论文部分内容阅读
当数理学、热力学、化学、生物学等自然科学从线性定常系统的研究发展到非线性复杂系统的研究,特别是诺贝尔奖金获得者比利时科学家伊·普里戈金的耗散结构理论、英国科学家史蒂芬·霍金的量子引力理论,以及其它非平衡系统自组织理论、宇宙存在理论的新进展,非线性科学以其非确定性、随机性、偶然性、无序性,不可重复性、不可逆性的科学原理,定义、定理、公式、方程、精确的实验数据对线性机械论进行了一场剧烈的、转折性的革命。20世纪80年代诞生了非线性复杂科学.具体指耗散结构理论、
When the natural sciences such as mathematics, thermodynamics, chemistry, biology and so on have gone from the research and development of the system of linear steady-state to the research of nonlinear complex systems, especially the dissipative structure theory of the Belgian scientist Yi Prickett, the winner of Nobel Prize, Scientist Stephen Hawking’s theory of quantum gravitation, as well as other self-organization theory of unbalanced systems and the new progress of the theory of the existence of the universe, non-linear science with its non-deterministic, random, contingency, disorder, non-repeatability, irreversible Scientific principles, definitions, theorems, formulas, equations, and accurate experimental data have given a dramatic and turning revolution to linear mechanistic theory. The 20th century, the 80’s was born nonlinear complex science, specifically refers to the dissipative structure theory,