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Geomatics, Natural Hazards and Risk Volume 14, 2023 - Issue 1
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Research Article

Spatial and temporal evolution of post-disaster data for damage assessment of civil infrastructure systems

Jorge Mario LozanoSchool of Civil and Environmental Engineering, Georgia Institute of Technology, Atlanta, GA, USACorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0002-9219-3879View further author information
ORCID Icon,
Elliot NicholsSchool of Civil and Environmental Engineering, Georgia Institute of Technology, Atlanta, GA, USAView further author information
,
J. David FrostSchool of Civil and Environmental Engineering, Georgia Institute of Technology, Atlanta, GA, USAView further author information
&
Iris TienSchool of Civil and Environmental Engineering, Georgia Institute of Technology, Atlanta, GA, USAORCID Iconhttps://orcid.org/0000-0002-1410-632XView further author information
ORCID Icon
Article: 2250531 | Received 13 Jan 2023, Accepted 15 Jun 2023, Published online: 25 Aug 2023

References

  • Abruzzo J, Matta A, Panariello G. 2006. Study of mitigation strategies for progressive collapse of a reinforced concrete commercial building. J Perform Constr Facil. 20(4):384–390. doi: 10.1061/(ASCE)0887-3828(2006)20:4(384).
  • Adams SM, Levitan ML, Friedland CJ. 2013. High resolution imagery collection utilizing unmanned aerial vehicles (UAVs) for post-disaster studies. In: Advances in hurricane engineering: learning from our past; p. 777–793. doi: 10.1061/9780784412626.067
  • Akter S, Wamba SF. 2019. Big data and disaster management: a systematic review and agenda for future research. Ann Oper Res. 283(1–2):939–959. doi: 10.1007/s10479-017-2584-2.
  • ARA Inc. 2017. Hurricane Maria wind data. https://disasters.geoplatform.gov/publicdata/NationalDisasters/2017/HurricaneMaria/Data/Wind/ARA/.
  • Barrington L, Ghosh S, Greene M, Har-Noy S, Berger J, Gill S, Lin AY-M, Huyck C. 2011. Crowdsourcing earthquake damage assessment using remote sensing imagery. Ann Geophys. 54(6):680–687.
  • Bell J, Schultz LA, Molthan A, Kirschbaum D, Roman M, Yun S-H, Meyer FJ, Hogenson K, Gens R, Goodman H. 2018. NASA earth science disasters program response activities during Hurricanes Harvey, Irma, and Maria in 2017. American Meteorological Society Annual Meeting 2018: IN31F-04.
  • Berman JW, Wartman J, Olsen M, Irish JL, Miles SB, Tanner T, Gurley K, Lowes L, Bostrom A, Dafni J, et al. 2020. Natural hazards reconnaissance with the NHERI RAPID facility. Front Built Environ. 6:573067. doi: 10.3389/fbuil.2020.573067.
  • Bessette-Kirton EK, Coe JA, Kean JW, Godt JW, Rengers FK, Schulz W, Baum RL, Jones ES, Staley DM. 2017. Map data showing concentration of landslides caused by Hurricane Maria in Puerto Rico; [accessed 2021 Jun 8]. https://www.sciencebase.gov/catalog/item/59de6459e4b05fe04ccd39d8.
  • Boose ER, Serrano MI, Foster DR. 2004. Landscape and regional impacts of hurricanes in Puerto Rico. Ecol Monogr. 74(2):335–352. doi: 10.1890/02-4057.
  • Bray JD, Frost JD. 2010. Geo-engineering reconnaissance of the 2010 Maule, Chile Earthquake. http://www.geerassociation.org.
  • Bray JD, Frost JD, Rathje EM, Garcia FE. 2018. Turning disaster into knowledge in geotechnical earthquake engineering. In: Geotechnical Earthquake Engineering and Soil Dynamics V. Austin, TX: American Society of Civil Engineers; p. 186–200. [accessed 2021 Apr 12]. doi: 10.1061/9780784481462.018.
  • Bray JD, Frost JD, Rathje EM, Garcia FE. 2019. Recent advances in geotechnical post-earthquake reconnaissance. Front Built Environ. 5(5). doi: 10.3389/fbuil.2019.00005.
  • Campion P. 2020. Building a data-driven culture in emergency management. https://www.domesticpreparedness.com/preparedness/building-a-data-driven-culture-in-emergency-management/.
