Bio


Kiremidjian’s research focuses in two main areas. The first is in earthquake hazard, risk, and resilience modeling. She works on structural component and systems reliability methods; structural damage evaluation models; and regional damage, loss and casualty estimation methods utilizing geographic information and database management systems for portfolios of buildings or spatially distributed lifeline systems assessment with ground motion and structure correlations. Her current research has focused on the development of time dependent hazard and risk models for resilience evaluation of hospitals, schools and financial instruments. In the area of time dependent risk assessment, she has developed models for damage estimation of deteriorating structures in varying environmental conditions.

The second area of research focuses on the design and implementation of wireless sensor networks for health monitoring of structures under every-day loading conditions, and the development of robust and computationally efficient algorithms for structural damage diagnosis following extreme events that can be embedded in wireless sensing units. The damage algorithms utilize modern data science, machine learning and artificial intelligence methods.

Academic Appointments


  • Professor, Civil and Environmental Engineering

Administrative Appointments


  • Co-Director, The John A. Blume Earthquake Engineering Research Center at Stanford (1987 - 1995)
  • Director, The John A. Blume Earthquake Engineering Research Center at Stanford (1995 - 2002)
  • Co-Founder and Chair of the Board, K2 Technologies, Inc. (1994 - 1998)
  • Co-Founder and Chair of the Board, Sensametrics, Inc. (2004 - 2008)

Honors & Awards


  • The Thomas Egleston Medal, Columbia University School of Engineering (2023)
  • Member, National Academy of Engineering (2021)
  • Honorary Memer, Earthquake Engineering Research Institute (2020)
  • The John Fritz Medal, American Association of Engineering Societies (2018)
  • Lifetime Achievement Award, International Workshop on Structural Health Monitoring (2017)
  • Distinguished Member, American Society of Civil Engineers (2014)
  • The Otto Monstead Visiting Professor, Denmark Technical University (2013)
  • Emilio Rosenblueth Distinguished Lecture, Universidad Nacional (2008)
  • The C. Martin Duke Award, American Society of Civil Engineer (2003)
  • Best Paper Award - with Dimitris Pachakis, McLeod Institute of Simulation Science (2002)
  • Award for Excellence in Loss Estimation, Applied Technology Council (1998)
  • Technical Council on Lifeline Earthquake Engineering Distinguished Service Award, American Society of Civil Engineers (1995)
  • Distinguished Educator Award, Society for Women Engineers (1992)
  • Faculty Award for Women, National Science Foundation (1991-1995)
  • School of Engineering Distinguished Advisor Award, Stanford University (1989)

Boards, Advisory Committees, Professional Organizations


  • Member of the Scientific Advisory Board, National Center on Earthquake Engineering Research (1992 - 1996)
  • Member of the Board of Directors, Treasurer, California Universities for Research in Earthquake Engineering (1994 - 1998)
  • Member of the Committee on Building Instrumentation, California Seismic Safety Commission (1996 - 2002)
  • Committee on Stochastic Methods in Structural Engineering, International Association on Structural Safety and Reliability (1996 - Present)
  • Member of the Committee on Assessing the Cost of Natural Disasters, National Academy of Sciences, Board on Natural Disaster (1997 - 1999)
  • Member of the Committee of Visitors for the Civil and Mechanical Engineering, National Science Foundation (1998 - 1999)
  • Member of the Research Board, The Pacific Earthquake Engineering Center (1998 - 2002)
  • Member, Secretary, Vice Chair and Chair, Executive Committee of the Technical Council on Lifeline Earthquake Engineering, American Society of Civil Engineers (1998 - 2003)
  • Member of the Institutional Board of Directors, Pacific Earthquake Engineering Research Center (2000 - 2022)
  • Member of the Committee on the Development of Long-Term Research Agenda for the Network for Earthquake Engineering Simulation (NEES), National Academy of Engineering (2001 - 2004)
  • Member of the External Advisory Board, Mid-America Earthquake Center (2003 - 2008)
  • Member of the Executive Committee of Engineering Mechanics Division, American Society of Civil Engineers (2004 - 2006)
  • Member of the Board of Trustees Committee on Building and Land Development, Stanford University (2005 - 2007)
  • Member of the Board of Directors, Consortium of Universities on Research in Earthquake Engineering (2005 - 2009)
  • Member, Past Vice President, The John and Jene Blume Foundation (2005 - Present)
  • Chair of the Executive Council on Disaster Reduction and Mitigation, American Society of Civil Engineers (2007 - 2011)
  • Member of the National Construction Safety Team Advisory Committee, National Institute on Standards and Technology (2011 - 2016)
  • Member, Infrastructure and Research Policy Committee, American Society of Civil Engineers (2011 - 2022)
  • Chair of the Institutional Board, Pacific Earthquake Engineering Center (2017 - 2020)
  • Past-Chair of the Institutional Board of Directors, Pacific Earthquake Engineering Research Center (2020 - 2022)

