TY - JOUR A1 - Sýkora, Miroslav A1 - Diamantidis, Dimitris A1 - Holicky, Milan A1 - Jung, Karel T1 - Target reliability for existing structures considering economic and societal aspects JF - Structure and infrastructure engineering N2 - Specification of target reliability levels is one of the key issues of the assessment of existing structures. ISO 13822:2010 and ISO 2394:2015 indicate procedures for specification of target reliability levels by optimisation of the total cost related to an assumed remaining working life of a structure. These approaches are critically compared with human safety criteria, with target levels based on a marginal life-saving costs principle, and with recommendations of present standards. Optimal target reliability levels are then derived in the representative case study for an existing structural member. It appears that the requirement to reach the same target reliability levels for existing and new structures is uneconomical. Decisions made in the assessment can result in the acceptance of the actual state or in the upgrade of an existing structure. Two reliability levels are thus needed - the minimum level below which the structure is unreliable and should be upgraded, and the target level indicating an optimum upgrade strategy. It is recommended that these levels be established using economic optimisation and the marginal life-saving costs principle, as both the approaches take into account the costs of safety measures and the failure consequences. KW - design KW - Economic optimisation KW - existing structures KW - human safety KW - Life Quality Index KW - Optimization KW - target reliability, *GuI Y1 - 2017 U6 - https://doi.org/10.1080/15732479.2016.1198394 VL - 13 IS - 1 SP - 181 EP - 194 PB - Taylor&Francis ER - TY - JOUR A1 - Sýkora, Miroslav A1 - Holický, Milan A1 - Diamantidis, Dimitris T1 - Probabilistic updating in the reliability assessment of industrial heritage structures JF - Heron N2 - Assessment of existing structures should be based on the actual as-built conditions concerning geometry, material properties, loading and environmental conditions. A crucial step of the assessment consists in updating of prior information by newly obtained measurements which may be conducted by Bayesian approach. Updating of probabilistic distributions of basic variables or direct updating of failure probability can be effectively used. Application of theoretical principles is illustrated by a case study of a historic factory built in 1900s. The paper is a tribute to Ton Vrouwenvelder for his essential contributions to developments of theory and promotion of practical applications of probabilistic assessment of existing structures. Y1 - 2016 UR - http://www.heronjournal.nl/59-23/1.pdf SN - 0046-7316 VL - 59 IS - 2/3 PB - Stevin-Laboratorium, TU Delft CY - Delft ER - TY - JOUR A1 - Steenbergen, R.D.J.M. A1 - Sýkora, Miroslav A1 - Diamantidis, Dimitris A1 - Holický, Milan A1 - Vrouwenvelder, A.C.W.M. T1 - Economic and human safety reliability levels for existing structures JF - Structural Concrete. JOurnal of the fib N2 - Specifying the target reliability levels is one of the key issues in the assessment of existing structures. For a majority of existing buildings and infrastructures, the design life has been reached or will be reached in the near future. These structures need to be reassessed in order to verify their safety. Eurocodes provide a general basis primarily intended for the design of new structures, but the basic principles can be used for assessing existing buildings, too. Reliability levels are generally based on both economic optimization and criteria for human safety. In this study, both methods are elaborated for existing structures. It appears that the requirement for the same target reliability for existing and new structures is uneconomical. Further, cost optimization seems to yield rather low reliability levels and human safety criteria often become the critical factor. The study concludes with practical guidelines for establishing reliability indices for existing structures linked to Eurocode principles. Y1 - 2015 U6 - https://doi.org/10.1002/suco.201500022 VL - 16 SP - 323 EP - 332 PB - Wiley ER - TY - BOOK A1 - Tanner, Peter A1 - de Diego, Ana A1 - Lara Sarache, Carlos A1 - Prieto, Miguel A1 - Hingorani, Ramón A1 - Holický, Milan A1 - Sýkora, Miroslav A1 - Diamantidis, Dimitris A1 - Menéndez Ondina, Antonio A1 - Croce, Pietro A1 - Bartelletti, Raffaello A1 - Beconcini, Maria Luisa A1 - Formichi, Paolo A1 - Marsili, Francesca A1 - Muzzi, Martina A1 - Rosso, Elisa A1 - Toprak, Selcuk A1 - Inel, Mehmet A1 - Koc, Cem A1 - Nacaroglu, Engin A1 - Senel, Sevket Murat T1 - Operational methods for the assessment and management of aging infrastructure N2 - The Leonardo da Vinci Project, “Innovation