Cellular Automata simulation technology provides us a new approach to investigate evolution on business - strategy choice.
元胞自动机模拟技术为探索企业战略选择的演化问题开创了新途径。
Cellular Automata (ca) has strong spatial modeling capabilities, which can simulate the evolution of complex geographical phenomena.
元胞自动机(CA)具有强大的空间模拟能力,能够模拟和预测复杂的地理现象演变过程。
Protein dispensability has great relevance for our understanding of evolution, cellular molecular physiology and disease.
基因重要性对于我们理解物种进化、细胞生理以及疾病发生有很大帮助。
Under this critical condition, the cellular pattern, the velocity and maximum pressure along the wall and the wave evolution of marginal detonation were obtained.
在此临界条件下,获得了临界爆轰胞格结构、沿壁面的速度和峰值压力曲线及流场波系演变特征。
We can use Cellular Automata modeling diffusion of two different matters and establish sample of evolution law of diffusions...
用元胞自动机模拟两种物质的扩散过程,建立扩散系统的演化规则样本。
This paper presents a kind of new mathematical model-cellular automata to simulate the process of population evolution and get some meaningful rellular.
本文利用一种新的数学模型-格点自动机来摸拟种群的演化过程,得到了一些有意义的结果。
The cellular automata(CA) model with dynamic recrystallization(DRX) is proposed and used to investigate the flow behavior and microstructure evolution during hot compression of AZ91 alloy.
采用基于动态再结晶的元胞自动机模型模拟分析AZ91镁合金热压缩过程中的流变行为及组织演变。
The dendrite evolution and micro-segregation based on mechanism of solute diffusion controlling interfacial growth is simulated by cellular automaton.
利用传统的元胞自动机方法摸拟了基于溶质扩散控制界面生长机制的枝晶演变和显微偏析。
Biomass exhibits complex hierarchical cellular structures due to the long-term evolution and development.
经过长期进化,生物质已经形成了复杂的分级胞状结构。
Knowledge of cellular microbiology will provide a deeper understanding of the evolution of pathogenicity and host-parasite relationships.
掌握细胞微生物学知识有助于更深入地理解微生物病原体的致病过程,以及宿主和病原体的相互关系。
Knowledge of cellular microbiology will provide a deeper understanding of the evolution of pathogenicity and host-parasite relationships.
掌握细胞微生物学知识有助于更深入地理解微生物病原体的致病过程,以及宿主和病原体的相互关系。
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