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科学复杂性
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  “科学复杂性”译为未确定词的双语例句
     Based on the unique characteristics of TCM's theory and practice, the academic development of TCM, in combination with the complicated research thoughts and methods of modern biotics, will open up a prosperous future.
     从中医药理论和实践体系自身的特点出发 ,引入现代生命科学复杂性的研究思路与方法 ,将为中医药学术发展开拓广阔的前景。
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  相似匹配句对
     The Theory of Knowledge of the Sciences of Complexity
     复杂性科学知识论
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     Complexity in Control Science
     控制科学中的复杂性
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     SCIENCE
     科学
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     scientific exploration;
     科学探究;
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     Complexity and post-modernism(Part Ⅰ)
     复杂性和后现代主义(上)
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  complexity of science
The complexity of science teaching requires science teachers to encounter a range of tasks.
      
Due to the ever growing complexity of science, no unique and universally valid set of defining criteria is available.
      
Many scientists have developed new collaborative projects, all intended to improve science education at the graduate and undergraduate level, and are beginning to understand the complexity of science education reform.
      
Spinning a Web (Case) Around Professional Standards: Capturing the Complexity of Science Teaching
      
The complexity of science is described in the two major science education reform documents in the US: Benchmarks for Science Literacy (1993) and National Science Education Standards (1996).
      
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The author analyzed systematically the present status of the four research areas of self\|organized criticality, transient chaos, the edge of chaos and weak chaos in the science of complexity and concluded that, the four research areas are actually different approaches for probing into the essence of the same problem—the spatio\|temporal evolution of open, far\|from\|equilibrium, interacting, large, dissipative dynamical systems in nature. The author further summarized the interrelationships among the four areas...

The author analyzed systematically the present status of the four research areas of self\|organized criticality, transient chaos, the edge of chaos and weak chaos in the science of complexity and concluded that, the four research areas are actually different approaches for probing into the essence of the same problem—the spatio\|temporal evolution of open, far\|from\|equilibrium, interacting, large, dissipative dynamical systems in nature. The author further summarized the interrelationships among the four areas into an important proposition: the spatio\|temporal evolution of open, far\|from\|equilibrium, interacting, large, dissipative dynamical systems in nature complies to the \!dynamics of self\|organized critical processes\", and \!the systems grow fractally at the edge of chaos".Geosystems are both very important and complex open, far\|from\|equilibrium, interacting, large, dissipative dynamical systems in nature. they possess the innate, essential attribute of self\|organized criticality. Their spatio\|temporal behaviors obey the dynamics of self\|organized critical processes of geological processes. Geosystems are situated in the transitional spatio\|temporal domains between order and chaos, i.e., at the edge of chaos. They are in the weakly chaotic dynamic states, in which regular and chaotic motions coexist and mix up. And geosystems grow fractally at the edge of chaos.The author deduced and integrated these aspects into a theory of complexity in geosciences named \!Dynamics of self\|organized critical processes of geological processes—fractal growth of geosystems at the edge of chaos\", which is widely applicable to variable geosystems. The contents of this theory are divided into six parts, they are: (1) Self\|organized criticality, transient chaos, the edge of chaos and weak chaos; (2) The coupling and interactions as well as the coherence and cooperation of multicomponents;(3) The fractal dynamics of evolutionary processes;(4) The spatio\|temporal structures of processes;(5) The dynamics of fractal growth;(6) The theory of finite\|size scaling.

笔者对复杂性科学中的自组织临界性、瞬态混沌、混沌边缘和弱混沌四大理论和研究领域就其发展现状和最近动态作系统和深入的剖析后得出结论 ,认为以上四者是对自然界中开放、远离平衡、相互作用的巨大耗散动力学系统的时空演化这个统一事物的本质的面面观。笔者进一步将四者的相互关系归纳成一个重要的命题 :自然界中开放、远离平衡、相互作用的巨大耗散动力学系统的时空演化服从“自组织临界过程动力学” ,并且系统“在混沌边缘分形生长”。地质系统是自然界中的一种既十分重要 ,又异常复杂的开放、远离平衡、相互作用的巨大耗散动力学系统。它具有自组织临界性的内禀基本属性。它的时空行为服从地质作用的自组织临界过程动力学。地质系统位于有序和混沌之间的过渡时空域 ,即混沌边缘 ,其中系统呈规则与混沌运动并存和混合的弱混沌动力学状态 ,并且地质系统在混沌边缘分形生长。将上述命题演绎和整合成一种广泛适用于地质系统的地球科学的复杂性理论 ,名之为 :“地质作用的自组织临界过程动力学———地质系统在混沌边缘分形生长” ,并将其内容归纳成 6部分 :(1)自组织临界性、瞬态混沌、混沌边缘和弱混沌 ,(2 )多组分的耦合与相互作用及其相干与协同 ,(3)演化过...

