地震灾害系统分析与评估的综合集成模式
|
摘要
针对典型开放的复杂巨地震灾害系统,分析其系统的框架、运行、时空等结构特征,论述其开放性、复杂性、高维性、不确定性以及涌现性等整体特性;讨论地震灾害系统的组元、构成元素以及影响因素,构建由专家、机器及知识体系构成的地震灾害分析综合集成研讨厅体系;设计由专家经验、统计数据"实践"所得的"感性认识"到建立模型的"理性认知",论证研究问题框架与模型体系的同构同态的结构性质,再由上机计算(实验)的"再实践"到专家评估、数据处理、修改模型的"再认识"之地震灾害综合集成分析过程;在已有13个世界著名大地震系统分析与评估的基础上,界定地震危险性、区域承灾能力、基本信息、灾害范围、灾害损失、地质环境安全性、资源环境承载力、经济影响、社会影响和减灾效益等十项评估为其必备评估内容,构筑地震灾害系统综合集成评估框架和"人-机-法-术-数"综合集成评估体系,并阐述其实施流程.
The earthquake disaster is a typical open complex giant systems.In this paper,the system is analyzed on the structure features from its framework,motion,and space-time,meanwhile,its entirety characteristics as open,complexity,high dimension,uncertainty,emergence are discussed.On the basis of discussion on the earthquake disaster system's components,elements and influencing factors,the Hall for Workshop of Meta-synthetic Engineering,which is composed of specialist system,machine system and knowledge system,is constructed to analyze earthquake disaster,and then designs the Meta-synthesis analyzing processes,which follow the steps:starting from experts' experience and data statistics to obtain perceptual cognition,after that,building models to reach rational cognition,and then,re-practicing through computer operation,eventually,via experts' assessment,data processing and model modifying to achieve goal on re cognition.Based on the analysis and assessment of the world famous earthquakes,earthquake risk,region disaster bearing capacity,earthquake essential information,disaster influencing scope,geology environmental security,resources environmental carrying capacity,economical influence,social influence and benefit of disaster reduction are summarized to be the essential contents of assessment of earthquake disaster.The framework of meta-synthesis assessment of earthquake disaster system and the"men,machine,methods, techniques,data"based meta-synthesis assessment system are constructed and depicted.
The earthquake disaster is a typical open complex giant systems.In this paper,the system is analyzed on the structure features from its framework,motion,and space-time,meanwhile,its entirety characteristics as open,complexity,high dimension,uncertainty,emergence are discussed.On the basis of discussion on the earthquake disaster system's components,elements and influencing factors,the Hall for Workshop of Meta-synthetic Engineering,which is composed of specialist system,machine system and knowledge system,is constructed to analyze earthquake disaster,and then designs the Meta-synthesis analyzing processes,which follow the steps:starting from experts' experience and data statistics to obtain perceptual cognition,after that,building models to reach rational cognition,and then,re-practicing through computer operation,eventually,via experts' assessment,data processing and model modifying to achieve goal on re cognition.Based on the analysis and assessment of the world famous earthquakes,earthquake risk,region disaster bearing capacity,earthquake essential information,disaster influencing scope,geology environmental security,resources environmental carrying capacity,economical influence,social influence and benefit of disaster reduction are summarized to be the essential contents of assessment of earthquake disaster.The framework of meta-synthesis assessment of earthquake disaster system and the"men,machine,methods, techniques,data"based meta-synthesis assessment system are constructed and depicted.
引文
[1]Lipman P W.Natural hazards[J].Nature,1993,365(6449):795.
[2]Kates R W,Clark C W,Corell R,et al.Sustainability science[J].Science,2001,292(5517):641-642.
[3]Mileti D S.Disasters by Design:A Reassessment of Natural Hazards in the United States[M].Washington: Joseph Henry Press,1999.
[4]Cornell C A.Engineering seismic risk analysis[J].Bulletin of the Seismological Society of America,1968,58(5): 1583-1606.
[5]Aoudia A,Vaccari F,Suhadolc P.Seismogenic potential and earthquake hazard assessment in the Tell Atlas of Algeria[J].Journal of Seismology,2000,4(1):79-98.
[6]Bouhadad Y,Laouami N.Earthquake hazard assessment in the Oran Region(Northwest Algeria)[J].Natural Hazards,2002,26(3):227-243.
[7]Pavlenko O V,Wen K L.Estimation of nonlinear soil behavior during the 1999 Chi-Chi,Taiwan,Earthquake[J]. Pure and Applied Geophysics,2008,165(2):373-407.
[8]Parvez I A,Ram A.Probabilistic assessment of earthquake hazards in the Indian subcontinent[J].Pure and Applied Geophysics,1999,154(1):23-40.
[9]Burbidge D,Cummins P.Assessing the threat to Western Australia from tsunami generated by earthquakes along the Sunda[J].Arc Natural Hazards,2007,43(3):319-331.
[10]Pitilakis K,Alexoudi M,Argyroudis S,et al.Earthquake risk assessment of lifelines[J].Bulletin of Earthquake Engineering,2006,4(4):365-390.
[11]French S P,Muthukumar S.Advanced technologies for earthquake risk inventories[J].Journal of Earthquake Engineering,2006,10(2):207-236.
[12]Spence R,So E,et al.The global earthquake vulnerability estimation system(GEVES):An approach for earthquakerisk assessment for insurance applications[J].Bulletin of Earthquake Engineering,2008,6(3):463- 483.
[13]Bruneau M S,Chang R,Eguchi G,et al.A framework to quantitatively assess and enhance seismic resilience of communities[J].Earthquake Spectra,2003,19(4):733-752.
[14]Athukorala P,Resosudarmo B P.The Indian Ocean tsunami:Economic impact,disaster management and lessons[J].Asian Economic Papers,2005,4(1):1-39.
[15]Kuribayashi E.Preventive measures for urban lifelines during earthquake disasters[J].Japanese Scientific Monthly, 1986,39(11):13-18.
[16]Brookshire D S,Chang S E,Cochrane H,et al.Direct and indirect economic losses from earthquake damage[J]. Earthquake Spectra,1997,13(4):683-701.
[17]Ellson R W,Milliman J W,Roberts R B.Measuring the regional economic effects of earthquakes and earthquake predictions[J].Journal of Regional Science,1984,24(4):559-579.
[18]Kajitani Y,Tatano H,Okada N.Long-term effects of the Hyogo Nanbu Earthquake on economic activities at the port of Kobe:Time series analysis[C]//Proceedings of the Second EuroConference on Global Change and Catastrophe Risk Management:Earthquake Risks in Europe,IIASA,2000,Laxenburg,Austria.
[19]Rose A,Benavides J,Chang S E,et al.The regional economic impact of an earthquake:Direct and indirect effects of electricity lifeline disruptions[J].Journal of Regional Science,1997,37(3):437-458.
[20]Murdoch J C,Singh H,Thayer M.The impact of natural hazards on housing values:The Loma Prieta Earthquake [J].Real Estate Economics,1993,21(2):167-184.
[21]Bertalanffy L.General System Theory[M].New York:George Breziller,Inc,1973.
[22]钱学森,于景元,戴汝为.一个科学新领域——开放的复杂巨系统及其方法论[J].自然杂志,1990,13(1):3-10. Qian X S,Yu J Y,Dai R W.A new discipline of science:The study of open complex giant system and its methodology[J].Nature Magazine,1990,13(1):3-10.
[23]于景元.钱学森的现代科学技术体系与综合集成方法论[J].中国工程科学,2001,3(11):10-18. Yu J Y.Qian Xuesen's contemporary system of science and technology and meta-synthesis[J].Engineering Science, 2001,3(11):10-18.
[24]Olson E L,Allen R M.The deterministic nature of earthquake rupture[J].Nature,2005,438(7065):212-215.
[25]Burton I,Kates R W,White G F.The Environment as Hazard[M].New York:Guilford Press,1993.
[26]Blaikie P T,Cannon I D,Wisher B.At Risk:Natural Hazards,People's Vulnerability,and Disasters[M].London: Routledge,1994.
[27]Geller R J,Jackson D D,et al.Earthquakes cannot be predicted[J].Science,1997,275(5306):1616-1617.
[28]陈运泰.地震预测——进展、困难与前景[J].地震地磁观测与研究,2007,28(2):1-24. Chen Y T.Earthquake prediction:Progress,difficulties and prospect[J].Seismological and Geomagnetic Observation and Research,2007,28(2):1-24.
[29]徐玖平,卢毅.地震灾后重建系统工程的综合集成模式[J].系统工程理论与实践,2008,28(7):1-16. Xu J P,Lu Y.Meta-synthesis pattern of systems engineering of post-earthquake reconstructions[J].Systems Engineering-Theory & Practice,2008,28(7):1-16.
[30]于景元,周晓纪.从定性到定量综合集成方法的实现和应用[J].系统工程理论与实践,2002,22(10):26-32. Yu J Y,Zhou X J.The realization and application of meta-synthesis[J].Systems Engineering-Theory & Practice,2002,22(10):26-32.
[31]于景元,刘毅,马昌超.关于复杂性研究[J].系统仿真学报,2002,14(11):1417-1424. Yu J Y,Liu Y,Ma C C.Study on the complexity[J].Acta Simulata Systematica Sinica,2002,14(11):1417-1424.
[32]钱学森.创建系统学[M].太原:山西科技出版社,2001. Qian X S.Creating Systems Science[M].Taiyuan:Shanxi Science and Technology Press,2001.
[33]戴汝为,李耀东.基于综合集成的研讨厅体系与系统复杂性[J].复杂系统与复杂性科学,2004,1(4):2-24. Dai R W,Li Y D.Researches on hall for workshop of metasynthetic engineering and system complexity[J]. Complex Systems and Complexity Science,2004,1(4):1-24.
[34]戴汝为.人-机结合的智能工程系统——处理开放的复杂巨系统的可操作平台[J].模式识别与人工智能,2004,17(3): 257-261. Dai R W.Man-computer cooperated intelligent engineering system:A management platform for dealing with OCGS[J].Pattern Recognition and Artificial Intelligence,2004,17(3):257-261.
[35]陈运泰,许力生,张勇,等.2008年5月12日汶川特大地震震源特性分析报告[R].中国地震局地球物理所,2008.05. Chen Y T,Xu L S,Zhang Y,et al.Analysis report on characters of sources of Wenchuan Earthquake,May 12, 2008[R].Institute of Geophysics,China Earthquake Administration,2008-05.
[36]Wang Z.A preliminary report on the Great Wenchuan Earthquake[J].Earthquake Engineering and Engineering Vibration,2008,7(2):225-234.
[37]Stone R.Sichuan disaster:Landslides,flooding pose threats as experts survey quake's impact[J].Science,2008, 320(5879):996-997.
