International Seismological Centre
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Search publication for ISC event 611461139

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 ISC Event Agency     Origin time         Lat     Lon Depth       Magnitude   Article_total      Event code
 
611461139
    ISC 2017-11-15 05:29:31   36.11  129.35   3.5  Mw(GCMT) = 5.5              83      POHANG2017

Hong, T.-K., Park, S., Lee, J., Lee, J. and Kim, B., 2024. Middle to lower crustal earthquakes in the western East Sea (Sea of Japan) and their implications for neotectonic evolution, Tectonophysics, 880, 230346, DOI: 10.1016/j.tecto.2024.230346
Yan, X., Yu, H. and Jing, H., 2024. Numerical investigation of the stress regime effect on injection-induced fault reactivation and associated seismicity, Comput. Geotech., 169, 106251, DOI: 10.1016/j.compgeo.2024.106251
Seo, H., Kim, H.-S., Baise, L.G. and Kim, B., 2024. Geospatial liquefaction probability models based on sand boils occurred during the 2017 M5.5 Pohang, South Korea, earthquake, Engng Geol., 329, 107407, DOI: 10.1016/j.enggeo.2024.107407
Kim, N., Park, G., Kim, S.Y., Lee, J.-S. and Park, J., 2024. Physics-inspired geophysical assessment of liquefaction potential in Pohang, South Korea, Acta Geotech., 19, 4, 1799-1813, DOI: 10.1007/s11440-023-02083-0
Steinberg, A., Gaebler, P., Hartmann, G., Lehr, J. and Pilger, C., 2024. Deep Neural Networks Based Denoising of Regional Seismic Waveforms and Impact on Analysis of North Korean Nuclear Tests, Pure appl. Geophys., , DOI: 10.1007/s00024-024-03491-3
Lee, J., Lee, D.K. and Ahn, J.-K., 2023. Automatic Fault Plane Solution for the Provision of Rapid Earthquake Information in South Korea, Sustainability, 15, 1, 520, DOI: 10.3390/su15010520
McGarr, A. and Majer, E.L., 2023. The 2017 Pohang, South Korea, Mw 5.4 main shock was either natural or triggered, but not induced, Geothermics, 107, 102612, DOI: 10.1016/j.geothermics.2022.102612
Lee, S., Woo, J.-U. and Rhie, J., 2023. Classification of transient triggering mechanisms of aftershocks in the postseismic phase of the 2017 Pohang earthquake, South Korea, Geophys. J. Int., 233, 3, 2214-2231, DOI: 10.1093/gji/ggad022
Moein, M.J.A., Langenbruch, C., Schultz, R., Grigoli, F., Ellsworth, W.L., Wang, R., Rinaldi, A.P. and Shapiro, S., 2023. The physical mechanisms of induced earthquakes, Nature Reviews Earth & Environment, 4, 12, 847-863, DOI: 10.1038/s43017-023-00497-8
Wilson, M.P., Foulger, G.R., Wilkinson, M.W., Gluyas, J.G., Mhana, N. and Tezel, T., 2023. Artificial Intelligence and Human-Induced Seismicity: Initial Observations of ChatGPT, Seismol. Res. Lett., 94, 5, 2111-2118, DOI: 10.1785/0220230112
Kim, T., Park, J.-H. and Yu, E., 2023. Seismic fragility of low-rise piloti buildings based on 2017 Pohang earthquake damage, J. Build. Eng., 76, 107032, DOI: 10.1016/j.jobe.2023.107032
Kim, Y.-S., Naik, S.P., Choi, J.-H., Jin, K., Ho, G.-R., Kim, T. and Lee, J., 2023. Kinematic analysis and fault-dependence of building-wall fracture patterns during moderate earthquakes, Geosci. J., 27, 6, 769-780, DOI: 10.1007/s12303-023-0024-7
Jhung, M.J., Choi, Y., Oh, C., Shin, G. and Park, C.I., 2023. Seismic analysis of a steam generator for Gyeongju and Pohang earthquakes, Nuclear Engineering and Technology, 55, 5, 1577-1586, DOI: 10.1016/j.net.2023.01.022
Cho, E., Woo, J.-U., Rhie, J., Kang, T.-S. and Baag, S.-Y., 2023. Rupture Process of the 2017 Mw 5.5 Pohang, South Korea, Earthquake via an Empirical Green’s Function Method, Bull. seism. Soc. Am., 113, 2, 592-603, DOI: 10.1785/0120220161