笔者对复杂性科学中的自组织临界性、瞬态混沌、混沌边缘和弱混沌四大理论和研究领域就其发展现状和最近动态作系统和深入的剖析后得出结论 ,认为以上四者是对自然界中开放、远离平衡、相互作用的巨大耗散动力学系统的时空演化这个统一事物的本质的面面观。笔者进一步将四者的相互关系归纳成一个重要的命题 :自然界中开放、远离平衡、相互作用的巨大耗散动力学系统的时空演化服从“自组织临界过程动力学” ,并且系统“在混沌边缘分形生长”。地质系统是自然界中的一种既十分重要 ,又异常复杂的开放、远离平衡、相互作用的巨大耗散动力学系统。它具有自组织临界性的内禀基本属性。它的时空行为服从地质作用的自组织临界过程动力学。地质系统位于有序和混沌之间的过渡时空域 ,即混沌边缘 ,其中系统呈规则与混沌运动并存和混合的弱混沌动力学状态 ,并且地质系统在混沌边缘分形生长。将上述命题演绎和整合成一种广泛适用于地质系统的地球科学的复杂性理论 ,名之为 :“地质作用的自组织临界过程动力学———地质系统在混沌边缘分形生长” ,并将其内容归纳成 6部分 :(1)自组织临界性、瞬态混沌、混沌边缘和弱混沌 ,(2 )多组分的耦合与相互作用及其相干与协同 ,(3)演化过程的分形动力学 ,(4 )作用的时空结构 ,(

The method of regulating spleen and stomach always attaches great importance to tonifying spleen while neglects the significance of activating spleen. From focusing on tonifying spleen to emphasizing activating spleen, it illustrates that TCM needs renewing constantly as the society progresses and the clinical practice requires. The advantage of treating splenico gastric diseases by TCM is mainly manifested by regulation of the overall functions. Therefore, formulating a prescription and administering drugs...

The method of regulating spleen and stomach always attaches great importance to tonifying spleen while neglects the significance of activating spleen. From focusing on tonifying spleen to emphasizing activating spleen, it illustrates that TCM needs renewing constantly as the society progresses and the clinical practice requires. The advantage of treating splenico gastric diseases by TCM is mainly manifested by regulation of the overall functions. Therefore, formulating a prescription and administering drugs have to be conducted under the guidance of the principle of treatment with syndrome differentiation. Based on the unique characteristics of TCM's theory and practice, the academic development of TCM, in combination with the complicated research thoughts and methods of modern biotics, will open up a prosperous future.

调理脾胃法 ,历来重视补脾 ,对运脾重视不够 ,从重视补脾到强调运脾 ,说明中医药的理论要随着时代的发展、临床的需要不断更新。中医药治疗脾胃病的优势主要体现在整体机能的调节 ,所以组方用药必须在辨证论治原则的指导下进行。从中医药理论和实践体系自身的特点出发 ,引入现代生命科学复杂性的研究思路与方法 ,将为中医药学术发展开拓广阔的前景。

Earth information science and technology is the product of combination of earth science with mathematms,informatics,and computer technology, and its development trace and trend can be generalized as following:isolated→systematic→networking,description→linearity→nonlinear→complexity,qualitative→quantitative→artificial intelligence→intemet. Study of artificial intelligence,nonlinear science, complexity science,and digital earth are forefronts of earth information science and technology in the 21st century.

地学信息科技是地学与数学、信息科学、计算机技术互相结合的产物 ,其发展轨迹和趋势可概括为 :孤立→系统→网络 ,描述性→线性→非线性→复杂性 ,概念化→数字化→智能化→网络化。智能化研究、非线性科学、复杂性科学、数字地球等是地学科技的几个前沿性领域

 
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