Please wait a minute...
Shopping Cart Email List Chinese
Advanced Search Fig/Tab
Frontiers of Engineering Management

ISSN 2095-7513

ISSN 2096-0255(Online)

CN 10-1205/N

Postal Subscription Code 80-905

Featured Articles  |  Most Downloaded  |  Most Reading
Online Submission Subscribe to Our RSS Content Feed
Front. Eng    2015, Vol. 2 Issue (3) : 261-265    https://doi.org/10.15302/J-FEM-2015035
Engineering Management Theories and Methodologies
The Mode of Urban Renewal Base on the Smart City Theory under the Background of New Urbanization
Yi-hua Mao(),Hong-yu Li,Qin-rui Xu
College of Civil Engineering and Architecture, Zhejiang University, Hangzhou 310058, China
 Download: PDF(287 KB)   HTML
 Export: BibTeX | EndNote | Reference Manager | ProCite | RefWorks
Abstract

The Smart City, coordinated development of economy, ecology and society, is the future of cities. Urban renewal is an important way to build the Smart City. Based on the Smart City theory, the authors propose the “12345” model of urban renewal, which means developing a tailored proposal of the city and citizen, and building “one city management system, two supporting safeguard measures, three information infrastructure platforms, four urban management modes, and five application service systems.” The city will gain the ability of self-adjustment and self-improvement. Smart urban renewal model not only solves the problems of the city at this stage, but also promotes the all-round development of the city, and access to sustainable development.
Keywords urban renewal      smart city      self-adjustment      self-improvement      mode     
Corresponding Author(s): Yi-hua Mao   
Online First Date: 25 January 2016    Issue Date: 21 March 2016
 Cite this article:   
Yi-hua Mao,Hong-yu Li,Qin-rui Xu. The Mode of Urban Renewal Base on the Smart City Theory under the Background of New Urbanization[J]. Front. Eng, 2015, 2(3): 261-265.
 URL:  
https://academic.hep.com.cn/fem/EN/10.15302/J-FEM-2015035
https://academic.hep.com.cn/fem/EN/Y2015/V2/I3/261
Fig.1  The theoretical model of the Smart City.
Fig.2  The “12345” mode for city renewal and reconstruction.
1 Abdoullae, A. (2011). A smart world: A development model for intelligent cities. Paper presented at the 11th International Conference on Computer and Information Technology (CIT-2011) and the 11th IEEE International Conference on Scalable Computing and Communications (ScalCom-2011)
2 Beijing Social Office. (2013). Beijing guidelines of smart community (trial). Beijing: Beijing Social Office
3 Deakin, M., & Al Waer, H. (2011). From intelligent to smart cities. Intelligent Buildings International, 3, 140–152
https://doi.org/10.1080/17508975.2011.586671
4 Hollands, R.G. (2008). Will the real smart city please stand up? City, 12, 303–320
https://doi.org/10.1080/13604810802479126
5 Wright, S., & Steventon, A. (2004). Intelligent spaces—the vision, the opportunities and the barriers. BT Technology Journal, 22, 15–26
https://doi.org/10.1023/B:BTTJ.0000047116.13540.e0
6 Wu, X., & Yang, Z. (2010). The concept of the Smart City and future city development. Urban Studies (Edinburgh, Scotland), 11, 56–60
7 Xu Q., Wu, Z., & Chen, L. (2012). The vision, architecture and research models of smart city. Journal of Industrial Engineering/ Engineering Management, 26(4): 1–7
[1] Xinzheng LU, Qingle CHENG, Zhen XU, Chen XIONG. Regional seismic-damage prediction of buildings under mainshock–aftershock sequence[J]. Front. Eng, 2021, 8(1): 122-134.
[2] Zhe SUN, Cheng ZHANG, Pingbo TANG. Modeling and simulating the impact of forgetting and communication errors on delays in civil infrastructure shutdowns[J]. Front. Eng, 2021, 8(1): 109-121.
[3] Mingyue LI, Zhuoling MA, Xi TANG. Owner-dominated building information modeling and lean construction in a megaproject[J]. Front. Eng, 2021, 8(1): 60-71.
[4] Qiang ZHANG, Baoyu LIAO, Shanlin YANG. Application of blockchain in the field of intelligent manufacturing: Theoretical basis, realistic plights, and development suggestions[J]. Front. Eng, 2020, 7(4): 578-591.
[5] Gjorgji SHEMOV, Borja GARCIA de SOTO, Hoda ALKHZAIMI. Blockchain applied to the construction supply chain: A case study with threat model[J]. Front. Eng, 2020, 7(4): 564-577.
[6] Fikri KUCUKSAYACIGIL, Gündüz ULUSOY. Hybrid genetic algorithm for bi-objective resource-constrained project scheduling[J]. Front. Eng, 2020, 7(3): 426-446.
[7] Yongkui LI, Qing YANG, Beverly PASIAN, Yan ZHANG. Project management maturity in construction consulting services: Case of Expo in China[J]. Front. Eng, 2020, 7(3): 384-395.
[8] Fupei LI, Minglei YANG, Wenli DU, Xin DAI. Development and challenges of planning and scheduling for petroleum and petrochemical production[J]. Front. Eng, 2020, 7(3): 373-383.
[9] Katharina DENK, Ben DJERROUD, Luis SECO, Mohammad SHAKOURIFAR, Rudi ZAGST. Option-like properties in the distribution of hedge fund returns[J]. Front. Eng, 2020, 7(2): 275-286.
[10] Sameh Al-SHIHABI, Mohammad AlDURGAM. Multi-objective optimization for the multi-mode finance-based project scheduling problem[J]. Front. Eng, 2020, 7(2): 223-237.
[11] Mahdi JEMMALI, Bassem SALHI. Corporate governance impact on banking risk[J]. Front. Eng, 2020, 7(2): 182-195.
[12] Žiga TURK, Andreja ISTENIČ STARČIČ. Toward deep impacts of BIM on education[J]. Front. Eng, 2020, 7(1): 81-88.
[13] Jishan HE. Xinjiang energy-based desert management project[J]. Front. Eng, 2019, 6(4): 587-591.
[14] Xiaohong CHEN. The development trend and practical innovation of smart cities under the integration of new technologies[J]. Front. Eng, 2019, 6(4): 485-502.
[15] Hans VOORDIJK. Building information modeling and its impact on users in the lifeworld: a mediation perspective[J]. Front. Eng, 2019, 6(2): 193-206.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed