摘要
作为复杂性研究和安全研究理论与方法的进一步扩展,建立复杂格空间,搭建了复杂性参量的立体化刻画的框架,确定熵的信息度量为复杂格空间的大小(维度)的测度的尺度,构造出复杂性测度的全方位的测度体系;将此理论与方法应用与工程系统的复杂性研究中,以煤矿工程系统的安全系统复杂性研究为例,从矿井开拓巷道系统联结关系、节点、环节、矿井安全子系统复合性、矿井安全监测系统网络、安全设施设置、监测系统、井下人员定位系统测定点分布等结构复杂性要素,进行复杂性评价与实证研究.
Further enlarging the complicity and safety theory and methodology study, this article, employing the check space and the cubic frame used to describe complexity parameters, determines the information entropy as the metric to measure the dimensions for the complexity check space, and constructs a all-round measure system for complexity measurement. Applying these theories and methods, according to structural complexity factors, such as the link relations, nodes, links of mining tunnels, and system compound, supervisory network, safety equipment, worker positioning system, and their measure points distribution, the paper assesses the complexity of safety systems and verifies the results with a case study.
出处
《管理科学学报》
CSSCI
北大核心
2012年第2期83-96,共14页
Journal of Management Sciences in China
基金
国家自然科学基金资助项目(70771060)
山东省自然科学基金资助项目(Y2006H10)
教育部人文社会科学研究资助项目(11YJA630101)
关键词
复杂格空间
熵尺度
结构复杂性
矿井系统
矿井安全系统
complexity check space
entropy metric
structure complexity
mining system
mining safety system
作者简介
宋华岭(1957-),男,吉林桦甸人,博士,教授,博士生导师.Email:songhl@sdibt.edu.cn