[38]Burchfiel B C,Royden L H,Hils van dert R D,et al.A geological and geophysical context for the Wenchuan earthquake of 12 May 2008,Sichuan,People's Republic of China[J].GSA Today,2008,18(7):4-11.
[39]Kaneda H,Nakata T,Tsutsumi H,et al.Surface rupture of the 2005 Kashmir,Pakistan,earthquake and its active tectonic implications[J].Bulletin of the Seismological Society of America,2008,98(2):521-557.
[40]Sathar Z A,Mahmood A.Earthquake vulnerability assessment:Pakistan 2005-2006[R].Pakistan:The Popula- tion Council,2007.
[41]Maqsood S T,Schwarz J.Analysis of building damage during the 8 October 2005 Earthquake in Pakistan[J]. Seismological Research Letters,2008,79(2):163-177.
[42]EERI Reconnaissance Team.The Kashmir Earthquake of October 8,2005 impacts in Pakistan[R].EERI Special Earthquake Report,2006.
[43]Parsons T,Yeats R S,Yagi Y,et al.Static stress change from the 8 October,2005 M=7.6 Kashmir earthquake[J]. Geophysical Research Letters,2006,33:1-4.
[44]Stein S,Okal E.Speed and size of the Sumatra earthquake[J].Nature,2005,434(7033):891-892.
[45]Lay T,Kanamori H,Ammon C,et al.The great Sumatra-Andaman earthquake of 26 December 2004[J].Science, 2005,308(5725):1127-1133.
[46]Vigny C,Simons W J F,Abu S,et al.Insight into the 2004 Sumatra-Andaman earthquake from GPS measurements in southeast Asia[J].Nature,2005,436(7048):201-206.
[47]Srinivas H,Nakagawa Y.Environmental implications for disaster preparedness:Lessons learnt from the Indian Ocean Tsunami[J].Journal of Environmental Management,2008,89(1):4-13.
[48]Brennan R J.Rapid health assessment in Aceh Jaya District,Indonesia,following the December 26 tsunami[J]. Emergency Medicine Australasia,2005,17(4):341-350.
[49]Ishii M,Shearer P M,Houston H,et al.Extent,duration and speed of the 2004 Sumatra-Andaman earthquake imaged by the Hi-Net array[J].Nature,2005,435(7041):933-936.
[50]Ammon C J,Ji C,Thio H K,et al.Rupture process of the 2004 Sumatra-Andaman Earthquake[J].Science, 2005,308(5725):1133-1139.
[51]Babu G L S,Srivastava A,Sahana V.Analysis of stability of earthen dams in Kachchh region,Gujarat,India[J]. Engineering Geology,2007,94(3-4):123-136.
[52]Pitarka A,Graves R,Somerville P.Validation of a 3D velocity model of the Puget sound region based on modeling ground motion from the 28 February 2001 Nisqually Earthquake[J].Bulletin of the Seismological Society of America,2004,94(5):1670-1689.
[53]Negishi H,Mori J,et al.Size and orientation of the fault plane for the 2001 Gujarat,India earthquake(Mw7.7) from aftershock observations:A high stress drop event[J].Geophysical Research Letters,2002,29(20):1-4.
[54]Lahiri A K,Sen T K,Rao R K,et al.Economic Consequences of the Gujarat Earthquake[M].New Delhi: National Institute of Public Finance and Policy,2001.
[55]Garcia-Rodriguez M J,Malpica J A,Benito B,et al.Susceptibility assessment of earthquake-triggered landslides in E1 Salvador using logistic regression[J].Geomorphology,2008,95(3):172-191.
[56]Zapata R.ECLAC:Summary of the damage caused by the earthquakes of 13 January and 13 February in E1 Salvador[J].ISDR Informs,2001,3:12-17.
[57]Yoshimura K,Kuroki M.Damage to masonry buildings caused by the El Salvador earthquake of January 13, 2001[J].Journal of Natural Disaster Science,2001,23(2):53-63.
[58]Vazquez C,Cervellon P,Perez-Sales P,et al.Positive emotions in earthquake survivors in El Salvador(2001)[J]. Journal of Anxiety Disorders,2005,19(3):313-328.
[59]Vallee M,Bouchon M,Schwartz S Y.The 13 January 2001 E1 Salvador earthquake:A multi data analysis[J]. Journal of Geophysical Research,2003,108(B4):25-44.
[60]Ma K F,Tanaka H,Song S R,et al.Slip zone and energetics of a large earthquake from the Taiwan Chelungpufault Drilling Project[J].Nature,2006,444(7118):473-476.
[61]Shin T C,Teng T.An overview of the 1999 Chi-Chi,Taiwan,earthquake[J].Bulletin of the Seismological Society of America,2001,91(5):895-913.
[62]Shin T C,Kuo K W,Lee W H,et al.A preliminary report on the 1999 Chi-Chi(Taiwan) earthquake[J]. Seismological Research Letters,2000,71(1):23-29.
[63]Lin M L,Tung C C.A GIS-based potential analysis of the landslides induced by the Chi-Chi earthquake[J]. Engineering Geology,2004,71(1-2):63-77.
[64]Christopoulos C,Garcia D L,Tsai K C.Educational reconnaissance of the area affected by the 1999 Chi-Chi earthquake-Three years later[J].Earthquake Spectra,2005,21(1):31-52.
[65]Stein R S,Barka A A,Dieterich J H.Progressive failure on the North Anatolian fault since 1939 by earthquake stress triggering[J].Geophysical Journal International,1997,128(3):594-604.
