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出 处:《计算机工程与应用》2014年第16期159-163,共5页Computer Engineering and Applications
基 金:国家自然科学基金(No.50905132)
摘 要:在几何约束和几何实体的基本约束和欧拉参数表达的基础上,研究了通用几何约束系统的统一建模问题。通过对三维几何实体姿态约束和位置约束解耦性的分析,抽象出球实体、盒体和球盒体三种基本几何实体表达空间几何实体,并以基本约束的组合表达几何约束,形成几何约束模型特有的层次结构;并以有向图管理几何约束系统,可以清晰地反映姿态约束和位置约束的解耦性,实现约束系统的细粒度分解,得到规模更小的求解序列,实现高效求解。方法实现于原型系统WhutVAS中。A united modeling method of generalized geometric constraint system is investigated on the basis of expressing geometric constraints and geometric elements by basic geometric constraints and Euler parameter, respectively. After ana-lyzing the decoupled property of orientation and position constraints related with spatial geometric elements, the basic bodies are summarized into ball, box and ball-box body to express spatial geometric elements, together with assembly con-straints expressed by a combination of basic constraints, which forms a particular hierarchy structure of geometric con-straint model. The geometric constraint system is coded as a directed geometric constraint graph which describes the rela-tion among the basic geometric elements. The model method can reflect the decoupled property of orientation and posi-tion constraints clearly. The smaller solving units and the efficient solving sequence can be obtained. This method has been implemented in prototype system WhutVAS.
关 键 词:几何约束 几何约束求解 约束处理 图分解 欧拉参数
分 类 号:TP391[自动化与计算机技术—计算机应用技术]
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