Multi-scale and adaptive-mitigation design methods for climate resilient cities

被引:9
|
作者
Leone, Mattia Federico [1 ]
Raven, Jeffrey [2 ]
机构
[1] Univ Federico II Napoli, PLINIVS LUPT Study Ctr, Dipartimento Architettura, Naples, Italy
[2] Inst Technol, LEED BD C, FAIA, New York, NY USA
来源
TECHNE-JOURNAL OF TECHNOLOGY FOR ARCHITECTURE AND ENVIRONMENT | 2018年 / 15卷
关键词
climate change; adaptive mitigation; urban regeneration; retrofitting;
D O I
10.13128/Techne-22076
中图分类号
TU [建筑科学];
学科分类号
0813 ;
摘要
Effectively addressing the issue of climate resilience in urban areas requires the development of innovative design methods that can handle the complexity of the information needed to guide sustainable urban regeneration and retrofitting strategies, as well as to manage the technological and environmental solutions in a multi-scale perspective. The paper presents the methodology developed by the ARC3-2 Urban Planning and Design working group of the Urban Climate Change Research Network (UCCRN) and the results of the experimental activities conducted within Studios and Workshops promoted in New York, Paris and Naples by the New York Institute of Technology, the Polytechnic of Milan and the University of Naples Federico II.
引用
收藏
页码:299 / 310
页数:12
相关论文
共 50 条
  • [1] Vulnerable or Resilient? A Multi-Scale Assessment of Climate Impacts and Vulnerability in Norway
    Karen O'Brien
    Linda Sygna
    Jan Erik Haugen
    [J]. Climatic Change, 2004, 64 : 193 - 225
  • [2] Vulnerable or resilient? A multi-scale assessment of climate impacts and vulnerability in Norway
    O'Brien, K
    Sygna, L
    Haugen, JE
    [J]. CLIMATIC CHANGE, 2004, 64 (1-2) : 193 - 225
  • [3] Multi-scale methods
    Liu, WK
    Hao, S
    Belytschko, T
    Li, SF
    Chang, CT
    [J]. INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING, 2000, 47 (07) : 1343 - 1361
  • [4] Asymptotic adaptive methods for multi-scale problems in fluid mechanics
    R. Klein
    N. Botta
    T. Schneider
    C.D. Munz
    S. Roller
    A. Meister
    L. Hoffmann
    T. Sonar
    [J]. Journal of Engineering Mathematics, 2001, 39 : 261 - 343
  • [5] Asymptotic adaptive methods for multi-scale problems in fluid mechanics
    Klein, R
    Botta, N
    Schneider, T
    Munz, CD
    Roller, S
    Meister, A
    Hoffmann, L
    Sonar, T
    [J]. JOURNAL OF ENGINEERING MATHEMATICS, 2001, 39 (1-4) : 261 - 343
  • [6] Building Resilient Cities: A Simulation-Based Scenario Assessment Methodology for the Integration of DRR and CCA in a Multi-Scale Design Perspective
    Zuccaro, Giulio
    Leone, Mattia Federico
    [J]. 7TH INTERNATIONAL CONFERENCE ON BUILDING RESILIENCE: USING SCIENTIFIC KNOWLEDGE TO INFORM POLICY AND PRACTICE IN DISASTER RISK REDUCTION, 2018, 212 : 871 - 878
  • [7] Design of adaptive overlays for multi-scale communication in sensor networks
    PalChaudhuri, S
    Kumar, R
    Baraniuk, RG
    Johnson, DB
    [J]. DISTRIBUTED COMPUTING IN SENSOR SYSTEMS, PROCEEDINGS, 2005, 3560 : 173 - 190
  • [8] A review of topology optimization design methods for multi-scale structures
    Chen X.
    Zhao Y.
    Huo S.
    Zhang Z.
    Du B.
    [J]. Hangkong Xuebao/Acta Aeronautica et Astronautica Sinica, 2023, 44 (15):
  • [9] Digital Prototyping and Regenerative Design Toward Carbon-Neutrality and a Climate Resilient Built Environment: A Multi-Scale Assessment of Environmental Multi-Risks
    Lucanto, Domenico
    Nava, Consuelo
    Mangano, Giuseppe
    [J]. Buildings, 2024, 14 (12)
  • [10] Multi-scale Adaptive Dehazing Network
    Chen, Shuxin
    Chen, Yizi
    Qu, Yanyun
    Huang, Jingying
    Hong, Ming
    [J]. 2019 IEEE/CVF CONFERENCE ON COMPUTER VISION AND PATTERN RECOGNITION WORKSHOPS (CVPRW 2019), 2019, : 2051 - 2059
12345