[66]selcuk F,Yeldan E.On the macroeconomic impact of the August 1999 earthquake in Turkey:A first assessment [J].Applied Economics Letters,2001,8(7):483-488.
[67]Kasapoglu A,Ecevit M.Impact of the 1999 East Marmara earthquake in Turkey[J].Population & Environment, 2003,24(4):339-358.
[68]Kilic C,Ulusoy M.Psychological effects of the November 1999 earthquake in Turkey:An epidemiological study[J]. Acta Psychiatrica Scandinavica,2003,108(3):232-238.
[69]Hubert-Ferrari A,Barka A,Jacques E,et al.Seismic hazard in the Marmara Sea region following the 17 August 1999 Izmit earthquake[J].Nature,2000,404(6775):269-273.
[70]Huang Q.Characteristics of the seismic quiescence and activation patterns before the M=7.2 Kobe earthquake, January 17,1995[J].Tectonophysics,2001,337(1-2):99-116.
[71]Gotoh T,Nishimura T,Nakata M,et al.Air pollution by concrete dust from the great Hanshin earthquake[J]. Journal of Environmental Quality,2002,31(3):718-723.
[72]Ikeda K.Assessment of the total damage caused by the Hanshin-Awaji earthquake[J].Municipal Problems,1999, 90(1):91-103.
[73]Kuwagata Y,Oda J,Tanaka H,et al.Analysis of 2702 traumatized patients in the 1995 Hanshin-Awaji earthquake [J].The Journal of Trauma:Injury,Infection,and Critical Care,1997,43(3):427-432.
[74]Cho I,Kanjo K.The source mechanism of the Hyogo-ken Nanbu earthquake of January 17,1995[J].Journal of Natural Disaster Science,1995,16(3):21-29.
[75]Muguruma H,Nishiyama M,Watanabe F.Lessons learned from the Kobe earthquake:A Japanese perspective[J]. PCI Journal,1995,40(4):28-42.
[76]Field E H,Johnson P A,Beresnev I A.Nonlinear ground-motion amplification by sediments during the 1994 Northridge earthquake[J].Nature,1997,390(6660):599-602.
[77]Ward S N.A multidisciplinary approach to seismic hazard in southern California[J].Bulletin of the Seismological Society of America,1994,84(5):1293-1309.
[78]Eguchi R T,Goltz J,Taylor C,et al.Direct economic losses in the Northridge earthquake:A three year post-event perspective[J].Earthquake Spectra,1998,14(2):245-264.
[79]Eguchi R T,Goltz J D,et al.Real-time loss estimation as an emergency response decision support system;the early post-earthquake damage assessment tool(EPEDAT)[J].Earthquake Spectra,1997,13(4):815-833.
[80]Brookshire D S,Chang S E,Cochrane H,et al.Direct and indirect economic losses from earthquake damage[J]. Earthquake Spectra,1997,13(4):683-701.
[81]Goltz J D.Use of loss estimates by government agencies in the Northridge earthquake for response and recovery[J]. Earthquake Spectra,1996,12(3):441-455.
[82]Cisternas A,Philip H,Bousquet J C.The Spitak(Armenia) earthquake of 7 December 1988:Field observations, seismology and tectonics[J].Nature,1989,339(6227):675-679.
[83]Philip H,Rogozhin E,Cisternas A,et al.The Armenian earthquake of 1988 December 7:Faulting and folding, neotectonics and palaeoseismicity[J].Geophysical Journal International,1992,110(1):141-158.
[84]Hadjian A H.The Spitak,Armenia earthquake of 7 December 1988-Why so much destruction[J].Soil Dynamics and Earthquake Engineering,1993,12(1):1-24.
[85]Pynoos R S,Goenjian A,Tashjian M,et al.Post-traumatic stress reactions in children after the 1988 Armenian earthquake[J].The British Journal of Psychiatry 1993,163(8):239-247.
[86]Kikuchi M,Kanamori H,Satake K.Source complexity of the 1988 Armenian earthquake-Evidence for a slow after-slip event[J].Journal of Geophysical Research,1993,98(B9):15797-15808.
[87]Ekstrom G,Dziewonski A M.A very broad band analysis of the Michoacan,Mexico,earthquake of September 19,1985[J].Geophysical Research Letters,1986,13(6):605-608.
[88]Norena F,Castaneda C,Iglesias J.The Mexico earthquake of September 19,1985-Evaluation of the seismic capacity of buildings in Mexico city[J].Earthquake Spectra,1989,5(1):19-24.
[89]Smolka A,Berz G.The Mexico earthquake of September 19,1985-An analysis of the insured loss and implications for risk assessment[J].Earthquake Spectra,1989,5(1):223-248.
[90]Degg M R.Earthquake hazard assessment after Mexico(1985)[J].Disasters,1989,13(3):237-246.
[91]Zapata R.ECLAC:Impact assessment of the earthquake of Colima,Mexico[J].ISDR Informs:A Magazine for Latin America and the Caribbean,2003(7):16-17.
[92]Robinson R,Zhou S.Stress interactions within the Tangshan,China,earthquake sequence of 1976[J].Bulletin of the Seismological Society of America,2005,95(6):2501-2505.
[93]Butler R,Stewart G S,Kanamori H.The July 27,1976 Tangshan,China earthquake-A complex sequence of intraplate events[J].Bulletin of the Seismological Society of America,1979,69(1):207-220.
[94]李建华,郝书俭,胡玉台.1976年唐山7.8级地震孕育的构造环境[J].地震学报,1998,20(5):466-472. Li J H,Hao S J,Hu Y T.Tectonic setting of the seismogeny of the 1976 Tangshan,China M=7.8 earthquake[J]. Acta Seismologica Sinica,1998,20(5):466-472.
