SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1837350030> ?p ?o ?g. }

Showing items 1 to 66 of 66 with 100 items per page.

W1837350030 abstract "In this thesis, we develop an efficient collapse prediction model, the PFA (Peak Filtered Acceleration) model, for buildings subjected to different types of ground motions. For the structural system, the PFA model covers modern steel and reinforced concrete moment-resisting frame buildings (potentially reinforced concrete shear wall buildings). For ground motions, the PFA model covers ramp-pulse-like ground motions, long-period ground motions, and short-period ground motions. To predict whether a building will collapse in response to a given ground motion, we first extract long-period components from the ground motion using a Butterworth low-pass filter with suggested order and cutoff frequency. The order depends on the type of ground motion, and the cutoff frequency depends on the building’s natural frequency and ductility. We then compare the filtered acceleration time history with the capacity of the building. The capacity of the building is a constant for 2-dimentional buildings and a limit domain for 3-dimentional buildings. If the filtered acceleration exceeds the building’s capacity, the building is predicted to collapse. Otherwise, it is expected to survive the ground motion. The parameters used in PFA model, which include fundamental period, global ductility and lateral capacity, can be obtained either from numerical analysis or interpolation based on the reference building system proposed in this thesis. The PFA collapse prediction model greatly reduces computational complexity while archiving good accuracy. It is verified by FEM simulations of 13 frame building models and 150 ground motion records. Based on the developed collapse prediction model, we propose to use PFA (Peak Filtered Acceleration) as a new ground motion intensity measure for collapse prediction. We compare PFA with traditional intensity measures PGA, PGV, PGD, and Sa in collapse prediction and find that PFA has the best performance among all the intensity measures. We also provide a close form in term of a vector intensity measure (PGV, PGD) of the PFA collapse prediction model for practical collapse risk assessment." @default.
W1837350030 created "2016-06-24" @default.
W1837350030 creator A5052611532 @default.
W1837350030 date "2014-01-01" @default.
W1837350030 modified "2023-09-27" @default.
W1837350030 title "A New Ground Motion Intensity Measure, Peak Filtered Acceleration (PFA), to Estimate Collapse Vulnerability of Buildings in Earthquakes" @default.
W1837350030 doi "https://doi.org/10.7907/j5yb-ar86." @default.
W1837350030 hasPublicationYear "2014" @default.
W1837350030 type Work @default.
W1837350030 sameAs 1837350030 @default.
W1837350030 citedByCount "0" @default.
W1837350030 crossrefType "dissertation" @default.
W1837350030 hasAuthorship W1837350030A5052611532 @default.
W1837350030 hasConcept C117896860 @default.
W1837350030 hasConcept C119599485 @default.
W1837350030 hasConcept C121332964 @default.
W1837350030 hasConcept C127413603 @default.
W1837350030 hasConcept C19118579 @default.
W1837350030 hasConcept C2988284105 @default.
W1837350030 hasConcept C31972630 @default.
W1837350030 hasConcept C41008148 @default.
W1837350030 hasConcept C60486960 @default.
W1837350030 hasConcept C6142545 @default.
W1837350030 hasConcept C66938386 @default.
W1837350030 hasConcept C68295578 @default.
W1837350030 hasConcept C74650414 @default.
W1837350030 hasConceptScore W1837350030C117896860 @default.
W1837350030 hasConceptScore W1837350030C119599485 @default.
W1837350030 hasConceptScore W1837350030C121332964 @default.
W1837350030 hasConceptScore W1837350030C127413603 @default.
W1837350030 hasConceptScore W1837350030C19118579 @default.
W1837350030 hasConceptScore W1837350030C2988284105 @default.
W1837350030 hasConceptScore W1837350030C31972630 @default.
W1837350030 hasConceptScore W1837350030C41008148 @default.
W1837350030 hasConceptScore W1837350030C60486960 @default.
W1837350030 hasConceptScore W1837350030C6142545 @default.
W1837350030 hasConceptScore W1837350030C66938386 @default.
W1837350030 hasConceptScore W1837350030C68295578 @default.
W1837350030 hasConceptScore W1837350030C74650414 @default.
W1837350030 hasLocation W18373500301 @default.
W1837350030 hasOpenAccess W1837350030 @default.
W1837350030 hasPrimaryLocation W18373500301 @default.
W1837350030 hasRelatedWork W1975233779 @default.
W1837350030 hasRelatedWork W1993050006 @default.
W1837350030 hasRelatedWork W2016555642 @default.
W1837350030 hasRelatedWork W2023167140 @default.
W1837350030 hasRelatedWork W2031195100 @default.
W1837350030 hasRelatedWork W2056297647 @default.
W1837350030 hasRelatedWork W2057828938 @default.
W1837350030 hasRelatedWork W2130928487 @default.
W1837350030 hasRelatedWork W2145195377 @default.
W1837350030 hasRelatedWork W2153968866 @default.
W1837350030 hasRelatedWork W2158734623 @default.
W1837350030 hasRelatedWork W2168083818 @default.
W1837350030 hasRelatedWork W2369491438 @default.
W1837350030 hasRelatedWork W2415561628 @default.
W1837350030 hasRelatedWork W2912027001 @default.
W1837350030 hasRelatedWork W3009105241 @default.
W1837350030 hasRelatedWork W3045311616 @default.
W1837350030 hasRelatedWork W3137259847 @default.
W1837350030 hasRelatedWork W319350090 @default.
W1837350030 hasRelatedWork W886102000 @default.
W1837350030 isParatext "false" @default.
W1837350030 isRetracted "false" @default.
W1837350030 magId "1837350030" @default.
W1837350030 workType "dissertation" @default.