InhaltsangabePreface. State-of-The-Art Technology for Data Storage and Dissemination; T.K. Ahern. Structure Instrumentation in the California Strong Motion Instrumentation Program; M.J. Huang, A.F. Shakal. Learning from Seismic Response of Instrumented Buildings During the 1994 Northridge Earthquake; F. Naeim. New Developments in Health Monitoring for Civil Structures; R. Nigbor, J. Fort. Experimental Dynamic Analysis of Historic Monuments and Buildings; D. Rinaldis. Utilization of Rapid Post-Earthquake Data by Utilities; W.U. Savage. Analysis of Earthquake Records from Structures: An Overview; E. Safak. Structural Monitoring of Bridges - An Overview; R.T. Severn. Recording and Interpreting Earthquake Response of Full-Scale Structures; M.D. Trifunac, M.I. Todorovska. The U.S. Army Corps of Engineers Seismic Strong-Motion Instrumentation Program; R.F. Ballard, Jr. Integrated Surface and Borehole Strong-Motion, Soil-Response Arrays in San Francisco, California; R.D. Borcherdt, et al. Current and New Trends in Utilization of Data from Instrumented Structures; M. Çelebi. Instrumentation of Dam Structures in Switzerland; G.R. Darbre. Strong Motion Networks: A Tool for the Assessment of Earthquake Response of Historical Monuments; E. Durukal, et al. Wireless Monitoring and Low-Cost Accelerometers For Structures and Urban Sites; J.R. Evans. The Need for Data from Instrumented Structures for an Optimal Control Approach to the Seismic Interaction between Adjacent Buildings; A.A. Liolios. Wireless Sensors For Structural Monitoring; C.R. Liu, et al. Puerto Rico Strong Motion Network and Instrumented Buildings; J.A. Martínez-Cruzado, E.L. Llop-Ramirez. Strong Motion Instrumentations of Dams in Macedonia - Some Experience and Results; V. Mihailov, D. Dojcinovski. An Effective Earthquake Monitoring Process for Emergency Response; Y. Nakamura. Estimation of Dynamic Characteristics of Ground and Structures With Microtremor Measurements &endash; A Supportive Tool for Strong Ground Motion Instrumentation; Y. Nakamura, D.E. Gurler. Strong Motion Instrumentation of Buildings; C.E. Ventura, Y. Ding. Current Status of Strong-Motion Monitoring and Notification at the United States Bureau of Reclamation; C. Wood, et al. Structural Vibration Monitoring System for the Bosporus Suspension Bridges; N. Apaydin, M. Erdik. Soil-Structure-Interaction and Seismic Isolation, an Inter-Disciplinary Investigation at the Multidisciplinary Seismic Test Site Incerc, Bucharest, Romania; M. Baur, et al. GPS in Dynamic Monitoring of Long-Period Structures; M. Çelebi. Real Time Large Structure Monitoring Using the Inclination Sensor; R.N. Celik. Monitoring Deformation on Karasu Viaduct Using GPS & Precise Leveling Techniques; R.N. Celik, et al. Seismic Monitoring of Nuclear Plants: An Approach to Optimal and More Accurate Seismic Data Processing and Interpretation Procedure; D.M. Dojcinovski, et al. Analysis of Data From Strong Motion Network in Fraser Delta, British Columbia, Canada; W.D.L. Finn, et al. On Identification of Damage in Structures Via Wave Travel Times; S.S. Ivanovic, et al. Earthquake Motion Observation In and Around 8-Story SRC Building; T. Kashima, et al. Instrumentation, Measurements and Numerical Analysis of Bridges: An Example of the Cable-Stayed Bridge on Evripos Channel, Greece; V.A. Lekidis, et al. Damage Detection in Semi-Rigid Joint, RC Frames Subjected to Strong Motion Excitation; J. Leonov. Assessment of Seismic Hazard in Romania Based on 25 Years of Strong Ground Motion Instrumentation; D. Lungu, et al. Measure