[95]赵振东,郑向远,钟江荣.地震人员伤亡的动态评估[J].地震工程与工程振动,1994,19(4):149-156. Zhao Z D,Zheng X Y,Zhong J R.Dynamic method of assessing seismic casualties[J].Earthquake Engineering and Engineering Vibration,1994,19(4):149-156.
[96]Cai Y,He T,Wang R.Numerical simulation of dynamic process of the Tangshan earthquake by a new method -LDDA[J].Pure and Applied Geophysics,2000,157,(11-12):2083-2104.
[97]Kobayashi R,Koketsu K.Source process of the 1923 Kanto earthquake inferred from historical geodetic,teleseismic, and strong motion data[J].Earth Planets Space,2005,57(4):261-270.
[98]Wald D J,Somerville P G.Variable-slip rupture model of the great 1923 Kanto,Japan,earthquake:Geodetic and body-waveform analysis[J].Bulletin of the Seismological Society of America,1995,85(1):159-177.
[99]Stein R S,Toda S,Parsons T,et al.A new probabilistic seismic hazard assessment for greater Tokyo[J]. Philosophical Transactions of the Royal Society of London Series A,2006,364(1845):1965-1988.
[100]Midorikawa S.Importance of damage data from destructive earthquakes forseismic microzoning damage distribution during the 1923 Kanto,Japan,earthquake[J].Annals of Geophysics,2002,45(6):769-778.
[101]Jaggar T A.The Yokohama-Tokyo earthquake of September 1,1923[J].Bulletin of the Seismological Society of America,1923,13(4):124-146.
[2]Kates R W,Clark C W,Corell R,et al.Sustainability science[J].Science,2001,292(5517):641-642.
[3]Mileti D S.Disasters by Design:A Reassessment of Natural Hazards in the United States[M].Washington: Joseph Henry Press,1999.
[4]Cornell C A.Engineering seismic risk analysis[J].Bulletin of the Seismological Society of America,1968,58(5): 1583-1606.
[5]Aoudia A,Vaccari F,Suhadolc P.Seismogenic potential and earthquake hazard assessment in the Tell Atlas of Algeria[J].Journal of Seismology,2000,4(1):79-98.
[6]Bouhadad Y,Laouami N.Earthquake hazard assessment in the Oran Region(Northwest Algeria)[J].Natural Hazards,2002,26(3):227-243.
[7]Pavlenko O V,Wen K L.Estimation of nonlinear soil behavior during the 1999 Chi-Chi,Taiwan,Earthquake[J]. Pure and Applied Geophysics,2008,165(2):373-407.
[8]Parvez I A,Ram A.Probabilistic assessment of earthquake hazards in the Indian subcontinent[J].Pure and Applied Geophysics,1999,154(1):23-40.
[9]Burbidge D,Cummins P.Assessing the threat to Western Australia from tsunami generated by earthquakes along the Sunda[J].Arc Natural Hazards,2007,43(3):319-331.
[10]Pitilakis K,Alexoudi M,Argyroudis S,et al.Earthquake risk assessment of lifelines[J].Bulletin of Earthquake Engineering,2006,4(4):365-390.
[11]French S P,Muthukumar S.Advanced technologies for earthquake risk inventories[J].Journal of Earthquake Engineering,2006,10(2):207-236.
[12]Spence R,So E,et al.The global earthquake vulnerability estimation system(GEVES):An approach for earthquakerisk assessment for insurance applications[J].Bulletin of Earthquake Engineering,2008,6(3):463- 483.
[13]Bruneau M S,Chang R,Eguchi G,et al.A framework to quantitatively assess and enhance seismic resilience of communities[J].Earthquake Spectra,2003,19(4):733-752.
[14]Athukorala P,Resosudarmo B P.The Indian Ocean tsunami:Economic impact,disaster management and lessons[J].Asian Economic Papers,2005,4(1):1-39.
[15]Kuribayashi E.Preventive measures for urban lifelines during earthquake disasters[J].Japanese Scientific Monthly, 1986,39(11):13-18.
[16]Brookshire D S,Chang S E,Cochrane H,et al.Direct and indirect economic losses from earthquake damage[J]. Earthquake Spectra,1997,13(4):683-701.
[17]Ellson R W,Milliman J W,Roberts R B.Measuring the regional economic effects of earthquakes and earthquake predictions[J].Journal of Regional Science,1984,24(4):559-579.
[18]Kajitani Y,Tatano H,Okada N.Long-term effects of the Hyogo Nanbu Earthquake on economic activities at the port of Kobe:Time series analysis[C]//Proceedings of the Second EuroConference on Global Change and Catastrophe Risk Management:Earthquake Risks in Europe,IIASA,2000,Laxenburg,Austria.
[19]Rose A,Benavides J,Chang S E,et al.The regional economic impact of an earthquake:Direct and indirect effects of electricity lifeline disruptions[J].Journal of Regional Science,1997,37(3):437-458.
[20]Murdoch J C,Singh H,Thayer M.The impact of natural hazards on housing values:The Loma Prieta Earthquake [J].Real Estate Economics,1993,21(2):167-184.
[21]Bertalanffy L.General System Theory[M].New York:George Breziller,Inc,1973.
[22]钱学森,于景元,戴汝为.一个科学新领域——开放的复杂巨系统及其方法论[J].自然杂志,1990,13(1):3-10. Qian X S,Yu J Y,Dai R W.A new discipline of science:The study of open complex giant system and its methodology[J].Nature Magazine,1990,13(1):3-10.