Seo, J. and Won, D., 2022. Characteristics of site-specific response using the measured data from seismic accelerometers in Pohang Yeongil New Port under 9.12 and Pohang earthquakes, Sci. Rep., 12, 19249, DOI: 10.1038/s41598-022-21862-5
Song, J.-H., Kim, S., Rhie, J. and Park, D., 2022. Moment Tensor Solutions for Earthquakes in the Southern Korean Peninsula Using Three-Dimensional Seismic Waveform Simulations, Front. Earth Sci., 10, 945022, DOI: 10.3389/feart.2022.945022
Jung, Y., Woo, J.-U. and Rhie, J., 2022. Enhanced hypocenter determination of the 2017 Pohang earthquake sequence, South Korea, using a 3-D velocity model, Geosci. J., 26, 4, 499-511, DOI: 10.1007/s12303-021-0043-1
Hong, T.-K., Lee, J., Park, S. and Kim, W., 2022. Major influencing factors for the nucleation of the 15 November 2017 Mw 5.5 Pohang earthquake, Phys. Earth planet. Interiors, 323, 106833, DOI: 10.1016/j.pepi.2021.106833
Ryu, H.-S., Kim, H., Lee, J.-Y., Kaown, D. and Lee, K.-K., 2022. Abnormal groundwater levels and microbial communities in the Pohang Enhanced Geothermal System site wells pre- and post-Mw 5.5 earthquake in Korea, Sci. Total Environ., 810, 152305, DOI: 10.1016/j.scitotenv.2021.152305
Ji, Y., Seo, H., Kang, S., Kim, H.-S., Kim, J. and Kim, B., 2022. MASW-Based Shear Wave Velocities for Predicting Liquefaction-Induced Sand Boils Caused by the 2017 M5.4 Pohang, South Korea Earthquake, J. Geotech. Geoenviron. Eng., 148, 4, 04022004, DOI: 10.1061/(asce)gt.1943-5606.0002738
Seo, H., Kim, J. and Kim, B., 2022. Machine-Learning-Based Surface Ground-Motion Prediction Models for South Korea with Low-to-Moderate Seismicity, Bull. seism. Soc. Am., 112, 3, 1549-1564, DOI: 10.1785/0120210244
Lee, J., Park, C., Kwon, K., Song, J., Kim, K., Kim, N.-S. and Ko, K., 2022. Numerical Back-analysis of Caisson Quay Walls in the Yeong-il Bay Port during the 2017 Pohang Earthquake, KSCE J. Civil Eng., 26, 10, 4290-4301, DOI: 10.1007/s12205-022-0950-3
Westaway, R., 2021. Extrapolation of populations of small earthquakes to predict consequences of low- probability high impact events: The Pohang case study revisited, Geothermics, 92, 102035, DOI: 10.1016/j.geothermics.2020.102035
Farkas, M.P., Hofmann, H., Zimmermann, G., Zang, A., Bethmann, F., Meier, P., Cottrell, M. and Josephson, N., 2021. Hydromechanical analysis of the second hydraulic stimulation in well PX-1 at the Pohang fractured geothermal reservoir, South Korea, Geothermics, 89, 101990, DOI: 10.1016/j.geothermics.2020.101990
Yoo, H., Park, S., Xie, L., Kim, K.-I., Min, K.-B., Rutqvist, J. and Rinaldi, A.P., 2021. Hydro-mechanical modeling of the first and second hydraulic stimulations in a fractured geothermal reservoir in Pohang, South Korea, Geothermics, 89, 101982, DOI: 10.1016/j.geothermics.2020.101982
Wassing, B.B.T., Gan, Q., Candela, T. and Fokker, P.A., 2021. Effects of fault transmissivity on the potential of fault reactivation and induced seismicity: Implications for understanding induced seismicity at Pohang EGS, Geothermics, 91, 101976, DOI: 10.1016/j.geothermics.2020.101976
Kang, S.Y., Kim, K., Choi, M. and Park, S., 2021. Ground vulnerability derived from the horizontal?to?vertical spectral ratio: Comparison with the damage distribution caused by the 2017 ML 5.4 Pohang earthquake, Korea, Near Surface Geophys., 19, 2, 155-167, DOI: 10.1002/nsg.12150
Han, J. and Kim, J., 2021. A Cross-Validation of Seismic Vulnerability Assessment Model: Application to Earthquake of 9.12 Gyeongju and 2017 Pohang, Korean J. Remote Sens. , 37, 3, 649-655.