Professional Education


  • BA, Queens College of the City University of New York, Physics (1972)
  • BS, Columbia University, Civil Engineering (1972)
  • MS, Stanford University, Structural Engineering (1973)
  • PhD, Stanford University, Structural Engineering (1977)

Patents


  • Allen Cheung, Anne Kiremidjian, Garo Kiremidjian, Pooya Sarabandi. "United States Patent 61/668,989 Prov. Rotation Algorithm for Direct Earthquake Damage Detection", Leland Stanford Junior University, Jul 6, 2013
  • Anne Kiremidjian, Erik Straser, Teresa Meng. "United States Patent 6292108 Modular, Wireless, Structural Monitoring System", Leland Stanford Junior University, Sep 18, 2001
  • Anne Kiremidjian,Mark G. Mollineaux, Ram Rajagopal. "United States Patent S13-076 Prov. Oriented Wireless Structural Health and Seismic Monitoring", Leland Stanford Junior University, Apr 18, 0201

Stanford Advisees


  • Doctoral Dissertation Reader (AC)
    James Bantis
  • Master's Program Advisor
    Dayana Bulatbekova, Emma Conroy, Ammar Hawa, Eunice Jung, David Kim, Pin Li, Yang Shen, Lilla Vigh, Jinzhao Wang

All Publications


  • A Metastructure Approach to Smart and Sustainable Cities The Bridge, Special Issue on Smart Cities Kiremidjian, A. S., Lepech, M. 2023: 7-17
  • Prioritized reconstruction of healthcare facilities after earthquakes based on recovery of emergency services. Risk analysis : an official publication of the Society for Risk Analysis Alisjahbana, I., Ceferino, L., Kiremidjian, A. 2022

    Abstract

    Earthquakes can disrupt the healthcare system heavily, leading to long wait times and many untreated patients for years after the event. Emergency services, in particular, must return to preearthquake functionality as soon as possible such that patients, especially critically injured ones, can be treated promptly. However, reconstruction and restoration of emergency services can take years. Due to limited reconstruction resources, decision-makers cannot reconstruct all hospitals simultaneously. They are typically forced to prioritize the reconstruction order, and this process is often poorly planned. This article models emergency services as an M/M/s queuing system that accounts for prioritized treatment of critical patients and formulates a greedy algorithm to plan for an effective healthcare system reconstruction. The algorithm finds the reconstruction ordering of hospital buildings such that emergency patients have the shortest time to receiving medical care possible. We show our greedy algorithm's good performance for small problem instances, with average deviations from the optimal solution below 16%. Further, we apply our methodology to a case study of Lima, Peru, under a hypothetical M8.0 earthquake. The application demonstrates that compared to typically implemented policies, a policy guided by our formulation results in shorter time to treatment and reduces the number of untreated patients over the course of the reconstruction period by more than a factor of 3 in a worst-case scenario with 70% hospital capacity disruption. Finally, we demonstrate that our formulation can be integrated into risk analysis through Monte Carlo simulations to inform decision-makers of reconstruction plans after futureearthquakes.

