在上篇文章中,作者用系统动态方法分析了大型露天矿的经营方针。对这种方法可简单地下个定义:使管理工程师的才智对管理系统政策的制定问题产生影响。当然,采矿工程师,已经清楚地意识到,对采矿方法、矿石装卸、通风和选矿的物理要素,在设计时须全盘考虑。并且,他们对此比较善长。系统动态方法和技术,扩展了上述原理,包括对工程系统的管理制定正式的政策。在上文中已经阐明:可以建立一个模型,并将其用于制定管理政策,在企业的不断变化的财政和地质环境做出连续反映的过程中,用它可提高其生产与财政效益。建议采用建造模型的方法制订现行矿山政策,作为对其它方法的补充,作为新采矿企业设计和风险分析的一个辅助方法。本文将这种分析方法,扩大使用到某些地下矿山。 In the last article, the author analyzed the operating principle of large-scale open-pit mine by systematic and dynamic method. The simple definition for this approach is to make the management engineer’s mindset impact management policy formulation. Of course, mining engineers have clearly realized that the physical aspects of mining methods, ore handling, ventilation and beneficiation must be fully considered in design. And they are good at it. Systems dynamic methods and techniques that extend these principles include formal policies for the management of engineering systems. It has been stated above that a model can be established and used to develop management policies that can be used to enhance their production and financial performance in the context of a continuous reflection of the changing financial and geologic environment of an enterprise. It is advisable to adopt a model-building approach to develop the current mine policy as a complement to other approaches as an adjunct to the design and risk analysis of new mining enterprises. This article extends this method of analysis to some underground mines.