[23]于景元.钱学森的现代科学技术体系与综合集成方法论[J].中国工程科学,2001,3(11):10-18. Yu J Y.Qian Xuesen's contemporary system of science and technology and meta-synthesis[J].Engineering Science, 2001,3(11):10-18.
[24]Olson E L,Allen R M.The deterministic nature of earthquake rupture[J].Nature,2005,438(7065):212-215.
[25]Burton I,Kates R W,White G F.The Environment as Hazard[M].New York:Guilford Press,1993.
[26]Blaikie P T,Cannon I D,Wisher B.At Risk:Natural Hazards,People's Vulnerability,and Disasters[M].London: Routledge,1994.
[27]Geller R J,Jackson D D,et al.Earthquakes cannot be predicted[J].Science,1997,275(5306):1616-1617.
[28]陈运泰.地震预测——进展、困难与前景[J].地震地磁观测与研究,2007,28(2):1-24. Chen Y T.Earthquake prediction:Progress,difficulties and prospect[J].Seismological and Geomagnetic Observation and Research,2007,28(2):1-24.
[29]徐玖平,卢毅.地震灾后重建系统工程的综合集成模式[J].系统工程理论与实践,2008,28(7):1-16. Xu J P,Lu Y.Meta-synthesis pattern of systems engineering of post-earthquake reconstructions[J].Systems Engineering-Theory & Practice,2008,28(7):1-16.
[30]于景元,周晓纪.从定性到定量综合集成方法的实现和应用[J].系统工程理论与实践,2002,22(10):26-32. Yu J Y,Zhou X J.The realization and application of meta-synthesis[J].Systems Engineering-Theory & Practice,2002,22(10):26-32.
[31]于景元,刘毅,马昌超.关于复杂性研究[J].系统仿真学报,2002,14(11):1417-1424. Yu J Y,Liu Y,Ma C C.Study on the complexity[J].Acta Simulata Systematica Sinica,2002,14(11):1417-1424.
[32]钱学森.创建系统学[M].太原:山西科技出版社,2001. Qian X S.Creating Systems Science[M].Taiyuan:Shanxi Science and Technology Press,2001.
[33]戴汝为,李耀东.基于综合集成的研讨厅体系与系统复杂性[J].复杂系统与复杂性科学,2004,1(4):2-24. Dai R W,Li Y D.Researches on hall for workshop of metasynthetic engineering and system complexity[J]. Complex Systems and Complexity Science,2004,1(4):1-24.
[34]戴汝为.人-机结合的智能工程系统——处理开放的复杂巨系统的可操作平台[J].模式识别与人工智能,2004,17(3): 257-261. Dai R W.Man-computer cooperated intelligent engineering system:A management platform for dealing with OCGS[J].Pattern Recognition and Artificial Intelligence,2004,17(3):257-261.
[35]陈运泰,许力生,张勇,等.2008年5月12日汶川特大地震震源特性分析报告[R].中国地震局地球物理所,2008.05. Chen Y T,Xu L S,Zhang Y,et al.Analysis report on characters of sources of Wenchuan Earthquake,May 12, 2008[R].Institute of Geophysics,China Earthquake Administration,2008-05.
[36]Wang Z.A preliminary report on the Great Wenchuan Earthquake[J].Earthquake Engineering and Engineering Vibration,2008,7(2):225-234.
[37]Stone R.Sichuan disaster:Landslides,flooding pose threats as experts survey quake's impact[J].Science,2008, 320(5879):996-997.
[38]Burchfiel B C,Royden L H,Hils van dert R D,et al.A geological and geophysical context for the Wenchuan earthquake of 12 May 2008,Sichuan,People's Republic of China[J].GSA Today,2008,18(7):4-11.
[39]Kaneda H,Nakata T,Tsutsumi H,et al.Surface rupture of the 2005 Kashmir,Pakistan,earthquake and its active tectonic implications[J].Bulletin of the Seismological Society of America,2008,98(2):521-557.
[40]Sathar Z A,Mahmood A.Earthquake vulnerability assessment:Pakistan 2005-2006[R].Pakistan:The Popula- tion Council,2007.
[41]Maqsood S T,Schwarz J.Analysis of building damage during the 8 October 2005 Earthquake in Pakistan[J]. Seismological Research Letters,2008,79(2):163-177.
[42]EERI Reconnaissance Team.The Kashmir Earthquake of October 8,2005 impacts in Pakistan[R].EERI Special Earthquake Report,2006.
[43]Parsons T,Yeats R S,Yagi Y,et al.Static stress change from the 8 October,2005 M=7.6 Kashmir earthquake[J]. Geophysical Research Letters,2006,33:1-4.
[44]Stein S,Okal E.Speed and size of the Sumatra earthquake[J].Nature,2005,434(7033):891-892.
[45]Lay T,Kanamori H,Ammon C,et al.The great Sumatra-Andaman earthquake of 26 December 2004[J].Science, 2005,308(5725):1127-1133.
[46]Vigny C,Simons W J F,Abu S,et al.Insight into the 2004 Sumatra-Andaman earthquake from GPS measurements in southeast Asia[J].Nature,2005,436(7048):201-206.
[47]Srinivas H,Nakagawa Y.Environmental implications for disaster preparedness:Lessons learnt from the Indian Ocean Tsunami[J].Journal of Environmental Management,2008,89(1):4-13.
