Shideh Dashti | University of Colorado, Boulder (original) (raw)

Shideh Dashti

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Papers by Shideh Dashti

Research paper thumbnail of Numerical and Centrifuge Modeling of Seismic Soil–Foundation–Structure Interaction on Liquefiable Ground

Journal of Geotechnical and Geoenvironmental Engineering, 2015

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Research paper thumbnail of Numerical Simulation of Earthquake Induced Soil Liquefaction: Validation against Centrifuge Experimental Results

IFCEE 2015, 2015

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Research paper thumbnail of Liquefaction: Performance of Building Foundation Systems

Encyclopedia of Earthquake Engineering, 2015

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Research paper thumbnail of Numerical Simulation of Building Response on Liquefiable Sand

Journal of Geotechnical and Geoenvironmental Engineering, Oct 10, 2012

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Research paper thumbnail of Evaluation of 1-D seismic site response modeling of sand using centrifuge experiments

Soil Dynamics and Earthquake Engineering, 2015

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Research paper thumbnail of Dynamic Calibration of Tactile Sensors for Measurement of Soil Pressures in Centrifuge

Geotechnical Testing Journal, 2015

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Research paper thumbnail of Seismic Soil-Structure Interaction and Lateral Earth Pressures on Buried Reservoir Structures

Geo-Congress 2014 Technical Papers, 2014

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Research paper thumbnail of Sensing of Lateral Seismic Earth Pressures in Geotechnical Centrifuge Models Paper Title Line 2

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Research paper thumbnail of iShake: The Reliability of Phones as Seismic Sensors

SUMMARY: Emergency responders must “see” the effects of an earthquake clearly and rapidly for eff... more SUMMARY: Emergency responders must “see” the effects of an earthquake clearly and rapidly for effective response. The iShake project is a novel use of smartphone and information technology to measure ground motion intensity parameters. The phone sensor, however, is an imperfect device. Hence, shaking table tests were performed to evaluate their reliability as seismic monitoring instruments. The iPhone and iPod Touch devices, either rigidly connected to the table or free to move, measured shaking intensity parameters well. ...

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Research paper thumbnail of Development of an International Space Station Granular Material Research Facility

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Research paper thumbnail of Numerical insights into liquefaction-induced building settlement

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Research paper thumbnail of Design and construction of a transparent flexible-shear-beam container for dynamic geotechnical centrifuge testing

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Research paper thumbnail of Supporting Disaster Reconnaissance with Social Media Data: A Design-Oriented Case Study of the 2013 Colorado Floods

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Research paper thumbnail of Dynamic Centrifuge Testing of a Temporary Braced Excavation in Dry Sand

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Research paper thumbnail of iShake

Proceedings of the 10th International Conference on Mobile and Ubiquitous Multimedia - MUM '11, 2011

The "iShake" system uses smartphones as... more The "iShake" system uses smartphones as seismic sensors to measure and deliver ground motion intensity parameters produced by earthquakes more rapidly and accurately than currently possible. Shaking table tests followed by field trial with approximately 30 iShake users were implemented to evaluate the reliability of the phones as seismic monitoring instruments and the functionality of the iShake system. In addition,

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Research paper thumbnail of Performance of a transparent Flexible Shear Beam container for geotechnical centrifuge modeling of dynamic problems

Soil Dynamics and Earthquake Engineering, 2013

ABSTRACT

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Research paper thumbnail of Closure to “performance of a transparent Flexible Shear Beam container for geotechnical centrifuge modelling of dynamic problems” by Ghayoomi M., Dashti S., and McCartney J.S

Soil Dynamics and Earthquake Engineering, 2014

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Research paper thumbnail of iShake: Mobile Phones as Seismic Sensors (Invited)

Emergency responders must ``see'' the effects of an earthquake clearly and rapidly so t... more Emergency responders must ``see'' the effects of an earthquake clearly and rapidly so that they can respond effectively to the damage it has produced. Great strides have been made recently in developing methodologies that deliver rapid and accurate post-earthquake information. However, shortcomings still exist. The iShake project is an innovative use of cell phones and information technology to bridge the gap between the high quality, but sparse, ground motion instrument data that are used to help develop ShakeMap and the low quality, but large quantity, human observational data collected to construct a ``Did You Feel It?'' (DYFI)-based map. Rather than using people as measurement ``devices'' as is being done through DYFI, the iShake project is using their cell phones to measure ground motion intensity parameters and automatically deliver the data to the U.S. Geological Survey (USGS) for processing and dissemination. In this participatory sensing paradi...

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Research paper thumbnail of Numerical Simulation of Building Response on Liquefiable Sand

Journal of Geotechnical and Geoenvironmental Engineering, 2013

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Research paper thumbnail of Mobile Phones as Seismologic Sensors: Automating Data Extraction for the iShake System

IEEE Transactions on Automation Science and Engineering, 2000

SUMMARY: Emergency responders must “see” the effects of an earthquake clearly and rapidly for eff... more SUMMARY: Emergency responders must “see” the effects of an earthquake clearly and rapidly for effective response. The iShake project is a novel use of smartphone and information technology to measure ground motion intensity parameters. The phone sensor, however, is an imperfect device. Hence, shaking table tests were performed to evaluate their reliability as seismic monitoring instruments.