    View details for DOI 10.1111/risa.14076

    View details for PubMedID 36470850

  • On the development of data-based damage diagnosis algorithms for structural health monitoring SMART STRUCTURES AND SYSTEMS Kiremidjian, A. S. 2022; 30 (3): 263-271
  • An agent-based financing model for post-earthquake housing recovery: Quantifying recovery inequalities across income groups EARTHQUAKE SPECTRA Alisjahbana, I., Moura-Cook, A., Costa, R., Kiremidjian, A. 2022; 38 (2): 1254-1282
  • Optimizing strategies for post-disaster reconstruction of school systems RELIABILITY ENGINEERING & SYSTEM SAFETY Alisjahbana, I., Graur, A., Lo, I., Kiremidjian, A. 2022; 219
  • On the Development of Data-based Structural Diagnosis Algorithms for Structural Health Monitoring Smart Structures and Systems, An International Journal Kiremidjian, A. S. 2022; 30 (3)
  • On the Development of Data-based Structural Diagnosis Algorithms for Structural Health Monitoring Smart Structures and Systems, An International Journal Kiremidjian, A. A. 2022; 30 (3)
  • Bayesian Parameter Estimation for Space and Time Interacting Earthquake Rupture Model Using Historical and Physics-Based Simulated Earthquake Catalogs BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Ceferino, L., Galvez, P., Ampuero, J., Kiremidjian, A., Deierlein, G., Villegas-Lanza, J. C. 2021; 111 (6): 3356-3373

    View details for DOI 10.1785/0120210013

    View details for Web of Science ID 000722815800002

  • The disaster resilience value of shared rooftop solar systems in residential communities EARTHQUAKE SPECTRA Patel, S., Ceferino, L., Liu, C., Kiremidjian, A., Rajagopal, R. 2021; 37 (4): 2638-2661
  • Performance-Based Engineering Framework to Quantify Micrometeoroid Damage to Lunar Surface Structures JOURNAL OF AEROSPACE ENGINEERING Allende, M., Kiremidjian, A. S., Lepech, M. D., Loftus, D. J. 2021; 34 (5)
  • Modeling housing recovery after the 2018 Lombok earthquakes using a stochastic queuing model EARTHQUAKE SPECTRA Alisjahbana, I., Kiremidjian, A. 2021; 37 (2): 587-611
  • Probabilistic Space- and Time-Interaction Modeling of Mainshock Earthquake Rupture Occurrence BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Ceferino, L., Kiremidjian, A., Deierlein, G. 2020; 110 (5): 2498–2518

    View details for DOI 10.1785/0120180220

    View details for Web of Science ID 000575192300033

  • Effective plans for hospital system response to earthquake emergencies. Nature communications Ceferino, L., Mitrani-Reiser, J., Kiremidjian, A., Deierlein, G., Bambaren, C. 2020; 11 (1): 4325

    Abstract

    Hospital systems play a critical role in treating injuries during disaster emergency responses. Simultaneously, natural disasters hinder their ability to operate at full capacity. Thus, cities must develop strategies that enable hospitals' effective disaster operations. Here, we present a methodology to evaluate emergency response based on a model that assesses the loss of hospital functions and quantifies multiseverity injuries as a result of earthquake damage. The proposed methodology can design effective plans for patient transfers and allocation of ambulances and mobile operating rooms. This methodology is applied to Lima, Peru, subjected to a disaster scenario following a magnitude 8.0 earthquake. Our results show that the spatial distribution of healthcare demands mismatches the post-earthquake capacities of hospitals, leaving large zones on the periphery significantly underserved. This study demonstrates how plans that leverage hospital-system coordination can address this demand-capacity mismatch, reducing waiting times of critically injured patients by factors larger than two.

