Steven D. Glaser

  1. Selvadurai, P.A., Parker, J.M., and Glaser, S.D., (2017), Numerical Modeling Describing the Effects of Heterogeneous Distributions of Asperities on the Quasi-Static Evolution of Frictional Slip, Rock Mechanics and Rock Engineering, accepted.
  2. Watteyne, T., Kerkez, B., Pister, K.S.J., Glaser, S.D., (2017), Crystal-Free Network Synchronization, Transactions on Emerging Telecommunications Technologies, in review.
  3. Selvadurai, P.A., and Glaser, S.D., (2017), Asperity Formations and Their Relation to Seismicity on a Planar Fault in the Laboratory, Geophysical Journal International, 208, 1009–1025.
  4. Saltiel, S., Selvadurai, P.A., Bonner, B.P., Glaser, S.D., Ajo-Franklin, J.B., (2017), Experimental Development of Low-Frequency Shear Modulus and Attenuation Measurements in Mated Rock Fractures: Shear Mechanics Due to Asperity Contact Area Changes with Normal Stress, Geophysics, 82(2), M19–M36.
  5. Zhang, Z., C.A. Oroza, S.D. Glaser and T. Wattenye, (2017), A Machine-Learning Based Connectivity Model for Complex Terrain Large-Scale Low-Power Wireless Deployments, IEEE Transactions on Cognitive Communications and Networking, accepted.
  6. Zhang, Z., Glaser, S.D., Wattenye, T., and Malek, S., (2017), American River Hydrological Observatory: Monitoring the Sierra Nevada Snowpack, IEEE Internet of Things Journal, special issue on Large-scale Internet of Things: Theory and Practice, accepted.
  7. Zhang, Z., Glaser, S.D., Bales, R.C., Conklin, M.H., Rice, R.R., and Marks, D.G., (2017), Insights into Mountain Precipitation and Snowpack from a Basin-Scale Wireless-Sensor Network, Water Resources Research, DOI: 10.1002/2016WR018825
  8. Zhang, Z., Glaser, S.D., Bales, R.C., Conklin, M.H., Rice, R.R., and Marks, D.G., (2017), Technical Report: the Design and Evaluation of a Basin-Scale Wireless Sensor Network for Mountain Hydrology, Water Resources Research, 53(5), 4487–4498.
  9. Orosa, C.A., Zheng, Z., Glaser, S.D., and Bales, R.C., (2017), Identication of Representative Sampling Regions, Optimal Sensor Number, and Resilient Network Topologies for Wireless Snow Observatories using LiDAR and Machine Learning, Water Resources Research, 52(10), 8174-8189.
  10. Selvadurai, P.A., and Glaser, S.D., (2016), On Factors Controlling Precursor Slip Fronts in the Laboratory and their relation to Slow Slip events in Nature, Geophysical Research Letters, 44(6), 2743–2754.
  11. Selvadurai, P.A., and Glaser, S.D., (2015), Laboratory-Developed Contact Models Controlling Instability on Frictional Faults, Journal of Geophysical Research, 120(6), 4208–4236, doi: 10.1002/2014JB011690.
  12. Selvadurai, P.A., and Glaser, S.D., (2015), Novel Techniques for Characterizing Frictional Interfaces in the Laboratory, Sensors, 15, 9791-9814; doi:10.3390/s150509791.
  13. Magliocco, M., Glaser, S.D., and Kneavsey, T.J., (2015), Laboratory and Numerical Studies of Heat Extraction from Hot Porous Media by Means of Supercritical CO2, Transport in Porous Media, 108(85)–104; DOI 10.1007/s11242-015-0474-0.
  14. Sherman, C.S., Rector, J., and Glaser, S.D. (2014), The Effects of Near-Source Heterogeneity on Shear-Wave Evolution, Geophysics, 79(4), T233 – T241.
