networking ( IF 2.6 ) Pub Date : 2020-10-31 , DOI: 10.1186/s13638-020-01849-4
Longji Jian , Feifei Song , Yuansong Huang

Traditional parametric models of solid mechanics have disadvantages such as poor lightweight level of cloud data and low integrity of operations of solid mechanics. To solve the above problems, a parametric model for solid mechanics in engineering research based on cloud computing models is designed. By calculating the number of cloud data copy optimizations, the upper limit of resources required for engineering research is estimated, and the specific values is assessed by continuously cycling the demand, so as to complete the basic conflict analysis, and set up a cloud computing engineering research environment. On this basis, the modeling index is selected. By analyzing the sensitivity of the index, the purpose of optimizing the modeling parameters is achieved, and a new solid mechanics parametric model is constructed. Analyzing and contrasting the experimental data shows that after applying the parametric model of solid mechanics in the engineering research based on the cloud computing model, the lightweight level of cloud data can be increased by up to 24 levels, and the operational integrity of solid mechanics can be increased by about 30%.



中文翻译:

基于无线环境和云计算模式的固体力学参数模型构建

固体力学的传统参数模型具有诸如云数据的轻量级水平差和固体力学的操作完整性低的缺点。针对上述问题,设计了基于云计算模型的固体力学参数化模型。通过计算云数据复制优化的次数,估算出工程研究所需的资源上限,并通过不断循环需求来评估特定值,从而完成基本的冲突分析,并建立了云计算工程研究环境。在此基础上,选择建模索引。通过分析指标的敏感性,达到优化建模参数的目的,建立了新的固体力学参数模型。

更新日期:2020-11-02
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