  • Cangialosi JP, Latto AS, Berg R. 2018. Hurricane Irma tropical cyclone report. National Hurricane Center (NHC) Report No.: AL112017. https://www.nhc.noaa.gov/data/tcr/AL112017_Irma.pdf.
  • Chen S-E, Liu W, Bian H, Smith B. 2012. 3D LiDAR scans for bridge damage evaluations. In: Forensic Engineering 2012. San Francisco, CA: American Society of Civil Engineers; p. 487–495. [accessed 2020 Sep 8]. doi: 10.1061/9780784412640.052.
  • Costa AC, Sousa ML, Carvalho A, Coelho E. 2010. Evaluation of seismic risk and mitigation strategies for the existing building stock: application of LNECloss to the metropolitan area of Lisbon. Bull Earthq Eng. 8(1):119–134. doi: 10.1007/s10518-009-9160-3.
  • Del Gaudio C, De Martino G, Di Ludovico M, Manfredi G, Prota A, Ricci P, Verderame GM. 2017. Empirical fragility curves from damage data on RC buildings after the 2009 L’Aquila earthquake. Bull Earthq Eng. 15(4):1425–1450. doi: 10.1007/s10518-016-0026-1.
  • Delaney A, Kitchin R. 2023. Progress and prospects for data-driven coordinated management and emergency response: the case of Ireland. Territ Polit Gov. 11(1):174–189. doi: 10.1080/21622671.2020.1805355.
  • Eguchi RT, Huyck CK, Ghosh S, Adams BJ, McMillan A. 2009. Utilizing new technologies in managing hazards and disasters. In: Showalter PS, Lu Y, editors. Geospatial techniques in urban hazard and disaster analysis. Dordrecht: Springer Netherlands; p. 295–323. [accessed 2023 Jan 6]. doi: 10.1007/978-90-481-2238-7_15.
  • FEMA. 2021. Preliminary damage assessment guide. FEMA. https://www.fema.gov/disaster/how-declared/preliminary-damage-assessments/guide.
  • Galvis FA, Miranda E, Heresi P, Dávalos H, Ruiz-García J. 2020. Overview of collapsed buildings in Mexico City after the 19 September 2017 (Mw 7.1) earthquake. Earthq Spectra. 36(2_suppl):83–109. doi: 10.1177/8755293020936694.
  • Gautam D. 2018. Observational fragility functions for residential stone masonry buildings in Nepal. Bull Earthq Eng. 16(10):4661–4673. doi: 10.1007/s10518-018-0372-2.
  • Gautam D, Fabbrocino G, Santucci de Magistris F. 2018. Derive empirical fragility functions for Nepali residential buildings. Eng Struct. 171:617–628. doi: 10.1016/j.engstruct.2018.06.018.
  • Ghannad P, Lee Y-C, Choi JO. 2021. Prioritizing post-disaster recovery of transportation infrastructure systems using multiagent reinforcement learning. J Manage Eng. 37(1):04020100. doi: 10.1061/(ASCE)ME.1943-5479.0000868.
  • González AD, Dueñas-Osorio L, Sánchez-Silva M, Medaglia AL. 2016. The interdependent network design problem for optimal infrastructure system restoration: the interdependent network design problem for infrastructure restoration. Comput-Aided Civ Infrastruct Eng. 31(5):334–350. doi: 10.1111/mice.12171.
  • Hall J, Muscarella R, Quebbeman A, Arellano G, Thompson J, Zimmerman JK, Uriarte M. 2020. Hurricane-induced rainfall is a stronger predictor of tropical forest damage in Puerto Rico than maximum wind speeds. Sci Rep. 10(1):4318. doi: 10.1038/s41598-020-61164-2.
  • Hao H, Wang Y. 2020. Leveraging multimodal social media data for rapid disaster damage assessment. Int J Disaster Risk Reduct. 51:101760. doi: 10.1016/j.ijdrr.2020.101760.
  • Hong Y, Adler R, Huffman G. 2006. Evaluation of the potential of NASA multi-satellite precipitation analysis in global landslide hazard assessment. Geophys Res Lett. 33(22):L22402. doi: 10.1029/2006GL028010.
