Modeling Peak Ground Acceleration (PGA) From Collected Strong Motion Data

Betancourt, Michelle Renee

01 May 2016

The main focus of this thesis is to effectively estimate levels of peak ground acceleration (PGA) during a seismic event for a given site. This will be achieved by applying regression analysis via a mixed model methodology to data collected from previously recorded seismic events collected from the PEER Strong Motion Database using a program written in MATLAB. The basic mixed model combines both fixed and random effect terms. Two models are analyzed and compared based on varying combinations of predictor variables, such as magnitude, distance, shear wave velocity, and site class. While the primary objective of this thesis solely examines the modeling of PGA, the same methodology can be applied in predicting other ground motion intensity parameters such as Peak Ground Velocity (PGV) or the spectral ordinate at a given vibration period.

Ground Motion

Peak Ground Acceleration

Seismic

Pituitary implants and the reproduction cycle of the thirteen lined ground squirrel

Foster, Mark Anthony.

January 1931

Call number: LD2668 .T4 1931 F61

Ground squirrels.

Masters theses

The low energy dynamic compaction of soil

Allen, Sarah

January 1996

No description available.

631.4

Ground improvement

An analysis of disc brake noise using holographic interferometry

Fieldhouse, John David

January 1993

A predominantly experimental approach using the whole body visual technique of holographic interferometry is employed to investigate the mechanisms involved during a noisy brake application. Following the modal analysis of component parts, dynamic trials include the development of the holographic technique, making use of mirrors to permit three orthogonal views of the brake to be recorded simultaneously with smaller inset mirrors allowing for additional areas, such as the ends of the piston pad, to be observed at the same time. These dynamic experiments take the form of changing the operating parameters of the brake through variations in speed, pressure and temperature and through changes in the system geometry by adjustment of pad abutment and pad centre of pressure loading. The tests show that pad abutment plays an important role in the propensity of the system to generate noise and that a relationship between pad abutment, pad material coefficient of friction and interface coefficient of friction between pad-end and calliper-support finger exists which results in an offset in the pad centre of pressure with the spragging angle being satisfied and resulting noise. This is supported by basic theory. Additionally it is shown that the disc/pad interface relationship is complicated and that it is not reasonable to assume mechanical integrity of the pair and as a consequence the use of an "equivalent mass" is not appropriate for high aspect ratio pads. Advancements in the laser triggering process allow for holograms to be taken at specific stages over and along a cycle of excitation by delaying the laser triggering initiation to give variable time delays. The variety of techniques available are used to show that pad excitation plays an important role in the generation of noise and that the piston pad in particular is seen as the initiator leading to system excitation. Mechanical coupling of the component parts is also seen to be fundamental, but not essential, to the generation of noise. The techniques also show that, when complete coupling exists, the disc holds a diametral mode of vibration which travels around the disc at a speed related to the excitation frequency divided by the disc mode order. Results from the application of the techniques also allows component parts to be analysed over a typical cycle of excitation when it is shown that symmetrical components such as the pad are not necessarily excited in a symmetrical manner. Phase relationship between the component parts may also be determined by comparison of related holograms. Holographic interpretations are confirmed and validated by mechanical measurements when it is also demonstrated that noise is often preceded by, or accompanied by, a high frequency excitation which is experienced by the complete brake.

629.049

Ground transport systems

The prediction of ground sliding induced by strong earthquakes

Srbulov, Milutin

January 1994

No description available.

624.1

Landslides; Ground deformation

Aerodynamic loads on a railway train in a cross-wind at large yaw angles

Chiu, Tak Wai

January 1990

No description available.

629.049

Ground transport systems

An investigation of the dynamic interaction between wheeled vehicles and road surfaces

Cebon, D.

January 1985

No description available.

629.049

Ground transport systems

Ground movements associated with tunnels and trenches

Taylor, R. N.

January 1984

No description available.

629.049

Ground transport systems

The dynamic behaviour of railway vehicles with solid rubber tyres

Iwnicki, Simon

January 1991

No description available.

629.049

Ground transport systems

An investigation of bus design parameters affecting rollover

White, D.

January 1985

No description available.

629.049

Ground transport systems