Reliability-Based Analysis and Design of Structures and Infrastructure
Herausgeber: Gardoni, Paolo; Noroozinejad Farsangi, Ehsan; Noori, Mohammad
Reliability-Based Analysis and Design of Structures and Infrastructure
Herausgeber: Gardoni, Paolo; Noroozinejad Farsangi, Ehsan; Noori, Mohammad
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This book presents an overview of the methods of classical reliability analysis and design most associated with structural reliability. It also introduces more modern methods and advancements, and emphasizes the most useful methods and techniques used in reliability and risk studies.
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This book presents an overview of the methods of classical reliability analysis and design most associated with structural reliability. It also introduces more modern methods and advancements, and emphasizes the most useful methods and techniques used in reliability and risk studies.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 522
- Erscheinungstermin: 26. August 2024
- Englisch
- Abmessung: 254mm x 178mm x 28mm
- Gewicht: 971g
- ISBN-13: 9781032047720
- ISBN-10: 1032047720
- Artikelnr.: 71237827
- Herstellerkennzeichnung
- Books on Demand GmbH
- In de Tarpen 42
- 22848 Norderstedt
- info@bod.de
- 040 53433511
- Verlag: CRC Press
- Seitenzahl: 522
- Erscheinungstermin: 26. August 2024
- Englisch
- Abmessung: 254mm x 178mm x 28mm
- Gewicht: 971g
- ISBN-13: 9781032047720
- ISBN-10: 1032047720
- Artikelnr.: 71237827
- Herstellerkennzeichnung
- Books on Demand GmbH
- In de Tarpen 42
- 22848 Norderstedt
- info@bod.de
- 040 53433511
Chapter 1. Reliability-Based Design Optimization.
Chapter 2. Reliability-based Structural Vibration Control.
Chapter 3. Seismic Reliability-Based Design of elastic and inelastic
structural systems equipped with seismic devices.
Chapter 4. Why Resilience-Based Design?.
Chapter 5. Resilience Engineering: Principles, Methods and Applications to
Critical Infrastructure Systems.
Chapter 6. Resilience Based Design of Buildings.
Chapter 7. Positioning Resilience in Design and Analysis of Structures and
Infrastructure.
Chapter 8. Stochastic finite element method.
Chapter 9. Structural Health Monitoring-integrated Reliability Assessment
of Engineering Structures.
Chapter 10. Time-dependent reliability of aging structures exposed to
imprecise deterioration information.
Chapter 11. Non-linear numerical analyses of reinforced concrete
structures: safety formats, aleatory and epistemic uncertainties.
Chapter 12. Risk-based Seismic Assessment of Curved Damper Truss Moment
Frame .
Chapter 13. Risk-Target Based Design of base-isolated buildings.
Chapter 14. Structural performance evaluation system for improved building
resilience and reliability.
Chapter 15. Line sampling simulation: recent advancements and applications.
Chapter 16. Probabilistic performance analysis of modern RC frame
structures subjected to earthquake loading.
Chapter 17. Research on safety assessment and maintenance decision for the
metal structure of the casting crane.
Chapter 18. Seismic Risk Based Design for Bridge.
Chapter 19. Maximum entropy method for probabilistic quantification of soil
properties: a case study of Nipigon River landslide in Ontario, Canada.
Chapter 20. Advances in Online Decentralized Structural Identification.
Chapter 21. Stochastic optimization methods in machine learning.
Chapter 22. Period-height relationships for the design, assessment and
reliability analysis of code-compliant reinforced concrete frames .
Chapter 23. Reliability of the Rehabilitation of the Monumental Buildings
in Seismic Regions.
Chapter 24. Reliability Based Analyses and Design of Pipelines Under Ground
Movements During Earthquakes.
Chapter 25. Optimal design of hysteretic damper with stopper mechanism for
tall buildings under earthquake ground motions of extremely large
amplitude.
Chapter 26. Reliability analysis and resilience assessment of substation
systems using the state tree method: a framework and application.
Chapter 27. Reliability-Based Methods for Inspection Planning and
Predictive Maintenance in Fixed Offshore Structures.