Transfer in Risk Assessment and Management of Aging Infrastructures”, CZ/13/LLP-LdV/TOI/134014, addresses the urgent need to train students, young engineers and professionals in the assessment of existing infrastructures. The future of the construction industry lies in moving from new constructions towards the maintenance, repair and rehabilitation of existing structures, particularly of aging infrastructures. Risk management consisting of risk assessment and risk control of existing structure therefore plays thereby an important role. The assessment of existing infrastructures is an imperative issue of great economic significance in most countries around the world, as more than 50 % of all construction activities concerns existing buildings, bridges and other civil engineering works. At present, the Eurocodes which will be used in all CEN Member countries are primarily focused on the design of new structures. Additional operational rules for existing structures are still missing. The international standard ISO 13822 provides only general principles for the assessment of existing structures which should be further developed for their effective operational use in practice. The overall procedure of risk management of aging infrastructures is therefore an urgent issue of great economic significance in most countries around the world. This is primarily caused due to the fact that many infrastructures are affected by action effects, fatigue and environmental influences, and inevitably deteriorate. Moreover, available resources for the maintenance, repair or possible replacement of infrastructures are always limited. Typical questions and problems which must be solved in this context can be summarized as follows: • What is the current state of a particular infrastructure? • What is an acceptable level of the relevant risk? • Which aspects are critical to sustainable performance? • What is the optimum life-cycle cost? • What is the best long-term funding strategy? The proposed project highlights the above problems and focusses also on vocational training in risk management and assessment of aging infrastructure in the partner countries (CZ, DE, ES, IT and TR). The current project addresses the urgent need for practical implementation of principles of the management and risk assessment of existing infrastructures in all the partner countries. The project is supported by the Czech Chamber of Chartered Engineers (ČKAIT). The project consortium, under the leadership of the Klokner Institute of the Czech Technical University in Prague (KI CTU), consists of five other partners, including research institutions and universities from three EU Member States (DE, ES, IT) as well as one associated country (TR), and also the Secondary Technical School of Civil Engineering in Ceske Budejovice (CZ). All researchers within the partnership are involved in research projects dealing with reliability assessment of existing structures. They participate in the national and international standardization activities within the international organizations CEN (European Committee for Standardisation) and ISO (International Standardization Organisation). The project outcomes consist of vocational training materials based on international research and relevant standard committee’s activities, and on the significant experience gained from case studies, and on selected results obtained from the previous projects of the Leonardo da Vinci programme. In particular, the experience gained by the partners of the present consortium from the completed project on vocational training related to assessment of existing structures is utilized. Available innovations are transferred to undergraduate and graduate students, practising engineers and local government representatives. The developed training materials are of practical use in offering illustrative examples and several case studies. All the project outcomes are based on documents of the international research organization, Joint Committee on Structural Safety JCSS and international research projects, selected outcomes of the previous project of the Leonardo da Vinci programme (developed by five partners of the present consortium in 2013-2015) and also on background documents to the new European and international standards. Particular outcomes of the proposed project include practical handbooks, software tools, web-sites, e-learning, courses and seminars organized in the partners´ home countries. The project outcomes will also be offered to other European countries through code committees work, lectures and the project web-sites. It is foreseen that the outcomes being used by engineers, designers, technicians, and representatives of public authorities involved in planning and management will have an impact on the