[48]Brennan R J.Rapid health assessment in Aceh Jaya District,Indonesia,following the December 26 tsunami[J]. Emergency Medicine Australasia,2005,17(4):341-350.
[49]Ishii M,Shearer P M,Houston H,et al.Extent,duration and speed of the 2004 Sumatra-Andaman earthquake imaged by the Hi-Net array[J].Nature,2005,435(7041):933-936.
[50]Ammon C J,Ji C,Thio H K,et al.Rupture process of the 2004 Sumatra-Andaman Earthquake[J].Science, 2005,308(5725):1133-1139.
[51]Babu G L S,Srivastava A,Sahana V.Analysis of stability of earthen dams in Kachchh region,Gujarat,India[J]. Engineering Geology,2007,94(3-4):123-136.
[52]Pitarka A,Graves R,Somerville P.Validation of a 3D velocity model of the Puget sound region based on modeling ground motion from the 28 February 2001 Nisqually Earthquake[J].Bulletin of the Seismological Society of America,2004,94(5):1670-1689.
[53]Negishi H,Mori J,et al.Size and orientation of the fault plane for the 2001 Gujarat,India earthquake(Mw7.7) from aftershock observations:A high stress drop event[J].Geophysical Research Letters,2002,29(20):1-4.
[54]Lahiri A K,Sen T K,Rao R K,et al.Economic Consequences of the Gujarat Earthquake[M].New Delhi: National Institute of Public Finance and Policy,2001.
[55]Garcia-Rodriguez M J,Malpica J A,Benito B,et al.Susceptibility assessment of earthquake-triggered landslides in E1 Salvador using logistic regression[J].Geomorphology,2008,95(3):172-191.
[56]Zapata R.ECLAC:Summary of the damage caused by the earthquakes of 13 January and 13 February in E1 Salvador[J].ISDR Informs,2001,3:12-17.
[57]Yoshimura K,Kuroki M.Damage to masonry buildings caused by the El Salvador earthquake of January 13, 2001[J].Journal of Natural Disaster Science,2001,23(2):53-63.
[58]Vazquez C,Cervellon P,Perez-Sales P,et al.Positive emotions in earthquake survivors in El Salvador(2001)[J]. Journal of Anxiety Disorders,2005,19(3):313-328.
[59]Vallee M,Bouchon M,Schwartz S Y.The 13 January 2001 E1 Salvador earthquake:A multi data analysis[J]. Journal of Geophysical Research,2003,108(B4):25-44.
[60]Ma K F,Tanaka H,Song S R,et al.Slip zone and energetics of a large earthquake from the Taiwan Chelungpufault Drilling Project[J].Nature,2006,444(7118):473-476.
[61]Shin T C,Teng T.An overview of the 1999 Chi-Chi,Taiwan,earthquake[J].Bulletin of the Seismological Society of America,2001,91(5):895-913.
[62]Shin T C,Kuo K W,Lee W H,et al.A preliminary report on the 1999 Chi-Chi(Taiwan) earthquake[J]. Seismological Research Letters,2000,71(1):23-29.
[63]Lin M L,Tung C C.A GIS-based potential analysis of the landslides induced by the Chi-Chi earthquake[J]. Engineering Geology,2004,71(1-2):63-77.
[64]Christopoulos C,Garcia D L,Tsai K C.Educational reconnaissance of the area affected by the 1999 Chi-Chi earthquake-Three years later[J].Earthquake Spectra,2005,21(1):31-52.
[65]Stein R S,Barka A A,Dieterich J H.Progressive failure on the North Anatolian fault since 1939 by earthquake stress triggering[J].Geophysical Journal International,1997,128(3):594-604.
[66]selcuk F,Yeldan E.On the macroeconomic impact of the August 1999 earthquake in Turkey:A first assessment [J].Applied Economics Letters,2001,8(7):483-488.
[67]Kasapoglu A,Ecevit M.Impact of the 1999 East Marmara earthquake in Turkey[J].Population & Environment, 2003,24(4):339-358.
[68]Kilic C,Ulusoy M.Psychological effects of the November 1999 earthquake in Turkey:An epidemiological study[J]. Acta Psychiatrica Scandinavica,2003,108(3):232-238.
[69]Hubert-Ferrari A,Barka A,Jacques E,et al.Seismic hazard in the Marmara Sea region following the 17 August 1999 Izmit earthquake[J].Nature,2000,404(6775):269-273.
[70]Huang Q.Characteristics of the seismic quiescence and activation patterns before the M=7.2 Kobe earthquake, January 17,1995[J].Tectonophysics,2001,337(1-2):99-116.
[71]Gotoh T,Nishimura T,Nakata M,et al.Air pollution by concrete dust from the great Hanshin earthquake[J]. Journal of Environmental Quality,2002,31(3):718-723.
[72]Ikeda K.Assessment of the total damage caused by the Hanshin-Awaji earthquake[J].Municipal Problems,1999, 90(1):91-103.
[73]Kuwagata Y,Oda J,Tanaka H,et al.Analysis of 2702 traumatized patients in the 1995 Hanshin-Awaji earthquake [J].The Journal of Trauma:Injury,Infection,and Critical Care,1997,43(3):427-432.
[74]Cho I,Kanjo K.The source mechanism of the Hyogo-ken Nanbu earthquake of January 17,1995[J].Journal of Natural Disaster Science,1995,16(3):21-29.
[75]Muguruma H,Nishiyama M,Watanabe F.Lessons learned from the Kobe earthquake:A Japanese perspective[J]. PCI Journal,1995,40(4):28-42.
