MARC信息
| 字段 | 字段内容 |
| 001 | 02h0201146 |
| 003 | OCoLC |
| 005 | 20221018103105.0 |
| 008 | 221018s2018 sz a frb |011|||eng d |
| 020 | $a: 9783319768540 $q: harcover : $c: CNY975.53 |
| 020 | $a: 3319768549 $q: harcover |
| 020 | $z: 9783319768557 $q: electronic bk. |
| 020 | $z: 3319768557 $q: electronic bk. |
| 035 | $a: (OCoLC)1041937811 $z: (OCoLC)1046546673 $z: (OCoLC)1047694109 |
| 040 | $a: N$T $b: eng $e: rda $e: pn $c: N$T $d: N$T $d: GW5XE $d: EBLCP $d: OCLCF $d: UAB $d: OCLCA $d: DKU $d: UPM $d: CNNGL |
| 043 | $a: a-ii--- |
| 050 | $a: TA654.6 |
| 082 | $a: 624.1/762 $2: 23 |
| 092 | $a: 263.7 |
| 093 | $a: P315 $2: 5 |
| 245 | $a: Advances in Indian earthquake engineering and seismology : $b: contributions in honour of Jai Krishna / $c: edited by M.L. Sharma, Manish Shrikhande, H.R. Wason. |
| 264 | $a: Cham, Switzerland : $b: Springer, $c: 2018. |
| 300 | $a: 472 pages : $b: illustrations ; $c: 24 cm |
| 336 | $a: text $b: txt $2: rdacontent |
| 337 | $a: unmediated $b: n $2: rdamedia |
| 338 | $a: volume $b: nc $2: rdacarrier |
| 504 | $a: Includes bibliographical references and index. |
| 505 | $a: Intro; Preface; Prologue 1: Jai Krishna; 1 Preamble; 2 Family Background and Early Education; 3 Higher Education and Career; 4 Scientific Contributions; 5 Professional Contributions; 6 Association with National and International Bodies; 7 Prizes, Awards and Honours; 8 Extracurricular Activities; 9 Motivation to Colleagues; 10 On Personal Side; 11 Last Days; 12 Conclusion; 13 Acknowledgments; Papers Published; Prologue 2: ISET Growth and Contributions During Last 50 Years; 1 Preamble; 2 Aims and Objectives of the Society; 3 ISET Journal; 4 Membership; 5 ISET Local Chapters. |
| 505 | $a: 6 ISET Annual Lectures7 ISET Awards; 8 Organization of Symposia/Workshops in Liaison with the Department of Earthquake Engineering, IITR; 9 Liaison with the International Association for Earthquake Engineering (IAEE); 10 National Role; 11 Annexure I; 12 Annexure II; 13 Annexure III; Contents; Part I: Engineering Seismology; Chapter 1: Engineering Seismology; 1 Introduction; 2 Engineering Seismology-Basics; 3 Seismic Hazard Assessment; 4 Deterministic Seismic Hazard Assessment; 5 Probabilistic Seismic Hazard Assessment; 6 Local Site Characterization; 7 Strong Ground Motion. |
| 505 | $a: 8 Prediction of Strong Ground Motion9 Strong Ground Motion Synthetics; 10 Conclusions; References; Chapter 2: Instrumentation Seismology in India; 1 Introduction; 2 Instrumental Seismology; 2.1 Seismic Sensors; 2.2 Recorder; 2.3 Communication; 3 Seismic Network; 4 Physical Seismic Network in India; 4.1 Network Configuration; 4.1.1 Field Stations; 4.1.2 Central Receiving Station (CRS); 4.1.3 Autolocation Software (SeisComP3); 5 Virtual Seismic Network; References; Chapter 3: Strong-Motion Instrumentation: Current Status and Future Scenario; 1 Introduction; 2 Strong-Motion Accelerographs. |
| 505 | $a: 2.1 Sensor2.2 Recorder; 2.3 Communication; 2.4 Processing of Data; 3 Use of Strong-Motion Data; 3.1 Ground Motion Records; 3.2 Records of Structural Response; 4 Historical Background in Indian Context; 5 Current Status of Strong-Motion Program in India; 5.1 Indian National Strong-Motion Instrumentation Network; 5.2 Networking; 5.3 Instruments; 5.4 Performance; 5.5 Processing of Records; 6 Concluding Remarks; References; Chapter 4: Regression Relations for Magnitude Conversion for the Indian Region; 1 Introduction; 2 Earthquake Catalogs for the Indian Region; 3 Regression Procedures. |
| 505 | $a: 4 Measurement Errors in Different Magnitude Types5 Magnitude Conversion Relations; 5.1 Surface Wave Magnitude to Moment Magnitude (Ms/Mw); 5.2 Body Wave Magnitude to Moment Magnitude (mb/Mw); 5.2.1 SR Relations; 5.2.2 GOR Relations; 5.2.3 Regression Relations for Northeast India Region; 5.3 Local Magnitude to Moment Magnitude (ML/Mw); 5.4 Intensity to Moment Magnitude (Imax/Mw); 6 Conclusions; References; Chapter 5: Tsunami Hazards and Aspects on Design Loads; 1 Introduction; 2 Characteristics of Tsunami; 2.1 Wave Characteristics; 2.2 Wave Transformation. |
| 520 | $a: This edited volume is an up-to-date guide for students, policy makers and engineers on earthquake engineering, including methods and technologies for seismic hazard detection and mitigation. The book was written in honour of the late Professor Jai Krishna, who was a pioneer in teaching and research in the field of earthquake engineering in India during his decades-long work at the University of Roorkee (now the Indian Institute of Technology Roorkee). The book comprehensively covers the historical development of earthquake engineering in India, and uses this background knowledge to address the need for current advances in earthquake engineering, especially in developing countries. After discussing the history and growth of earthquake engineering in India from the past 50 years, the book addresses the present status of earthquake engineering in regards to the seismic resistant designs of bridges, buildings, railways, and other infrastructures. Specific topics include response spectrum superposition methods, design philosophy, system identification approaches, retaining walls, and shallow foundations. Readers will learn about developments in earthquake engineering over the past 50 years, and how new methods and technologies can be applied towards seismic risk and hazard identification and mitigation. |
| 650 | $a: Earthquake engineering $z: India. |
| 650 | $a: Seismology $z: India. |
| 700 | $a: Sharma, M. L., $e: editor. |
| 700 | $a: Shrikhande, Manish, $e: editor. |
| 700 | $a: Wason, H. R., $e: editor. |
| 776 | $i: Printed edition: $z: 9783319768540 |
| 851 | $a: CN $b: 010001 $c: 20221018 |
| 905 | $a: 010001 $b: EB00081150 $f: gt004 $h: 1 $r: CNY975.53 $d: 263.7 $e: Sh2 |
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