    View details for DOI 10.1038/s41467-020-18072-w

    View details for PubMedID 32859917

  • Application of vibration-based damage detection algorithms to experimental data from multi-storey steel structures Special Issue of the International Journal of Sustainable Materials and Structural Systems Liao, Y., Balafas, K., Kiremidjian, A., Rajagopal, R., Loh, C. 2020; 4 (2-4)
  • Structural Damage Detection and Localization with Unknown Postdamage Feature Distribution Using Sequential Change-Point Detection Method JOURNAL OF AEROSPACE ENGINEERING Liao, Y., Kiremidjian, A. S., Rajagopal, R., Loh, C. 2019; 32 (2)
  • Regional Multiseverity Casualty Estimation Due to Building Damage Following a Mw 8.8 Earthquake Scenario in Lima, Peru EARTHQUAKE SPECTRA Ceferino, L., Kiremidjian, A., Deierlein, G. 2018; 34 (4): 1739–61
  • Probabilistic Model for Regional Multiseverity Casualty Estimation due to Building Damage Following an Earthquake ASCE-ASME JOURNAL OF RISK AND UNCERTAINTY IN ENGINEERING SYSTEMS PART A-CIVIL ENGINEERING Ceferino, L., Kiremidjian, A., Deierlein, G. 2018; 4 (3)
  • Statistical Modeling of Time Series for Ice Accretion Detection on Bridge Cables JOURNAL OF COLD REGIONS ENGINEERING Andre, J., Kiremidjian, A., Georgakis, C. 2018; 32 (2)
  • The wavelet transform as a Gaussian process for damage detection STRUCTURAL CONTROL & HEALTH MONITORING Balafas, K., Kiremidjian, A. S., Rajagopal, R. 2018; 25 (2)

    View details for DOI 10.1002/stc.2087

    View details for Web of Science ID 000419935700024

  • A Framework and Case Study for Earthquake Vulnerability Assessment of Incrementally Expanding Buildings EARTHQUAKE SPECTRA Lallemant, D., Burton, H., Ceferino, L., Bullock, Z., Kiremidjian, A. 2017; 33 (4): 1369–84
  • Development of time-dependent fragility functions for deteriorating reinforced concrete bridge piers STRUCTURE AND INFRASTRUCTURE ENGINEERING Rao, A. S., Lepech, M. D., Kiremidjian, A. 2017; 13 (1): 67-83
  • Simplified structural deterioration model for reinforced concrete bridge piers under cyclic loading STRUCTURE AND INFRASTRUCTURE ENGINEERING Rao, A. S., Lepech, M. D., Kiremidjian, A. S., Sun, X. 2017; 13 (1): 55-66
  • A Beta Distribution Model for Characterizing Earthquake Damage State Distribution EARTHQUAKE SPECTRA Lallemant, D., Kiremidjian, A. 2015; 31 (3): 1337-1352
  • Statistical procedures for developing earthquake damage fragility curves EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Lallemant, D., Kiremidjian, A., Burton, H. 2015; 44 (9): 1373-1389

    View details for DOI 10.1002/eqe.2522

    View details for Web of Science ID 000356731800003

  • Development of empirical and analytical fragility functions using kernel smoothing methods EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Noh, H. Y., Lallemant, D., Kiremidjian, A. S. 2015; 44 (8): 1163-1180

    View details for DOI 10.1002/eqe.2505

    View details for Web of Science ID 000354730500001

  • Development and validation of a novel earthquake damage estimation scheme based on the continuous wavelet transform of input and output acceleration measurements EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Balafas, K., Kiremidjian, A. S. 2015; 44 (4): 501-522