Shapiro, S.A., Kim, K.-H. and Ree, J.-H., 2021. Magnitude and nucleation time of the 2017 Pohang Earthquake point to its predictable artificial triggering, Nature Communications, 12, 6397, DOI: 10.1038/s41467-021-26679-w
Park, S.-S., Doan, N.-P. and Nong, Z., 2021. Numerical prediction of settlement due to the Pohang earthquake, Earthq. Spectra, 37, 2, 652-685, DOI: 10.1177/8755293020957345
Harirchian, E., Kumari, V., Jadhav, K., Rasulzade, S., Lahmer, T. and Raj Das, R., 2021. A synthesized study based on machine learning approaches for rapid classifying earthquake damage grades to RC buildings, Applied Sciences, 11, 16, , DOI: 10.3390/app11167540
Kaown, D., Lee, K.-K., Kim, J., Woo, J.-U., Lee, S., Park, I.-W., Lee, D., Lee, J.-Y., Kim, H., Ge, S. and Yeo, I.-W., 2021. Earthquakes and very deep groundwater perturbation mutually induced, Sci. Rep., 11, 13632, DOI: 10.1038/s41598-021-92937-y
Nur, A.S. and Lee, C.-W., 2021. Damage Proxy Map (DPM)of the 2016 Gyeongju and 2017 Pohang earthquakes using Sentinel-1 Imagery, Korean J. Remote Sens., 37, 1, 13-22, DOI: 10.7780/kjrs.2021.37.1.2
Fadhillah, M.F. and Lee, C.-W., 2021. The estimated source of 2017 Pohang earthquake using surface deformation modeling based on multi-frequency InSAR Data, Korean J. Remote Sens., 37, 1, 57-67, DOI: 10.7780/kjrs.2021.37.1.5
Han, J., Nur, A.S., Syifa, M., Ha, M., Lee, C.-W. and Lee, K.-Y., 2021. Improvement of earthquake risk awareness and seismic literacy of Korean citizens through earthquake vulnerability map from the 2017 Pohang earthquake, South Korea, Remote Sensing, 13, 7, 1365, DOI: 10.3390/rs13071365
Song, S.G. and Chang, C., 2021. Dynamic earthquake rupture modeling considering regional crustal stress conditions in southeastern Korea, Geosci. J., 25, 2, 211-222, DOI: 10.1007/s12303-020-0015-x
Chang, K.W. and Yoon, H., 2021. Mitigating injection-induced seismicity along basement faults by extraction: Application to 2016?2018 Pohang earthquakes, J. geophys. Res.: Solid Earth, 126, 4, e2020JB021486, DOI: 10.1029/2020JB021486
Ree, J.-H., Kim, K.-H., Lim, H., Seo, W., Kim, S., An, X. and Kim, Y., 2021. Fault reactivation and propagation during the 2017 Pohang earthquake sequence, Geothermics, 92, 102048, DOI: 10.1016/j.geothermics.2021.102048
Li, Z., Elsworth, D., Wang, C. and EGS-Collab, 2021. Constraining maximum event magnitude during injection-triggered seismicity, Nature Communications, 12, 1528, DOI: 10.1038/s41467-020-20700-4
Kwon, S.Y. and Yoo, M., 2021. A study on the dynamic behavior of a vertical tunnel shaft embedded in liquefiable ground during earthquakes, Applied Sciences, 11, 4, 1560, DOI: 10.3390/app11041560
Ji, Y., Kim, B. and Kim, K., 2021. Evaluation of liquefaction potentials based on shear wave velocities in Pohang City, South Korea, Int. J. Geo-Eng., 12, 3, , DOI: 10.1186/s40703-020-00132-1
Nizamani, Z.A. and Park, D., 2021. Testing ground?motion prediction equations against moderate magnitude earthquake data recorded in Korea, Bull. seism. Soc. Am., 111, 1, 321-338, DOI: 10.1785/0120200095
Kim, K.-H., Seo, W., Han, J., Kwon, J., Kang, S.Y., Ree, J.-H., Kim, S. and Liu, K., 2020. The 2017 ML 5.4 Pohang earthquake sequence, Korea, recorded by a dense seismic network, Tectonophysics, 774, 228306, DOI: 10.1016/j.tecto.2019.228306
Terakawa, T., Seo, W., Kim, K.-H. and Ree, J.-H., 2020. 3D pore-fluid pressures in source region of 2017 Pohang earthquake inferred from earthquake focal mechanisms, Geophys. Res. Lett., 47, 9, e2019GL085964, DOI: 10.1029/2019GL085964
Naik, S.P., Gwon, O., Porfido, S., Park, K., Jin, K., Kim, Y.-S. and Kyung, J.-B., 2020. Intensity reassessment of the 2017 Pohang earthquake Mw = 5.4 (South Korea) using ESI-07 scale, Geosciences, 10, 11, 471, DOI: 10.3390/geosciences10110471
