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应用科学学报 >

2022 , Vol. 40 >Issue 1: 47 - 60

DOI: https://doi.org/10.3969/j.issn.0255-8297.2022.01.005

计算机应用专辑

街道视角的多智能体城市安全宜居度建模

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  • 1. 太原科技大学 计算机科学与技术学院, 山西 太原 030024;
    2. 中国科学院 地理科学与资源研究所, 北京 100101

收稿日期: 2020-08-25

  网络出版日期: 2022-01-28

基金资助

中国科学院战略性先导科技专项基金(No.XDA20010000);深圳市战略新兴产业发展专项资金(No.JSGG20170413173425899);山西省-中科院科技合作重大项目基金(No.20151101001);山西省研究生教育创新项目基金(No.2020SY439)资助

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Modeling of Multi-agent City Safety and Livability Based on Street Perspective

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  • 1. School of Computer Science and Technology, Taiyuan University of Science and Technology, Taiyuan 030024, Shanxi, China;
    2. Institute of Geographical Sciences and Resources, Chinese Academy of Sciences, Beijing 100101, China

Received date: 2020-08-25

  Online published: 2022-01-28

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摘要

为解决环境及人类活动因素影响下的城市安全宜居问题,以深圳市福田区10个街道的实际数据为基础,结合Repast仿真平台和地理信息系统(geographic information system,GIS)建立基于多智能体的城市安全宜居度仿真模型;从街道视角模拟福田区未来20 a (年)城市安全发展的演变过程,用情景实例论证分析了福田区各个街道的城市安全宜居度、居民满意度和家庭搬迁行为的动态交互反馈机理。实验结果证实了多智能体模型在仿真模拟多因素影响下城市发展的有效性。

关键词: 城市宜居评价; 安全宜居度; 居民满意度; 多智能体建模; 街道视角

本文引用格式

潘理虎, 杨芬玉, 芦飞平, 秦世鹏 . 街道视角的多智能体城市安全宜居度建模[J]. 应用科学学报, 2022 , 40(1) : 47 -60 . DOI: 10.3969/j.issn.0255-8297.2022.01.005

Abstract

In order to solve the problem of urban safety livability under the influence of environmental and human activities, this paper builds a multi-agent model of city safety livability based on the data of ten streets in Futian District, Shenzhen. The model is realized by integrating geographic information system (GIS) with Repast simulation platform. With the model, we have simulated the evolution of urban safety development in Futian District in the next 20 years from the perspective of streets, and analyzed the dynamic interactive feedback mechanism of safety livability, resident satisfaction, and family relocation behavior of each street in Futian District. The simulation experiment proves that the multi-agent model is effective for predicting urban development under the influence of multiple factors.

Key words: evaluation of city livability; safe livability; resident satisfaction; multi-agent modeling; street perspective