    View details for DOI 10.1002/eqe.2529

    View details for Web of Science ID 000351176900002

  • Reliability assessment of the rotation algorithm for earthquake damage estimation STRUCTURE AND INFRASTRUCTURE ENGINEERING Balafas, K., Kiremidjian, A. S. 2015; 11 (1): 51-62
  • Development of a Rotation Algorithm for Earthquake Damage Diagnosis EARTHQUAKE SPECTRA Cheung, A., Kiremidjian, A. S. 2014; 30 (4): 1381-1401
  • Sequential structural damage diagnosis algorithm using a change point detection method JOURNAL OF SOUND AND VIBRATION Noh, H., Rajagopal, R., Kiremidjian, A. S. 2013; 332 (24): 6419-6433
  • A wavelet-based damage diagnosis algorithm using principal component analysis STRUCTURAL CONTROL & HEALTH MONITORING Kesavan, K. N., Kiremidjian, A. S. 2012; 19 (8): 672-685

    View details for DOI 10.1002/stc.462

    View details for Web of Science ID 000312553100004

  • Development of fragility functions as a damage classification/prediction method for steel moment-resisting frames using a wavelet-based damage sensitive feature EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Noh, H. Y., Lignos, D. G., Nair, K. K., Kiremidjian, A. S. 2012; 41 (4): 681-696

    View details for DOI 10.1002/eqe.1151

    View details for Web of Science ID 000301430900006

  • Use of Wavelet-Based Damage-Sensitive Features for Structural Damage Diagnosis Using Strong Motion Data JOURNAL OF STRUCTURAL ENGINEERING-ASCE Noh, H. Y., Nair, K. K., Lignos, D. G., Kiremidjian, A. S. 2011; 137 (10): 1215-1228
  • Implementation of a bio-inspired two-mode structural health monitoring system SMART STRUCTURES AND SYSTEMS Lin, T., Yu, L., Ku, C., Chang, K., Kiremidjian, A. 2011; 8 (1): 119-137
  • A wireless structural monitoring system with embedded damage algorithms and decision support system STRUCTURE AND INFRASTRUCTURE ENGINEERING Kiremidjian, A. S., Kiremidjian, G., Sarabandi, P. 2011; 7 (12): 881-894
  • A bio-inspired structural health monitoring system based on ambient vibration SMART MATERIALS AND STRUCTURES Lin, T., Kiremidjian, A., Lei, C. 2010; 19 (11)
  • Highway Network Retrofit under Seismic Hazard JOURNAL OF INFRASTRUCTURE SYSTEMS Fan, Y., Liu, C., Lee, R., Kiremidjian, A. S. 2010; 16 (3): 181-187
  • Risk assessment of transportation systems with network functionality losses STRUCTURE AND INFRASTRUCTURE ENGINEERING Stergiou, E. C., Kiremidjian, A. S. 2010; 6 (1-2): 111-125
  • Derivation of a Damage Sensitive Feature Using the Haar Wavelet Transform JOURNAL OF APPLIED MECHANICS-TRANSACTIONS OF THE ASME Nair, K. K., Kiremidjian, A. S. 2009; 76 (6)

    View details for DOI 10.1115/1.3130821

    View details for Web of Science ID 000268439700015

  • The application of statistical pattern recognition methods for damage detection to field data SMART MATERIALS & STRUCTURES Cheung, A., Cabrera, C., Sarabandi, P., Nair, K. K., Kiremidjian, A., Wenzel, H. 2008; 17 (6)
  • Uncertainty and correlation for loss assessment of spatially distributed systems EARTHQUAKE SPECTRA Lee, R., Kiremidjian, A. S. 2007; 23 (4): 753-770

    View details for DOI 10.1193/1.2791001

    View details for Web of Science ID 000250981900002

  • Seismic risk assessment of transportation network systems JOURNAL OF EARTHQUAKE ENGINEERING Kiremidjian, A., Moore, J., Fan, Y. Y., Yazlali, O., Basoz, N., Williams, M. 2007; 11 (3): 371-382
  • Time series based structural damage detection algorithm using Gaussian mixtures modeling JOURNAL OF DYNAMIC SYSTEMS MEASUREMENT AND CONTROL-TRANSACTIONS OF THE ASME Nair, K. K., Kiremidjian, A. S. 2007; 129 (3): 285-293