  • Hosseini Nourzad SH, Pradhan A. 2016. Vulnerability of infrastructure systems: macroscopic analysis of critical disruptions on road networks. J Infrastruct Syst. 22(1):04015014. doi: 10.1061/(ASCE)IS.1943-555X.0000266.
  • Hughes KS, Schulz WH, Baum RL. 2019. Map of slope-failure locations in Puerto Rico after Hurricane Maria; [accessed 2021 Jun 8]. https://www.sciencebase.gov/catalog/item/5d4c8b26e4b01d82ce8dfeb0.
  • Kijewski-Correa T, Roueche DB, Mosalam KM, Prevatt DO, Robertson I. 2021. StEER: a community-centered approach to assessing the performance of the built environment after natural hazard events. Front Built Environ. 7:636197. doi: 10.3389/fbuil.2021.636197.
  • Kircher CA, Whitman RV, Holmes WT. 2006. HAZUS earthquake loss estimation methods. Nat Hazards Rev. 7(2):45–59. doi: 10.1061/(ASCE)1527-6988(2006)7:2(45).
  • Kwasinski A, Andrade F, Castro-Sitiriche MJ, O'Neill-Carrillo E. 2019. Hurricane Maria effects on Puerto Rico electric power infrastructure. IEEE Power Energy Technol Syst J. 6(1):85–94. doi: 10.1109/JPETS.2019.2900293.
  • Lee C, Tien I. 2018. Probabilistic framework for integrating multiple data sources to estimate disaster and failure events and increase situational awareness. ASCE-ASME J Risk Uncertainty Eng Syst Part A Civ Eng. 4(4):04018042. doi: 10.1061/AJRUA6.0000995.
  • Lemnitzer A. 2022. Geotechnical reconnaissance of the 2021 Western European floods; [accessed 2023 May 19]. http://www.geerassociation.org/administrator/components/com_geer_reports/geerfiles/Blank.pdf.
  • Liu J, Chen Y, Chen Y. 2021. Emergency and disaster management-crowd evacuation research. J Ind Inf Integr. 21:100191. doi: 10.1016/j.jii.2020.100191.
  • McCann WR. 1985. On the earthquake hazards of Puerto Rico and the Virgin Islands. Bull Seismol Soc Am. 75(1):251–262. doi: 10.1785/BSSA0750010251.
  • McEntire DA. 2007. Local emergency management organizations. In: Rodríguez H, Quarantelli EL, Dynes RR, editors. Handbook of disaster research. New York, NY: Springer New York; p. 168–182. doi: 10.1007/978-0-387-32353-4_10.
  • Meighan HE, Pulliam J, ten Brink U, López-Venegas AM. 2013. Seismic evidence for a slab tear at the Puerto Rico Trench: Puerto Rico trench slab tear. J Geophys Res Solid Earth. 118(6):2915–2923. doi: 10.1002/jgrb.50227.
  • Miranda E, Archbold J, Heresi P, Messina A, Rosa I, Robertson I, Mosalam K, Kijewski-Correa T, Prevatt D, Roueche D. 2020. StEER – Puerto Rico earthquake sequence December 2019 to January 2020: Field Assessment Structural Team (FAST) Early Access Reconnaissance Report (EARR); [accessed 2022 Nov 30]. https://www.designsafe-ci.org/data/browser/public/designsafe.storage.published/PRJ-2712.
  • Miura H, Aridome T, Matsuoka M. 2020. Deep learning-based identification of collapsed, non-collapsed and blue tarp-covered buildings from post-disaster aerial images. Rem Sens. 12(12):1924. doi: 10.3390/rs12121924.
  • Morales A, Hughes S, Lang K, Rivera-Hernandez F, Vargas P, Lozano JM, Karantanellis E, Kassem M, Gomberg D, Plescher R. 2022. Geotechnical impacts of Hurricane Fiona in Puerto Rico. GEER Association (Report-81); [accessed 2023 May 10]. https://geerassociation.org/components/com_geer_reports/geerfiles/GEER_HurricaneFiona_report.pdf.
  • Mueller C, Frankel A, Petersen M, Leyendecker E. 2010. New seismic hazard maps for Puerto Rico and the U.S. Virgin Islands. Earthq Spectra. 26(1):169–185. doi: 10.1193/1.3277667.
  • Mukhopadhyay B, Bhattacherjee B. 2015. Use of information technology in emergency and disaster management. Am J Environ Prot. 4(2):101–104. doi: 10.11648/j.ajep.20150402.15.