[76]Field E H,Johnson P A,Beresnev I A.Nonlinear ground-motion amplification by sediments during the 1994 Northridge earthquake[J].Nature,1997,390(6660):599-602.
[77]Ward S N.A multidisciplinary approach to seismic hazard in southern California[J].Bulletin of the Seismological Society of America,1994,84(5):1293-1309.
[78]Eguchi R T,Goltz J,Taylor C,et al.Direct economic losses in the Northridge earthquake:A three year post-event perspective[J].Earthquake Spectra,1998,14(2):245-264.
[79]Eguchi R T,Goltz J D,et al.Real-time loss estimation as an emergency response decision support system;the early post-earthquake damage assessment tool(EPEDAT)[J].Earthquake Spectra,1997,13(4):815-833.
[80]Brookshire D S,Chang S E,Cochrane H,et al.Direct and indirect economic losses from earthquake damage[J]. Earthquake Spectra,1997,13(4):683-701.
[81]Goltz J D.Use of loss estimates by government agencies in the Northridge earthquake for response and recovery[J]. Earthquake Spectra,1996,12(3):441-455.
[82]Cisternas A,Philip H,Bousquet J C.The Spitak(Armenia) earthquake of 7 December 1988:Field observations, seismology and tectonics[J].Nature,1989,339(6227):675-679.
[83]Philip H,Rogozhin E,Cisternas A,et al.The Armenian earthquake of 1988 December 7:Faulting and folding, neotectonics and palaeoseismicity[J].Geophysical Journal International,1992,110(1):141-158.
[84]Hadjian A H.The Spitak,Armenia earthquake of 7 December 1988-Why so much destruction[J].Soil Dynamics and Earthquake Engineering,1993,12(1):1-24.
[85]Pynoos R S,Goenjian A,Tashjian M,et al.Post-traumatic stress reactions in children after the 1988 Armenian earthquake[J].The British Journal of Psychiatry 1993,163(8):239-247.
[86]Kikuchi M,Kanamori H,Satake K.Source complexity of the 1988 Armenian earthquake-Evidence for a slow after-slip event[J].Journal of Geophysical Research,1993,98(B9):15797-15808.
[87]Ekstrom G,Dziewonski A M.A very broad band analysis of the Michoacan,Mexico,earthquake of September 19,1985[J].Geophysical Research Letters,1986,13(6):605-608.
[88]Norena F,Castaneda C,Iglesias J.The Mexico earthquake of September 19,1985-Evaluation of the seismic capacity of buildings in Mexico city[J].Earthquake Spectra,1989,5(1):19-24.
[89]Smolka A,Berz G.The Mexico earthquake of September 19,1985-An analysis of the insured loss and implications for risk assessment[J].Earthquake Spectra,1989,5(1):223-248.
[90]Degg M R.Earthquake hazard assessment after Mexico(1985)[J].Disasters,1989,13(3):237-246.
[91]Zapata R.ECLAC:Impact assessment of the earthquake of Colima,Mexico[J].ISDR Informs:A Magazine for Latin America and the Caribbean,2003(7):16-17.
[92]Robinson R,Zhou S.Stress interactions within the Tangshan,China,earthquake sequence of 1976[J].Bulletin of the Seismological Society of America,2005,95(6):2501-2505.
[93]Butler R,Stewart G S,Kanamori H.The July 27,1976 Tangshan,China earthquake-A complex sequence of intraplate events[J].Bulletin of the Seismological Society of America,1979,69(1):207-220.
[94]李建华,郝书俭,胡玉台.1976年唐山7.8级地震孕育的构造环境[J].地震学报,1998,20(5):466-472. Li J H,Hao S J,Hu Y T.Tectonic setting of the seismogeny of the 1976 Tangshan,China M=7.8 earthquake[J]. Acta Seismologica Sinica,1998,20(5):466-472.
[95]赵振东,郑向远,钟江荣.地震人员伤亡的动态评估[J].地震工程与工程振动,1994,19(4):149-156. Zhao Z D,Zheng X Y,Zhong J R.Dynamic method of assessing seismic casualties[J].Earthquake Engineering and Engineering Vibration,1994,19(4):149-156.
[96]Cai Y,He T,Wang R.Numerical simulation of dynamic process of the Tangshan earthquake by a new method -LDDA[J].Pure and Applied Geophysics,2000,157,(11-12):2083-2104.
[97]Kobayashi R,Koketsu K.Source process of the 1923 Kanto earthquake inferred from historical geodetic,teleseismic, and strong motion data[J].Earth Planets Space,2005,57(4):261-270.
[98]Wald D J,Somerville P G.Variable-slip rupture model of the great 1923 Kanto,Japan,earthquake:Geodetic and body-waveform analysis[J].Bulletin of the Seismological Society of America,1995,85(1):159-177.
[99]Stein R S,Toda S,Parsons T,et al.A new probabilistic seismic hazard assessment for greater Tokyo[J]. Philosophical Transactions of the Royal Society of London Series A,2006,364(1845):1965-1988.
[100]Midorikawa S.Importance of damage data from destructive earthquakes forseismic microzoning damage distribution during the 1923 Kanto,Japan,earthquake[J].Annals of Geophysics,2002,45(6):769-778.
[101]Jaggar T A.The Yokohama-Tokyo earthquake of September 1,1923[J].Bulletin of the Seismological Society of America,1923,13(4):124-146.
版权所有:© 2023 中国地质图书馆 中国地质调查局地学文献中心