    View details for DOI 10.1115/1.2718241

    View details for Web of Science ID 000247057300005

  • Time series-based damage detection and localization algorithm with application to the ASCE benchmark structure JOURNAL OF SOUND AND VIBRATION Nair, K. K., Kiremidjian, A. S., Law, K. H. 2006; 291 (1-2): 349-368
  • Algorithms for time synchronization of wireless structural monitoring sensors EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Lei, Y., Kiremidjian, A. S., Nair, K. K., Lynch, J. P., Law, K. H. 2005; 34 (6): 555-573

    View details for DOI 10.1002/eqe.432

    View details for Web of Science ID 000228914300002

  • Embedding damage detection algorithms in a wireless sensing unit for operational power efficiency SMART MATERIALS AND STRUCTURES Lynch, J. P., Sundararajan, A., Law, K. H., Kiremidjian, A. S., Carryer, E. 2004; 13 (4): 800-810
  • Estimation of downtime-related revenue losses in seaports following scenario earthquakes EARTHQUAKE SPECTRA Pachakis, D., Kiremidjian, A. S. 2004; 20 (2): 427-449

    View details for DOI 10.1193/1.1705655

    View details for Web of Science ID 000230959900008

  • Design and performance validation of a wireless sensing unit for structural monitoring applications United States-Korea Workshop on Smart Infrastructural Systems Lynch, J. P., Law, K. H., Kiremidjian, A. S., Carryer, E., Farrar, C. R., Sohn, H., Allen, D. W., Nadler, B., Wait, J. R. TECHNO-PRESS. 2004: 393–408
  • Ship traffic Modeling methodology for ports JOURNAL OF WATERWAY PORT COASTAL AND OCEAN ENGINEERING-ASCE Pachakis, D., Kiremidjian, A. S. 2003; 129 (5): 193-202
  • Design of piezoresistive MEMS-based accelerometer for integration with wireless sensing unit for structural monitoring JOURNAL OF AEROSPACE ENGINEERING Lynch, J. P., Partridge, A., Law, K. H., Kenny, T. W., Kiremidjian, A. S., Carryer, E. 2003; 16 (3): 108-114
  • Simulation of the Fourier phase spectrum for the generation of synthetic accelerograms JOURNAL OF EARTHQUAKE ENGINEERING Montaldo, V., Kiremidjian, A. S., Thrainsson, H., Zonno, G. 2003; 7 (3): 427-445
  • Embedment of structural monitoring algorithms in a wireless sensing unit STRUCTURAL ENGINEERING AND MECHANICS Lynch, J. P., Sundararajan, A., Law, K. H., Kiremidjian, A. S., Kenny, T., Carryer, E. 2003; 15 (3): 285-297
  • Time synchronization algorithms for wireless monitoring system Smart Structures and Materials 2003 Conference Lei, Y., Kiremidjian, A. S., Nair, K. K., Lynch, J. P., Law, K. H. SPIE-INT SOC OPTICAL ENGINEERING. 2003: 308–317
  • Power-efficient wireless structural monitoring with local data processing 1st International Conference on Structural Health Monitoring and Intelligent Infrastructure Lynch, J. P., Sundararajan, A., Law, K. H., Kiremidjian, A. S., Carryer, E. A A BALKEMA PUBLISHERS. 2003: 331–338
  • Two-tiered wireless sensor network architecture for structural health monitoring Smart Structures and Materials 2003 Conference Kottapalli, V. A., Kiremidjian, A. S., Lynch, J. P., Carryer, E., Kenny, T. W., Law, K. H., Lei, Y. SPIE-INT SOC OPTICAL ENGINEERING. 2003: 8–19
  • Field validation of a wireless structural monitoring system on the Alamosa Canyon Bridge Smart Structures and Materials 2003 Conference Lynch, J. P., Sundararajan, A., Law, K. H., Kiremidjian, A. S., Carryer, E., Sohn, H., Farrar, C. R. SPIE-INT SOC OPTICAL ENGINEERING. 2003: 267–278
  • Simulation of digital earthquake accelerograms using the inverse discrete Fourier transform EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Thrainsson, H., Kiremidjian, A. S. 2002; 31 (12): 2023-2048