risk-based management of infrastructures. One of the important project outcomes is the present Handbook 2 “Operational Methods for the Assessment and Management of Aging Infrastructure”, which is focussed on operational techniques for the assessment of aging infrastructures supplemented by illustrative case studies developed according to ISO 13822 and Eurocodes for different structures and materials. From the mentioned project also result Handbook 1, where general procedures of risk-management and assessment of aging infrastructures are presented, and Handbook 3, where operational techniques for the assessment of aging infrastructures supplemented by illustrative case studies are presented with a more basic approach. Handbook 2 consists of eleven chapters. Chapter 1 gives a brief introduction. Chapter 2 summarizes current applicable standards and codes for existing structures. Chapter 3 reviews survey methods. The remaining chapters are devoted to the illustration of relevant case studies, referring to the assessment of different existing infrastructures. In particular, chapter 4 refers to a commercial building, chapter 5 to a r.c. building damaged by corrosion, chapter 6 to silos, chapter 7 to pipelines and water supply systems, chapter 8 to tanks, chapter 9 to historical aqueducts, chapter 10 to bridges and chapter 11 to dams and flood protection systems. In each case studies the entire procedure of the assessment is illustrated step by step emphasizing references to relevant Codes and in particular to ISO 13822. It is believed that the material of this handbook is presented in an understandable way, referring to several case studies. A number of references mentioned in each chapter provide additional background materials, further guidance and information useful to widen the significance and the field of application of the assessment methods illustrated for each case study. Pisa and Prague, 2015 Y1 - 2015 SN - 9788882501471 PB - Tipografía editrice Pisana CY - Pisa, Italia ER - TY - CHAP A1 - Diamantidis, Dimitris A1 - Holický, Milan A1 - Sýkora, Miroslav T1 - Risk and reliability acceptance criteria for civil engineering structures T2 - Structural Reliability and Modelling in Mechanics Conference, Ostrava, Czech Republic, May 2016 N2 - The specification of risk and reliability acceptance criteria is a key issue of structural design and verification of existing structures. Current target reliability levels in standards appear to have considerable scatter. Critical review of risk acceptance approaches to societal, economic and environmental risk indicates that an optimal design strategy is mostly dominated by economic aspects while human safety aspects need to be verified only in special cases. It is recommended to specify the target levels considering economic optimisation and the marginal life-saving costs principle, as both these approaches take into account the failure consequences and costs of safety measures. Y1 - 2016 SP - 1 EP - 10 ER - TY - CHAP A1 - Diamantidis, Dimitris A1 - Sýkora, Miroslav A1 - Barnardo-Viljoen, Celeste A1 - Retief, Johan Verster A1 - Rózsás, Árpád ED - Bakker, Jaap ED - Frangopol, Dan M. ED - Van Breugel, Klaas T1 - On Risk-Based Design of Structures Exposed to Changing Climatic Actions T2 - Life-Cycle of Engineering Systems : Emphasis on Sustainable Civil Infrastructure ; The Fifth International Symposium on Life-Cycle Civil Engineering (IALCCE 2016) 16-20 October 2016, Delft, The Netherlands Y1 - 2016 SN - 978-1-138-02847-0 SN - 978-1-315-37517-5 PB - Taylor & Francis CY - London ; Boca Raton ER - TY - CHAP A1 - Sýkora, Miroslav A1 - Holický, Milan A1 - Jung, Karel A1 - Diamantidis, Dimitris ED - Akiyama, Mitsuyoshi ED - Furuta, Hitoshi ED - Frangopol, Dan M. T1 - Target reliability levels for assessment of existing structures considering economic and societal aspects T2 - Life-Cycle of Structural Systems N2 - Specification of the target reliability levels is one of the key issues of the assessment of existing structures. ISO 13822:2010 and ISO 2394:1998 indicate procedures for deriving the target reliability levels by optimisation of the total cost related to an assumed remaining working life of a structure. In the submitted study this approach is applied to estimate the target reliability levels of an existing structural member in conjunction with the human safety criteria. Obtained results are critically compared with the recommendations given in present standards. It appears that the requirement on the same target reliability levels for existing structures as for new structures is uneconomical. Further, the cost optimisation seems to yield rather low reliability levels and human safety criteria become commonly decisive for specification of the target reliabilities of existing structures. Y1 - 2014 SN - 9780429227196 U6 - https://doi.org/10.1201/b17618-121 SP - 838 EP - 845 PB - CRC Press CY - London ER - TY - CHAP A1 - Sýkora, Miroslav A1 - Diamantidis, Dimitris A1 - Marková, Jana A1 - Masciotta, Maria Giovanna ED - Baričević, Ana ED - Jelčić Rukavina, Marija ED - Damjanović, Domagoi ED - Guadagnini, Maurizio T1 - Optimizing in-situ testing for historic masonry structures: a case study BT - a case study T2 - International Conference on Sustainable Materials, Systems and Structures (SMSS 2019) : Durability, Monitoring and Repair of Structures, 20-22 March 2019, Rovinj, Croatia Y1 - 2019 UR - http://toc.proceedings.com/50441webtoc.pdf SN - 978-1-5108-9296-5 SP - 684 EP - 691 PB - RILEM Publications ER - TY - JOUR A1 - Orcesi, André A1 - O'Connor, Alan A1 - Diamantidis, Dimitris A1 - Sýkora, Miroslav A1 - Wu, Teng A1 - Akiyama, Mitsuyoshi A1 - Alhamid, Abdul Kadir A1 - Schmidt, Franziska A1 - Pregnolato, Maria A1 - Li, Yue A1 - Salarieh, Babak A1 - Salman, Abdullahi M. A1 - Bastidas-Arteaga, Emilio A1 - Markogiannaki, Olga A1 - Schoefs, Franck T1 - Investigating the Effects of Climate Change on Structural Actions JF - Structural Engineering International N2 - The changing climate with resulting more extreme weather events will likely impact infrastructure assets and services. This phenomenon can present direct threats to the assets as well as significant indirect effects for those relying on the services those assets deliver. Such threats are path-dependent and place-specific, as they strongly depend on current and future climate variability, location, asset design life, function and condition. One key question is how climate change is likely to increase both the probability and magnitude of extreme weather events under different scenarios of climate change. To address this issue, this paper investigates selected effects of climate change and their consequences on structural performance, in the context of evolving loading scenarios in three different continental regions: Europe, North America, and Asia. The aim is to investigate some main place-specific changes of the exposure in terms of intensity/frequency of extreme events as well as the associated challenges, considering some recent activities of members of the IABSE TG6.1. Climate change can significantly affect built infrastructure and the society by increasing the occurrence and magnitude of extreme events and increasing potential losses. Therefore, specific relationships relating hazard levels and structural vulnerability to climate change effects should be determined. KW - climate change KW - extreme weather events KW - flooding KW - hurricanes KW - scour KW - sea-level rise KW - tsunami Y1 - 2022 U6 - https://doi.org/10.1080/10168664.2022.2098894 VL - 32 IS - 4 SP - 1 EP - 14 PB - Taylor & Francis ER - TY - JOUR A1 - Orcesi, André A1 - Diamantidis, Dimitris A1 - O’Connor, Alan A1 - Palmisano, Fabrizio A1 - Sýkora, Miroslav A1 - Boros, Vazul A1 - Caspeele, Robby A1 - Chateauneuf, Alaa A1 - Mandić Ivanković, Ana A1 - Lenner, Roman A1 - Kušter Marić, Marija A1 - Nadolski, Vitali A1 - Schmidt, Franziska A1 - Skokandić, Dominik A1 - van der Spuy, Pierre T1 - Investigating Partial Factors for the Assessment of Existing Reinforced Concrete Bridges JF - Structural Engineering International N2 - There is great interest in developing an adequate partial factor format for the assessment of existing structures, and in particular bridges, that should be able to take various aspects into account linked to the fact that the structure already exists. As the structure is existing, additional information related to material parameters, loading conditions, local structural defects, etc. can be accounted for. In addition, the degree of conservatism needs to be well balanced to avoid unnecessary investment of resources in replacement or retrofitting. This contribution considers the experience gained in recent years in parallel with some ongoing standardisation work in relation to Eurocodes and the next edition of the fib Model Code for new and existing concrete structures. The current state of the art of partial factors for the assessment of existing structures is explored and the differences are assessed based on a comparison between (i) the use of recommended fixed partial factors as provided in many national and international codes, (ii) adjusted (flexible) partial factors derived for the individual case under consideration, and (ii) reliability-based verification. In order to assess the adequacy of proposals and identify some differences, the available partial factor formats are applied to two case studies of reinforced concrete bridges and they are critically assessed. Y1 - 2023 U6 - https://doi.org/10.1080/10168664.2023.2204115 SP - 1 EP - 16 PB - Taylor & Francis ER -