机构地区: 浙江大学建筑工程学院
出 处: 《浙江大学学报(工学版)》 2009年第2期380-386,共7页
摘 要: 为了系统地认识和评价山坡地存量资源、适宜地引导山坡地进行城镇建设开发,构架并应用了多维视角、学科集成的山坡地城镇建设用地评价模型.模型基于层次分析和系统集成的思想,综合了规划、建筑、工程等学科技术,统筹赋权城市巨系统的众多影响因子,并利用各项因子构造了加权评判函数.根据建立的加权评判函数能够系统地评价山坡地存量资源进行城镇建设的适宜性,并依据适宜性的程度,确定相关建设活动的技术指标与方法. A land resource evaluation model for upland urban construction was framed and used to systemically recognize and evaluate the upland's stock resource and properly guide the urban construction and development of upland. The multi-dimensional and scientific land resource evaluation model is based on the thoughts of analytic hierarchy process and system integration, and combines the planning science, architecture and engineering. The overall planning impact factors of the urban gigantic system were analyzed and used to construct a weighted evaluation function, based on which the adaptability of the upland stock resource for urban construction can be synthetically evaluated. According to the degree of adaptability, the technical index and methods of the related construction activities can be determined.
领 域: [建筑科学]