    View details for DOI 10.1002/eqe.198

    View details for Web of Science ID 000179477400001

  • A wireless modular monitoring system for civil structures 20th IMAC Conference on Structural Dynamics Lynch, J. P., Law, K. H., Kiremidjian, A. S., Kenny, T., Carryer, E. SOC EXPERIMENTAL MECHANICS INC. 2002: 1–6
  • Validation of a wireless modular monitoring system for structures Smart Structures and Materials 2002 Conference Lynch, J. P., Law, K. H., Kiremidjian, A. S., Carryer, E., Kenny, T. W., Partridge, A., Sundararajan, A. SPIE-INT SOC OPTICAL ENGINEERING. 2002: 124–135
  • An experimental study of temperature effect on modal parameters of the Alamosa Canyon Bridge EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Sohn, H., Dzwonczyk, M., Straser, E. G., Kiremidjian, A. S., Law, K. H., Meng, T. 1999; 28 (8): 879-897
  • Bayesian updating of fragilities with application to RC frames JOURNAL OF STRUCTURAL ENGINEERING-ASCE Singhal, A., Kiremidjian, A. S. 1998; 124 (8): 922-929
  • Method for probabilistic evaluation of seismic structural damage JOURNAL OF STRUCTURAL ENGINEERING-ASCE Singhal, A., Kiremidjian, A. S. 1996; 122 (12): 1459-1467
  • Shake, rattle and map CIVIL ENGINEERING King, S. A., Kiremidjian, A. S. 1996; 66 (6): 50-52
  • A STOCHASTIC-MODEL FOR SPATIALLY AND TEMPORALLY DEPENDENT EARTHQUAKES BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Lutz, K. A., Kiremidjian, A. S. 1995; 85 (4): 1177-1189
  • STATISTICAL PARAMETERS OF AM AND PSD FUNCTIONS FOR THE GENERATION OF SITE-SPECIFIC STRONG GROUND MOTIONS 10TH WORLD CONF ON EARTHQUAKE ENGINEERING ( 10 WCEE ) Tung, A. T., Kiremidjian, A. S., Wang, J. N., Kavazanjian, E. A A BALKEMA. 1992: 867–872
  • MODELING NONLINEAR GROUND MOTION AMPLIFICATION FACTOR BY LOCAL SOIL PARAMETERS 10TH WORLD CONF ON EARTHQUAKE ENGINEERING ( 10 WCEE ) Sugito, M., King, S., Kiremidjian, A. S., Shah, H. C. A A BALKEMA. 1992: 1015–1018
  • A STOCHASTIC GROUND MOTION MODEL WITH GEOPHYSICAL CONSIDERATION 10TH WORLD CONF ON EARTHQUAKE ENGINEERING ( 10 WCEE ) Suzuki, S., Kiremidjian, A. S. A A BALKEMA. 1992: 879–884
  • A RANDOM SLIP RATE MODEL FOR EARTHQUAKE OCCURRENCES WITH BAYESIAN PARAMETERS BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Suzuki, S., Kiremidjian, A. S. 1991; 81 (3): 781-795
  • SEISMIC RELIABILITY-ANALYSIS OF ELEVATED LIQUID-STORAGE VESSELS JOURNAL OF STRUCTURAL ENGINEERING-ASCE Tung, A. T., Kiremidjian, A. S. 1991; 117 (5): 1372-1392