  • NOAA. 2017. Hurricane Maria advisory archive. https://www.nhc.noaa.gov/archive/2017/MARIA.shtml.
  • Nuti C, Vanzi I. 2003. To retrofit or not to retrofit? Eng Struct. 25(6):701–711. doi: 10.1016/S0141-0296(02)00190-6.
  • O’Rourke T, Toprak S. 1997. GIS assessment of water supply damage from the Northridge earthquake. In: Post-earthquake reconstruction strategies: NCEER-INCEDE center-to-center project; p. 109–122.
  • Pasch RJ, Penny AB, Berg R. 2019. Hurricane Maria tropical cyclone report. National Hurricane Center (NHC) Report No.: AL152017. https://www.nhc.noaa.gov/data/tcr/AL152017_Maria.pdf.
  • PRSN. 2022. Puerto Rico seismic network. https://redsismica.uprm.edu/english/our_work/instrumentation.php.
  • Rajapaksha RADV, Siriwardana CSA. 2023. A systematic review on different approaches used in the development of fragility curves for buildings. In: Dissanayake R, Mendis P, Weerasekera K, De Silva S, Fernando S, Konthesingha C, editors. 12th International Conference on Structural Engineering and Construction Management; Vol. 266 (Lecture Notes in Civil Engineering). Singapore: Springer Nature Singapore; p. 407–426. [accessed 2023 May 12]. doi: 10.1007/978-981-19-2886-4_29.
  • Rathje EM, Dawson C, Padgett JE, Pinelli J-P, Stanzione D, Adair A, Arduino P, Brandenberg SJ, Cockerill T, Dey C, et al. 2017. DesignSafe: new cyberinfrastructure for natural hazards engineering. Nat Hazards Rev. 18(3):06017001. doi: 10.1061/(ASCE)NH.1527-6996.0000246.
  • Resch B, Usländer F, Havas C. 2018. Combining machine-learning topic models and spatiotemporal analysis of social media data for disaster footprint and damage assessment. Cartogr Geogr Inf Sci. 45(4):362–376. doi: 10.1080/15230406.2017.1356242.
  • Roueche D. 2020. Virtual Assessment Structural Team (VAST) handbook: data enrichment and quality control (DE/QC) for StEER earthquake rapid evaluation form. National Science Foundation (NSF), Structural Extreme Events Reconnaissance (StEER). https://www.steer.network/challenge-page/cc17aae5-6fae-4a55-8ad9-0c55300071bf
  • Roueche D, Cleary J, Gurley K, Marshall J, Pinelli J-P, Prevatt D, Smith D, Alipour A, Angeles K, Davis B, et al. 2018. StEER – Hurricane Michael: Field Assessment Team 1 (FAT-1) Early Access Reconnaissance Report (EARR); [accessed 2021 May 10]. https://www.designsafe-ci.org/data/browser/public/designsafe.storage.published/PRJ-2111.
  • Rouhanizadeh B, Kermanshachi S, Dhamangaonkar VS. 2020. Reconstruction of critical and interdependent infrastructure due to catastrophic natural disasters: lessons learned. In: Construction Research Congress 2020. Tempe, AZ: American Society of Civil Engineers; p. 895–904. [accessed 2023 May 15]. doi: 10.1061/9780784482858.096.
  • Scaioni M, Longoni L, Melillo V, Papini M. 2014. Remote sensing for landslide investigations: an overview of recent achievements and perspectives. Rem Sens. 6(10):9600–9652. doi: 10.3390/rs6109600.
  • Scawthorn C, Blais N, Seligson H, Tate E, Mifflin E, Thomas W, Murphy J, Jones C. 2006. HAZUS-MH flood loss estimation methodology. I: overview and flood hazard characterization. Nat Hazards Rev. 7(2):60–71. doi: 10.1061/(ASCE)1527-6988(2006)7:2(60).
  • Shinozuka M, Feng MQ, Lee J, Naganuma T. 2000. Statistical analysis of fragility curves. J Eng Mech. 126(12):1224–1231. doi: 10.1061/(ASCE)0733-9399(2000)126:12(1224).