参考文献

[1] 喻菁, 焦利民, 董婷. 结合宏观和微观视角的城市扩张方向异质性分析[J]. 地理与地理信息科学, 2019, 35(2):90-96. Yu J, Jiao L M, Dong T. Macrocosmic and microcosmic views to the analysis on the directional heterogeneity progress[J]. Geography and Geo-information Science, 2019, 35(2):90-96. (in Chinese)
[2] 中共中央国务院关于进一步加强城市规划建设管理工作的若干意见[EB/OL]. (2016-02-06)[2016-02-21]. http://www.gov.cn/zhengce/2016-02/21/content_5044367.htm.
[3] 冯兴华, 钟业喜, 吴巍, 等. 新型城镇化背景下江西省城市人口增长与土地扩张协调性研究[J]. 地理与地理信息科学, 2016, 32(3):81-88. Feng X H, Zhong Y X, Wu W, et al. Coordination between urban land expansion and population growth under the background of the new urbanization in Jiangxi Province[J]. Geography and Geo-information Science, 2016, 32(3):81-88. (in Chinese)
[4] Roscia M, Longo M, Lazaroiu G C. Smart city by multi-agent systems[C]//2013 International Conference on Renewable Energy Research and Applications (ICRERA), Madrid, 2013:371-376.
[5] 王晓鸣, 何晨琛, 李小康. 绿色住宅市场发展的多主体交互优化[J]. 土木工程与管理学报, 2018, 35(2):1-8. Wang X M, He C C, Li X K. Interaction optimization among multi-agent of green dwelling market[J]. Journal of Civil Engineering and Management, 2018, 35(2):1-8. (in Chinese)
[6] 张文忠. 宜居城市建设的核心框架[J]. 地理研究, 2016, 35(2):205-213. Zhang W Z. The core framework of the livable city construction[J]. Geographical Research, 2016, 35(2):205-213. (in Chinese)
[7] 丁志坤, 王翌飞, 吴金闯. 复杂适应系统视角下的城市建筑废弃物管理仿真研究[J]. 工程管理学报, 2015(6):48-53. Ding Z K, Wang Y F, Wu J C. Complexity based simulation research on the urban construction waste management[J]. Journal of Engineering Management, 2015(6):48-53. (in Chinese)
[8] 黄河清, 潘理虎, 王强, 等. 基于农户行为的土地利用人工社会模型的构造与应用[J]. 自然资源学报, 2010(3):3-17. Huang H Q, Pan L H, Wang Q, et al. An artificial society model of land use change in terms of households behaviors:model development and application[J]. Journal of Nature Resources, 2010(3):3-17. (in Chinese)
[9] 王宏宇, 樊文萃. 基于SD法的城市交通宜居性评价应用探讨[J]. 建筑与文化, 2017(12):176-178. Wang H Y, Fan W C. An application study on liability evaluation of urban transportation based on SD method[J]. Architecture & Culture, 2017(12):176-178. (in Chinese)
[10] 赵展阳. 基于网格化管理建立城市安全管理体系[J]. 中国科技纵横, 2014(9):270. Zhao Z Y. Urban safety management system based on grid management[J]. China Science and Technology, 2014(9):270. (in Chinese)
[11] 李燕萍, 虞虎, 王昊, 等. 面向大数据时代的城市规划研究响应与应对方略[J]. 城市发展研究, 2017(10):7-16. Li Y P, Yu H, Wang H, et al. The response and countermeasures of urban planning research in the era of big data[J]. Urban and Rural Planning, 2017(10):7-16. (in Chinese)
[12] Miyasaka T, Le Q B, Okuro T, et al. Agent-based modeling of complex social-ecological feedback loops to assess multi-dimensional trade-offs in dryland ecosystem services[J]. Landscape Ecology, 2017, 28:1-21.
[13] Bai X H, Yan H M. Multi-agent modeling and simulation of farmland use change in a farmingpastoral zone:a case study of Qianjingou Town in Inner Mongolia, China[J]. Sustainability, 2015, 7(11):14802-14833.
[14] 张伟, 冯徽徽, 毛小岗, 等. 基于反馈机制的城市扩张模拟研究进展[J]. 地理与地理信息科学, 2012, 28(2):70-75. Zhang W, Feng H H, Mao X G, et al. Research progress on urban growth modelling based on the feedback mechanism[J]. Geography and Geo-information Science, 2012, 28(2):70-75. (in Chinese)
[15] Jin J W, Jia S D. Dynamic cooperative multi-agent model of complex system based-on sequential actions' logic[J]. Chinese Journal of Computers, 2013, 36(5):1115-1124.
[16] Gupta M, Liu J S. Residential satisfaction and the propensity to move:an analysis of potential movers from marginal settlements in Costa Rica[J]. Singapore Journal of Tropical Geography, 2010, 1(1):16-22.
[17] He C, Chen T, Mao X, et al. Economic transition, urbanization and population redistribution in China[J]. Habitat International, 2016, 51:39-47.
[18] Vuoriluoto K, Haugen H, Kiviluoto S, et al. Vimentin regulates EMT induction by slug and oncogenic H-Ras and migration by governing axl expression in breast cancer[J]. Oncogene, 2011, 30(1):1436-48.
[19] Castles S. The factors that make and unmake migration policies[J]. International Migration Review, 2004, 38(3):852-884.
[20] 李景文, 傅玮佳, 叶良松, 等. 基于对象的GIS时空数据模型设计方法[J]. 地理与地理信息科学, 2010, 26(6):11-14. Li J W, Fu W J, Ye L S, et al. Design method of GIS spatio-temporal data model based on object[J]. Geography and Geo-information Science, 2010, 26(6):11-14. (in Chinese)
[21] 潘理虎, 黄河清. 农业土地利用变化的人工社会模型研究[J]. 系统仿真学报, 2010(8):169-173. Pan L H, Huang H Q. Application of artificial society model to study of land use change[J]. Journal of System Simulation, 2010(8):169-173. (in Chinese)
[22] 潘理虎, 李晓文, 秦世鹏, 等. 城市安全宜居度变化多智能体仿真模型[J]. 系统仿真学报, 2019(7):1321-1333. Pan L H, Li X W, Qin S P, et al. A multi-agent simulation model of the change of urban safety livability[J]. Journal of System Simulation, 2019(7):1321-1333. (in Chinese)
[23] Farid A M. Multi-agent system design principles for resilient coordination & control of future power systems[J]. Intelligent Industrial Systems, 2015, 1(3):255-269.
[24] 张广骏, 李耀东, 戴汝为, 等. 应用Repast Simphony的复杂系统建模仿真[J]. 计算机仿真, 2010, 27(12):349-353. Zhang G J, Li Y D, Dai R W, et al. Modeling and simulation for complex systems using Repast Simphony[J]. Computer Simulation, 2010, 27(12):349-353. (in Chinese)
[25] Zheng X, Li F, Song S, et al. Central government's infrastructure investment across Chinese regions:a dynamic spatial panel data approach[J]. China Economic Review, 2013, 27:264-276.
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