  • A NEW AMPLITUDE-MODULATING FUNCTION AND ITS STATISTICAL PARAMETERS FOR SEISMIC GROUND MOTION SIMULATION 3RD US CONF ON LIFELINE EARTHQUAKE ENGINEERING Tung, A. T., Wang, J. N., Kiremidjian, A. S. AMER SOC CIVIL ENGINEERS. 1991: 937–946
  • ROLE OF ENERGY-ABSORPTION IN RELIABILITY OF TALL COLUMNS - CLOSURE JOURNAL OF STRUCTURAL ENGINEERING-ASCE Nielsen, R. J., Kiremidjian, A. S., BURKE, B. G. 1990; 116 (2): 554-555
  • A SEMI-MARKOVIAN MODEL FOR LOW-CYCLE ELASTIC-PLASTIC FATIGUE CRACK-GROWTH ENGINEERING FRACTURE MECHANICS ALSUGAIR, F. H., Kiremidjian, A. S. 1989; 34 (5-6): 1197-1207
  • A RANDOM STRAIN ACCUMULATION MODEL FOR EARTHQUAKE OCCURRENCES WITH BAYESIAN PARAMETERS 4TH INTERNATIONAL CONF ON SOIL DYNAMICS AND EARTHQUAKE ENGINEERING Kiremidjian, A. S., Suzuki, S., AHRENS, K. COMPUTATIONAL MECHANICS PUBLICATIONS LTD. 1989: 169–178
  • TALL COLUMN RELIABILITY UNDER NONSTATIONARY LOADS - MODEL APPLICATION JOURNAL OF ENGINEERING MECHANICS-ASCE Nielsen, R. J., Kiremidjian, A. S. 1988; 114 (7): 1129-1143
  • TALL COLUMN RELIABILITY UNDER NONSTATIONARY LOADS - MODEL FORMULATION JOURNAL OF ENGINEERING MECHANICS-ASCE Nielsen, R. J., Kiremidjian, A. S. 1988; 114 (7): 1107-1128
  • ROLE OF ENERGY-ABSORPTION IN RELIABILITY OF TALL COLUMNS JOURNAL OF STRUCTURAL ENGINEERING-ASCE Nielsen, R. J., Kiremidjian, A. S., BURKE, B. G. 1988; 114 (5): 1038-1056
  • STOCHASTIC MODELING OF FATIGUE CRACK-GROWTH ENGINEERING FRACTURE MECHANICS Ortiz, K., Kiremidjian, A. S. 1988; 29 (3): 317-334
  • A STOCHASTIC-MODEL FOR SITE GROUND MOTIONS FROM TEMPORALLY DEPENDENT EARTHQUAKES BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Kiremidjian, A. S., Suzuki, S. 1987; 77 (4): 1110-1126
  • A STOCHASTIC-MODEL FOR FATIGUE CRACK-GROWTH RATE DATA JOURNAL OF ENGINEERING FOR INDUSTRY-TRANSACTIONS OF THE ASME Ortiz, K., Kiremidjian, A. S. 1987; 109 (1): 13-18
  • TIME-SERIES ANALYSIS OF FATIGUE CRACK-GROWTH RATE DATA ENGINEERING FRACTURE MECHANICS Ortiz, K., Kiremidjian, A. S. 1986; 24 (5): 657-675
  • SUBJECTIVE PROBABILITIES FOR EARTHQUAKE DAMAGE AND LOSS STRUCTURAL SAFETY Kiremidjian, A. S. 1985; 2 (4): 309-317
  • STOCHASTIC SLIP-PREDICTABLE MODEL FOR EARTHQUAKE OCCURRENCES BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA Kiremidjian, A. S., Anagnos, T. 1984; 74 (2): 739-755
  • RELIABILITY OF STRUCTURES SUBJECTED TO DIFFERENTIAL FAULT SLIP EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS Kiremidjian, A. S. 1984; 12 (5): 603-618
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