  15. Nakamura, N., Saeki, M., Oguni, O., Buttarazzi, B., Basili, M., and Glaser, S.D., (2014), Energy-Saving Wireless Sensor Node for Relative Positioning of Densely Deployed GPS Network, Journal of Infrastructure Systems, 20(2).
  16. Samaranayake, S., Glaser S. D., Holstius D., Monteil, J., Tracton, K., Seto, E., Bayen, A., (2014) Real-Time Estimation of Pollution Emissions and Dispersion from Highway Traffic, Computer-Aided Civil and Infrastructure Engineering 29(7):546-558.
  17. Reilly, J., Dashti, S., Ervasti, M., Bray, J.D., Glaser, S.D., Bayen, A., (2013), Mobile Phones as Seismologic Sensors: Building the iShake System, IEEE Transactions on Automation Science and Engineering, 10(2), 242 – 251.
  18. Bakun-Mazor, D., Hatzor, Y.H., Glaser, S.D., and Santamarina, J.C., (2013), Thermally Induced “ratchet” Model for Rock Slope Stability with Evidence from Masada, International Journal of Rock Mechanics and Mining Sciences, 61, 196 – 211.
  19. Dashti, S., Reilly, J., Bray, J.D., Glaser, S.D., Bayen, A., (2013), iShake: Evaluating the Reliability of Mobile Phones as Seismic Monitoring Instruments, Earthquake Spectra, 30(3), 721 - 742.
  20. Welch, S., Kerkez, B., Bales, R., Glaser, S.D., Rittger, K., and Rice, R.R., (2013), Sensor Placement Strategies for SWE Estimation in the American River Basin, Water Resources Research, 49, 891 – 903 doi:10.1002/wrcr.20100.
  21. Mehta, A., Kerkez, B., Glaser, S.D., and Pister, K.S.J., (2012), TDMA-Based Dual-Mode Communication for Mobile Wireless Sensor Networks, Sensors, 12(12), 16194 – 16210, http://dx.doi.org/10.3390/s121216194.
  22. Watteyne, T., Vilajosana, X., Kerkez, B., Chraim, F., Weekly, K., Wang, Q., Glaser, S.D., and Pister, K., (2013), OpenWSN: A Standards-Based Low-Power Wireless Development Environment, Transactions on Emerging Telecommunications Technologies, 23(5), 480 – 493.
  23. McLaskey, G.C., Thomas, A.M., Glaser, S.D., and Nadeau, R.M., (2012), Fault Healing Promotes High Frequency Earthquakes in the Laboratory and on Natural Faults, Nature, 490(7422), 101 – 104, http://dx.doi.org/10.1038/nature11512.
  24. McLaskey, G. C., and Glaser, S.D., (2012), Acoustic Emission Sensor Calibration for Absolute Source Measurements, Journal of Nondestructive Evaluation, 31(2), 157–168.
  25. Kerkez, B., Glaser, S.D., Bales, R., and Meadows, M.W., (2012), Monitoring Hydrologic Phenomena: Wireless Sensor Networks, Water Resources Research, 48, W09515, http://dx.doi.org/10.1029/2011WR011214.
  26. Moore, J.R., Boleve, A., Sanders, A.W., and Glaser, S.D, (2011), Self-Potential Investigation of Moraine Dam Seepage, Journal of Applied Geophysics, 74, 277 – 286, http://dx.doi.org/10.1016/j.jappgeo.2011.06.014.
  27. McLaskey, G. C. and Glaser, S. D. (2011), Micromechanics of Asperity Rupture During Laboratory Stick Slip Experiments, Geophysical Research Letters, 38, L12302, http://dx.doi.org/10.1029/2011GL047507.
  28. Bakun-Mazor, D., Hatzor, Y.H., and Glaser, S.D., (2011), Dynamic Sliding of Tetrahedral Wedge: the Role of Interface Friction. International Journal for Numerical and Analytical Methods in Geomechanics, 36(3), 249 – 390. http://dx.doi.org/10.1002/nag.1009
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