Effect of seismic retrofit of bridges on transportation networks

被引:0
|
作者
Masanobu Shinozuka
Yuko Murachi
Xuejiang Dong
Youwei Zhou
Michal J. Orlikowski
机构
[1] University of California,Department of Civil and Environmental Engineering
[2] Princeton University,Department of Civil and Environmental Engineering
来源
Earthquake Engineering and Engineering Vibration | 2003年 / 2卷 / 2期
关键词
fragility curves; seismic retrofit; probabilistic model; bridges; transportation networks; drivers delay; performance index; Northridge earthquake;
D O I
10.1007/s11803-003-0001-0
中图分类号
学科分类号
摘要
The objective of this research is to determine the effect earthquakes have on the performance of transportation network systems. To do this, bridge fragility curves, expressed as a function of peak ground acceleration (PGA) and peak ground velocity (PGV), were developed. Network damage was evaluated under the 1994 Northridge earthquake and scenario earthquakes. A probabilistic model was developed to determine the effect of repair of bridge damage on the improvement of the network performance as days passed after the event. As an example, the system performance degradation measured in terms of an index, “Drivers Delay,” is calculated for the Los Angeles area transportation system, and losses due to Drivers Delay with and without retrofit were estimated.
引用
收藏
页码:169 / 179
页数:10
相关论文
共 50 条
  • [1] Effect of seismic retrofit of bridges on transportation networks
    Masanobu Shinozuka
    Yuko Murachi
    Michal J.Orlikowski
    EarthquakeEngineeringandEngineeringVibration, 2003, 2 (02) : 169 - 179
  • [2] Socio-economic effect of seismic retrofit of bridges for highway transportation networks: a pilot study
    Zhou, Youwei
    Banerjee, Swagata
    Shinozuka, Masanobu
    STRUCTURE AND INFRASTRUCTURE ENGINEERING, 2010, 6 (1-2) : 145 - 157
  • [3] Seismic resilience of bridges in transportation networks
    Domaneschi, M.
    Scutiero, G.
    Cimellaro, G. P.
    Khalil, A. A.
    Pellecchia, C.
    Ricciardi, E. M.
    MAINTENANCE, SAFETY, RISK, MANAGEMENT AND LIFE-CYCLE PERFORMANCE OF BRIDGES, 2018, : 1920 - 1927
  • [4] Seismic resilience of aging bridges and transportation networks
    Capacci, L.
    Biondini, F.
    Titi, A.
    MAINTENANCE, MONITORING, SAFETY, RISK AND RESILIENCE OF BRIDGES AND BRIDGE NETWORKS, 2016, : 336 - 336
  • [5] Seismic retrofit of steel bridges
    Malik, Ayaz H.
    Modern Steel Construction, 1997, 37 (03):
  • [6] Seismic design and retrofit of bridges
    Kawashima, Kazuhiko
    Bulletin of the New Zealand National Society for Earthquake Engineering, 2000, 33 (03): : 265 - 285
  • [7] Seismic retrofit of steel bridges
    New York State Dep of Transportation
    Mod Steel Constr, 3 (5pp):
  • [8] Use of corridors to select bridges to retrofit in road networks in seismic regions
    Silva-Lopez, Rodrigo
    Baker, Jack W.
    SUSTAINABLE AND RESILIENT INFRASTRUCTURE, 2022, 7 (06) : 901 - 917
  • [9] Effect of FRP retrofit interventions on seismic vulnerability of existing bridges
    Morbin, R.
    Casadei, E.
    Pellegrino, C.
    Modena, C.
    BRIDGE MAINTENANCE, SAFETY, MANAGEMENT, RESILIENCE AND SUSTAINABILITY, 2012, : 1228 - 1234
  • [10] Seismic retrofit of reinforced concrete bridges
    Spyrakos, CC
    Vlassis, AG
    EARTHQUAKE RESISTANT ENGINEERING STRUCTURES IV, 2003, 13 : 79 - 88
12345