摘要
"数学的关系性特征之源"的角色为系统科学关系性特征的研究提供特有支撑;计算机是处理系统科学之"有组织复杂性"问题的必备工具,承担着系统科学实验室的功能;量子力学不连续性、靴绊假设以及主体介入观测所展示的整体联系观彻底推翻了经典科学的物理实在观;被看作"复杂性科学第一种形式"的热力学,其不可逆性或时间之矢的引入宣告经典科学的结束和系统科学的开始;信息学提供了物质、能量之外新的研究视角,发挥催化剂功能。
The role of "the origin of relational characteristic for mathematic" provides research on re- lational characteristic of system science with peculiar support;computer is essential in dealing with issue on "organized complexity" of system science ,and it acts as the laboratory for system science ;the internal connection of the discontinuity, the Bootstrap Hypothesis and the involvement of subject observation of Quantum Mechanics has thoroughly overturned the physical reality views of classic physics;thermodynam- ics, regarded as "the first form of complexity science", whose irreversibility or the introduced idea that "arrow of time" cannot curve back on itself has declared the ending of classic science and the beginning of system seience;Informatics has provided for new research angle besides matter and energy, and acts as catalyzer.
出处
《系统科学学报》
CSSCI
2012年第3期28-33,共6页
Chinese Journal of Systems Science
基金
中央直属高校自主创新项目(11CX04012B)
关键词
系统科学的形成
数学
计算机
量子力学
热力学
信息学
System science formation
Mathematics
Computer
Quantum mechanics
Thermodynam- ics
Informatics