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Research paper thumbnail of Numerical and Centrifuge Modeling of Seismic Soil–Foundation–Structure Interaction on Liquefiable Ground

Journal of Geotechnical and Geoenvironmental Engineering, 2015

Bookmarks Related papers MentionsView impact

Research paper thumbnail of Numerical Simulation of Earthquake Induced Soil Liquefaction: Validation against Centrifuge Experimental Results

IFCEE 2015, 2015

Bookmarks Related papers MentionsView impact

Research paper thumbnail of Liquefaction: Performance of Building Foundation Systems

Encyclopedia of Earthquake Engineering, 2015

Bookmarks Related papers MentionsView impact

Research paper thumbnail of Numerical Simulation of Building Response on Liquefiable Sand

Journal of Geotechnical and Geoenvironmental Engineering, Oct 10, 2012

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Research paper thumbnail of Evaluation of 1-D seismic site response modeling of sand using centrifuge experiments

Soil Dynamics and Earthquake Engineering, 2015

Bookmarks Related papers MentionsView impact

Research paper thumbnail of Dynamic Calibration of Tactile Sensors for Measurement of Soil Pressures in Centrifuge

Geotechnical Testing Journal, 2015

Bookmarks Related papers MentionsView impact

Research paper thumbnail of Seismic Soil-Structure Interaction and Lateral Earth Pressures on Buried Reservoir Structures

Geo-Congress 2014 Technical Papers, 2014

Bookmarks Related papers MentionsView impact

Research paper thumbnail of Sensing of Lateral Seismic Earth Pressures in Geotechnical Centrifuge Models Paper Title Line 2

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Research paper thumbnail of iShake: The Reliability of Phones as Seismic Sensors

SUMMARY: Emergency responders must “see” the effects of an earthquake clearly and rapidly for eff... more SUMMARY: Emergency responders must “see” the effects of an earthquake clearly and rapidly for effective response. The iShake project is a novel use of smartphone and information technology to measure ground motion intensity parameters. The phone sensor, however, is an imperfect device. Hence, shaking table tests were performed to evaluate their reliability as seismic monitoring instruments. The iPhone and iPod Touch devices, either rigidly connected to the table or free to move, measured shaking intensity parameters well. ...

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Research paper thumbnail of Development of an International Space Station Granular Material Research Facility

Bookmarks Related papers MentionsView impact

Research paper thumbnail of Numerical insights into liquefaction-induced building settlement

Bookmarks Related papers MentionsView impact

Research paper thumbnail of Design and construction of a transparent flexible-shear-beam container for dynamic geotechnical centrifuge testing

Bookmarks Related papers MentionsView impact

Research paper thumbnail of Supporting Disaster Reconnaissance with Social Media Data: A Design-Oriented Case Study of the 2013 Colorado Floods

Bookmarks Related papers MentionsView impact

Research paper thumbnail of Dynamic Centrifuge Testing of a Temporary Braced Excavation in Dry Sand

Bookmarks Related papers MentionsView impact

Research paper thumbnail of iShake

Proceedings of the 10th International Conference on Mobile and Ubiquitous Multimedia - MUM '11, 2011

The "iShake" system uses smartphones as... more The "iShake" system uses smartphones as seismic sensors to measure and deliver ground motion intensity parameters produced by earthquakes more rapidly and accurately than currently possible. Shaking table tests followed by field trial with approximately 30 iShake users were implemented to evaluate the reliability of the phones as seismic monitoring instruments and the functionality of the iShake system. In addition,

Bookmarks Related papers MentionsView impact

Research paper thumbnail of Performance of a transparent Flexible Shear Beam container for geotechnical centrifuge modeling of dynamic problems

Soil Dynamics and Earthquake Engineering, 2013

ABSTRACT

Bookmarks Related papers MentionsView impact

Research paper thumbnail of Closure to “performance of a transparent Flexible Shear Beam container for geotechnical centrifuge modelling of dynamic problems” by Ghayoomi M., Dashti S., and McCartney J.S

Soil Dynamics and Earthquake Engineering, 2014

Bookmarks Related papers MentionsView impact

Research paper thumbnail of iShake: Mobile Phones as Seismic Sensors (Invited)

Emergency responders must ``see'' the effects of an earthquake clearly and rapidly so t... more Emergency responders must ``see'' the effects of an earthquake clearly and rapidly so that they can respond effectively to the damage it has produced. Great strides have been made recently in developing methodologies that deliver rapid and accurate post-earthquake information. However, shortcomings still exist. The iShake project is an innovative use of cell phones and information technology to bridge the gap between the high quality, but sparse, ground motion instrument data that are used to help develop ShakeMap and the low quality, but large quantity, human observational data collected to construct a ``Did You Feel It?'' (DYFI)-based map. Rather than using people as measurement ``devices'' as is being done through DYFI, the iShake project is using their cell phones to measure ground motion intensity parameters and automatically deliver the data to the U.S. Geological Survey (USGS) for processing and dissemination. In this participatory sensing paradi...

Bookmarks Related papers MentionsView impact

Research paper thumbnail of Numerical Simulation of Building Response on Liquefiable Sand

Journal of Geotechnical and Geoenvironmental Engineering, 2013

Bookmarks Related papers MentionsView impact

Research paper thumbnail of Mobile Phones as Seismologic Sensors: Automating Data Extraction for the iShake System

IEEE Transactions on Automation Science and Engineering, 2000

SUMMARY: Emergency responders must “see” the effects of an earthquake clearly and rapidly for eff... more SUMMARY: Emergency responders must “see” the effects of an earthquake clearly and rapidly for effective response. The iShake project is a novel use of smartphone and information technology to measure ground motion intensity parameters. The phone sensor, however, is an imperfect device. Hence, shaking table tests were performed to evaluate their reliability as seismic monitoring instruments.

Bookmarks Related papers MentionsView impact

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