Chapter 28. Load and Resistance Factor Design Involving Random Variables
with Unknown Probability Distributions.
Chapter 29. Methods of Moment for System Reliability.
Chapter 30. Reliability-based design optimization using transfer learning.
Chapter 2. Reliability-based Structural Vibration Control.
Chapter 3. Seismic Reliability-Based Design of elastic and inelastic
structural systems equipped with seismic devices.
Chapter 4. Why Resilience-Based Design?.
Chapter 5. Resilience Engineering: Principles, Methods and Applications to
Critical Infrastructure Systems.
Chapter 6. Resilience Based Design of Buildings.
Chapter 7. Positioning Resilience in Design and Analysis of Structures and
Infrastructure.
Chapter 8. Stochastic finite element method.
Chapter 9. Structural Health Monitoring-integrated Reliability Assessment
of Engineering Structures.
Chapter 10. Time-dependent reliability of aging structures exposed to
imprecise deterioration information.
Chapter 11. Non-linear numerical analyses of reinforced concrete
structures: safety formats, aleatory and epistemic uncertainties.
Chapter 12. Risk-based Seismic Assessment of Curved Damper Truss Moment
Frame .
Chapter 13. Risk-Target Based Design of base-isolated buildings.
Chapter 14. Structural performance evaluation system for improved building
resilience and reliability.
Chapter 15. Line sampling simulation: recent advancements and applications.
Chapter 16. Probabilistic performance analysis of modern RC frame
structures subjected to earthquake loading.
Chapter 17. Research on safety assessment and maintenance decision for the
metal structure of the casting crane.
Chapter 18. Seismic Risk Based Design for Bridge.
Chapter 19. Maximum entropy method for probabilistic quantification of soil
properties: a case study of Nipigon River landslide in Ontario, Canada.
Chapter 20. Advances in Online Decentralized Structural Identification.
Chapter 21. Stochastic optimization methods in machine learning.
Chapter 22. Period-height relationships for the design, assessment and
reliability analysis of code-compliant reinforced concrete frames .
Chapter 23. Reliability of the Rehabilitation of the Monumental Buildings
in Seismic Regions.
Chapter 24. Reliability Based Analyses and Design of Pipelines Under Ground
Movements During Earthquakes.
Chapter 25. Optimal design of hysteretic damper with stopper mechanism for
tall buildings under earthquake ground motions of extremely large
amplitude.
Chapter 26. Reliability analysis and resilience assessment of substation
systems using the state tree method: a framework and application.
Chapter 27. Reliability-Based Methods for Inspection Planning and
Predictive Maintenance in Fixed Offshore Structures.
Chapter 28. Load and Resistance Factor Design Involving Random Variables
with Unknown Probability Distributions.
Chapter 29. Methods of Moment for System Reliability.
Chapter 30. Reliability-based design optimization using transfer learning.
Chapter 1. Reliability-Based Design Optimization.
Chapter 2. Reliability-based Structural Vibration Control.
Chapter 3. Seismic Reliability-Based Design of elastic and inelastic
structural systems equipped with seismic devices.
Chapter 4. Why Resilience-Based Design?.
Chapter 5. Resilience Engineering: Principles, Methods and Applications to
Critical Infrastructure Systems.
Chapter 6. Resilience Based Design of Buildings.
Chapter 7. Positioning Resilience in Design and Analysis of Structures and
Infrastructure.
Chapter 8. Stochastic finite element method.
Chapter 9. Structural Health Monitoring-integrated Reliability Assessment
of Engineering Structures.
Chapter 10. Time-dependent reliability of aging structures exposed to
imprecise deterioration information.
Chapter 11. Non-linear numerical analyses of reinforced concrete
structures: safety formats, aleatory and epistemic uncertainties.
Chapter 12. Risk-based Seismic Assessment of Curved Damper Truss Moment
Frame .
Chapter 13. Risk-Target Based Design of base-isolated buildings.
Chapter 14. Structural performance evaluation system for improved building
resilience and reliability.
Chapter 15. Line sampling simulation: recent advancements and applications.
