1) Three-dimension constraint theory
三维约束理论
2) three dimensional constraint
三维约束
1.
The plastic zone size of the crack tip is relative to three dimensional constraint which depends upon not only the plate thickness but also the load and the material property.
裂纹尖端塑性区的大小与其三维约束状态有关,而三维约束状态不仅与板厚还与外载荷、材料性质有关。
3) theory of constraint
约束理论
1.
Reengineering method of production system based on theory of constraint and system dynamics;
基于约束理论和系统动力学的生产系统再造方法
2.
Applying theory of constraint in the informationization of the enterprises;
约束理论在企业信息化中的应用
3.
Study of Manufacture Scene s Improving on Theory of Constraint;
基于约束理论的企业生产现场改善研究
4) TOC
约束理论
1.
Optimize Supply System in Auto Companies with TOC Method;
运用约束理论优化汽车生产企业零件供应管理
2.
Build multi-Agent manufacturing scheduling system by Agent UML based on TOC;
应用约束理论的多Agent UML生产调度系统的Agent UML建模
3.
TOC based reversing push sorting algorithm for car varnishing circuitous process;
基于约束理论的轿车涂装迂回工艺倒推排序算法
5) theory of constraints(TOC)
约束理论
1.
Thinking flow of theory of constraints(TOC) about product contradiction problem is briefly analyzed and innovative design process of theory of inventive problem solving(TRIZ) is presented.
简要分析了产品冲突问题的约束理论(theory of constraints,TOC)思维流程,介绍了发明问题解决理论(theory of inventive problem solving,TRIZ)创新设计过程。
2.
Therefore,a series of organization optimization and management innovation are proposed,in which bottlenecks of the production capacity are identified and solved one by one with the theory of constraints(TOC).
面对严峻的金融危机的形势,抓住国家加大铁路建设力度的机遇,围绕包钢如何创新增产钢轨的生产组方案,运用约束理论找出了制约增产的"瓶径"因素,并逐一解决,使钢轨产能大幅攀升,取得了极大的经济效益和很好的社会效益。
6) binding theory
约束理论
1.
A Comparative Analysis of Binding Theory in English and Chinese;
约束理论在英、汉语中的对比分析
2.
On Chinese Double-Object Construction and Binding Theory;
汉语双宾结构与约束理论
3.
Anaphors are bound by syntactic structures in syntactic distribution and anaphoric interpretation Chomsky s binding theory reveals the property of anaphors in syntax.
乔姆斯基的约束理论揭示了照应词在句法上的这种特性。
补充资料:约束理论(theory of constraints)
约束理论(theory of constraints):简称TOC,通常称之为最优生产技术OPT的软件和技术也属于TOC的范畴。TOC提出不同的指导思想,首先将产品与过程信息合起来表示,以减少信息容量。其次,不是对所有资源同时进行排序和负荷分配,而是先找出生产系统中的瓶颈(或称约束)、然后只对瓶颈资源进行排序和资源分配,最后根据对瓶颈资源的排序来对其他有多余容量的资源进行排序。这样,不仅大大的减少了排序与资源负荷分配的难度,而且这两者可以同时完成,大大缩短了排序时间。所以这种方法也称为同步制造。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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