  • Silva-Tulla F. 2018. Geotechnical impacts of Hurricane Maria in Puerto Rico; [accessed 2022 Nov 30]. http://geerassociation.org/administrator/components/com_geer_reports/geerfiles/180629_GEER_PR_Report_No_GEER-057.pdf.
  • The European Commission, United Nations Development Group, World Bank. 2013. Post-disaster needs assessments volume A. https://www.gfdrr.org/en/publication/post-disaster-needs-assessments-guidelines-volume-2013.
  • Tien I, Musaev A, Benas D, Ghadi A, Goodman S, Pu C. 2016. Detection of damage and failure events of critical public infrastructure using social sensor big data. In: Proceedings of the International Conference on Internet of Things and Big Data. Rome: SCITEPRESS-Science and Technology Publications; p. 435–440. [accessed 2023 May 19]. doi: 10.5220/0005932104350440.
  • Urbina E, Wolshon B. 2003. National review of hurricane evacuation plans and policies: a comparison and contrast of state practices. Transp Res Part Policy Pract. 37(3):257–275. doi: 10.1016/S0965-8564(02)00015-0.
  • USGS. 2018. U.S. Landsat Analysis Ready Data. Reston, VA Fact Sheet Report No.: 2018–3053. http://pubs.er.usgs.gov/publication/fs20183053.
  • Vamvatsikos D, Kouris L, Panagopoulos G, Kappos A, Nigro E, Rossetto T, Lloyd T, Stathopoulos T. 2010. Structural vulnerability assessment under natural hazards: a review. p. 17–18.
  • Wald DJ, Worden BC, Quitoriano V, Pankow KL. 2005. ShakeMap manual: technical manual, user’s guide, and software guide. Version 1.0. Techniques and Methods Report No.: 12-A1. http://pubs.er.usgs.gov/publication/tm12A1.
  • Wilkinson MD, Dumontier M, Aalbersberg I, Appleton G, Axton M, Baak A, Blomberg N, Boiten J-W, da Silva Santos LB, Bourne PE, et al. 2016. The FAIR guiding principles for scientific data management and stewardship. Sci Data. 3(1):160018. doi: 10.1038/sdata.2016.18.
  • Willis HH, Narayanan A, Fischbach JR, Molina-Perez E, Stelzner C, Loa K, Kendrick L. 2016. Current and future exposure of infrastructure in the United States to natural hazards. Santa Monica (CA): Rand Corporation (Research Report).
  • Wu D, Cui Y. 2018. Disaster early warning and damage assessment analysis using social media data and geo-location information. Decis Support Syst. 111:48–59. doi: 10.1016/j.dss.2018.04.005.
  • Yeum CM, Dyke SJ, Benes B, Hacker T, Ramirez J, Lund A, Pujol S. 2019. Post-event reconnaissance image documentation using automated classification. J Perform Constr Facil. 33(1):04018103. doi: 10.1061/(ASCE)CF.1943-5509.0001253.
  • Yildirim E, Demir I. 2021. An integrated flood risk assessment and mitigation framework: a case study for Middle Cedar River Basin, Iowa, US. Int J Disaster Risk Reduct. 56:102113. doi: 10.1016/j.ijdrr.2021.102113.
  • Youd T, Bardet J-P, Bray J. 2000. Kocaeli, Turkey, earthquake of August 17, 1999 reconnaissance report. EERI No. 2000–03.
  • Yun S-H, Hudnut K, Owen S, Webb F, Simons M, Sacco P, Gurrola E, Manipon G, Liang C, Fielding E, et al. 2015. Rapid damage mapping for the 2015 Mw 7.8 Gorkha earthquake using synthetic aperture radar data from COSMO–SkyMed and ALOS-2 satellites. Seismol Res Lett. 86(6):1549–1556. doi: 10.1785/0220150152.
  • Zhao N, Liu Y, Hsu F-C, Samson EL, Letu H, Liang D, Cao G. 2020. Time series analysis of VIIRS-DNB nighttime lights imagery for change detection in urban areas: a case study of devastation in Puerto Rico from hurricanes Irma and Maria. Appl Geogr. 120:102222. doi: 10.1016/j.apgeog.2020.102222.
  • Zhou Y, Banerjee S, Shinozuka M. 2010. Socio-economic effect of seismic retrofit of bridges for highway transportation networks: a pilot study. Struct Infrastruct Eng. 6(1–2):145–157. doi: 10.1080/15732470802663862.

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