Chapter 16. Probabilistic performance analysis of modern RC frame
structures subjected to earthquake loading.
Chapter 17. Research on safety assessment and maintenance decision for the
metal structure of the casting crane.
Chapter 18. Seismic Risk Based Design for Bridge.
Chapter 19. Maximum entropy method for probabilistic quantification of soil
properties: a case study of Nipigon River landslide in Ontario, Canada.
Chapter 20. Advances in Online Decentralized Structural Identification.
Chapter 21. Stochastic optimization methods in machine learning.
Chapter 22. Period-height relationships for the design, assessment and
reliability analysis of code-compliant reinforced concrete frames .
Chapter 23. Reliability of the Rehabilitation of the Monumental Buildings
in Seismic Regions.
Chapter 24. Reliability Based Analyses and Design of Pipelines Under Ground
Movements During Earthquakes.
Chapter 25. Optimal design of hysteretic damper with stopper mechanism for
tall buildings under earthquake ground motions of extremely large
amplitude.
Chapter 26. Reliability analysis and resilience assessment of substation
systems using the state tree method: a framework and application.
Chapter 27. Reliability-Based Methods for Inspection Planning and
Predictive Maintenance in Fixed Offshore Structures.
Chapter 28. Load and Resistance Factor Design Involving Random Variables
with Unknown Probability Distributions.
Chapter 29. Methods of Moment for System Reliability.
Chapter 30. Reliability-based design optimization using transfer learning.
Chapter 2. Reliability-based Structural Vibration Control.
Chapter 3. Seismic Reliability-Based Design of elastic and inelastic
structural systems equipped with seismic devices.
Chapter 4. Why Resilience-Based Design?.
Chapter 5. Resilience Engineering: Principles, Methods and Applications to
Critical Infrastructure Systems.
Chapter 6. Resilience Based Design of Buildings.
Chapter 7. Positioning Resilience in Design and Analysis of Structures and
Infrastructure.
Chapter 8. Stochastic finite element method.
Chapter 9. Structural Health Monitoring-integrated Reliability Assessment
of Engineering Structures.
Chapter 10. Time-dependent reliability of aging structures exposed to
imprecise deterioration information.
Chapter 11. Non-linear numerical analyses of reinforced concrete
structures: safety formats, aleatory and epistemic uncertainties.
Chapter 12. Risk-based Seismic Assessment of Curved Damper Truss Moment
Frame .
Chapter 13. Risk-Target Based Design of base-isolated buildings.
Chapter 14. Structural performance evaluation system for improved building
resilience and reliability.
Chapter 15. Line sampling simulation: recent advancements and applications.
Chapter 16. Probabilistic performance analysis of modern RC frame
structures subjected to earthquake loading.
Chapter 17. Research on safety assessment and maintenance decision for the
metal structure of the casting crane.
Chapter 18. Seismic Risk Based Design for Bridge.
Chapter 19. Maximum entropy method for probabilistic quantification of soil
properties: a case study of Nipigon River landslide in Ontario, Canada.
Chapter 20. Advances in Online Decentralized Structural Identification.
Chapter 21. Stochastic optimization methods in machine learning.
Chapter 22. Period-height relationships for the design, assessment and
reliability analysis of code-compliant reinforced concrete frames .
Chapter 23. Reliability of the Rehabilitation of the Monumental Buildings
in Seismic Regions.
Chapter 24. Reliability Based Analyses and Design of Pipelines Under Ground
Movements During Earthquakes.
Chapter 25. Optimal design of hysteretic damper with stopper mechanism for
tall buildings under earthquake ground motions of extremely large
amplitude.
Chapter 26. Reliability analysis and resilience assessment of substation
systems using the state tree method: a framework and application.
Chapter 27. Reliability-Based Methods for Inspection Planning and
Predictive Maintenance in Fixed Offshore Structures.
Chapter 28. Load and Resistance Factor Design Involving Random Variables
with Unknown Probability Distributions.
Chapter 29. Methods of Moment for System Reliability.
Chapter 30. Reliability-based design optimization using transfer learning.