Jeong, S., Kim, B.J., Lee, Y.-J., Chung, J.-B. and Sim, S.-H., 2020. Individual disaster assistance for socially vulnerable people: Lessons learned from the Pohang earthquake in the Republic of Korea, Risk Analysis, 40, 11, 2373-2389, DOI: 10.1111/risa.13554
Kim, J., Joun, W.-T., Lee, S., Kaown, D. and Lee, K.-K., 2020. Hydrogeochemical evidence of earthquake-induced anomalies in response to the 2017 MW 5.5 Pohang earthquake in Korea, Geochem. Geophys. Geosyst., 21, 12, e2020GC009532, DOI: 10.1029/2020GC009532
Lim, H., Deng, K., Kim, Y.H., Ree, J.-H., Song, T.-R.A. and Kim, K.-H., 2020. The 2017 Mw 5.5 Pohang earthquake, South Korea, and poroelastic stress changes associated with fluid injection, J. geophys. Res.: Solid Earth, 125, 6, e2019JB019134, DOI: 10.1029/2019JB019134
Yeo, I.W., Brown, M.R.M., Ge, S. and Lee, K.K., 2020. Causal mechanism of injection-induced earthquakes through the Mw 5.5 Pohang earthquake case study, Nature Communications, 11, 2614, DOI: 10.1038/s41467-020-16408-0
Son, M., Cho, C.S., Lee, H.K., Han, M., Shin, J.S., Kim, K. and Kim, S., 2020. Partitioned fault movement and aftershock triggering: evidence for fault interactions during the 2017 Mw 5.4 Pohang earthquake, South Korea, J. geophys. Res.: Solid Earth, 125, 12, e2020JB020005, DOI: 10.1029/2020JB020005
Park, S., Kim, K.-I., Xie, L., Yoo, H., Min, K.-B., Kim, M., Yoon, B., Kim, K.Y., Zimmermann, G., Guinot, F. and Meier, P., 2020. Observations and analyses of the first two hydraulic stimulations in the Pohang geothermal development site, South Korea, Geothermics, 88, 101905, DOI: 10.1016/j.geothermics.2020.101905
Cheon, Y., Choi, J.-H., Kim, N., Lee, H., Choi, I., Bae, H., Rockwell, T.K., Lee, S.R., Ryoo, C.-R., Choi, H. and Lee, T.-H., 2020. Late Quaternary transpressional earthquakes on a long-lived intraplate fault: A case study of the Southern Yangsan Fault, SE Korea, Quat. Int., 553, 132-143, DOI: 10.1016/j.quaint.2020.07.025
Chai, G., Yoo, S., Rhie, J. and Kang, T., 2020. Stress?drop scaling of the 2016 Gyeongju and 2017 Pohang earthquake sequences using coda?based methods, Bull. seism. Soc. Am., 110, 5, 2047-2057, DOI: 10.1785/0120200132
Woo, J., Kim, M., Rhie, J. and Kang, T., 2020. Aftershock sequence and statistics of the 2017 Mw 5.5 Pohang, South Korea, earthquake: Implications of fault heterogeneity and postseismic relaxation, Bull. seism. Soc. Am., 110, 5, 2031-2046, DOI: 10.1785/0120200059
Palgunadi, K.H., Gabriel, A., Ulrich, T., Lopez?Comino, J.A. and Mai, P.M., 2020. Dynamic fault interaction during a fluid?injection?induced earthquake: The 2017 Mw 5.5 Pohang event, Bull. seism. Soc. Am., 110, 5, 2328-2349, DOI: 10.1785/0120200106
Chang, K.W., Yoon, H., Kim, Y. and Lee, M.Y., 2020. Operational and geological controls of coupled poroelastic stressing and pore-pressure accumulation along faults: Induced earthquakes in Pohang, South Korea, Sci. Rep., 10, 2073, DOI: 10.1038/s41598-020-58881-z
Westaway, R. and Burnside, N.M., 2019. Fault “Corrosion” by fluid injection: A potential cause of the November 2017 5.5 Korean earthquake, Geofluids, 2019, 1-23, DOI: 10.1155/2019/1280721
Kim, J.-C., Shin, S.-H. and Oh, S.-H., 2019. Damage Investigation of Pilotis Structures and Analysis of Damage Causes by Pohang Earthquake, J. Archit. Inst. Korea Struct. Constr., 35, 3, 3-10, DOI: 10.5659/JAIK_SC.2019.35.3.3
Baik, H., Son, Y.-S. and Kim, K.-E., 2019. Detection of liquefaction phenomena from the 2017 Pohang (Korea) earthquake using remote sensing data, Remote Sensing, 11, 18, 2184, DOI: 10.3390/rs11182184
Ellsworth, W.L., Giardini, D., Townend, J., Ge, S. and Shimamoto, T., 2019. Triggering of the Pohang, Korea, earthquake (Mw?5.5) by enhanced geothermal system stimulation, Seismol. Res. Lett., , DOI: 10.1785/0220190102
Lee, K.-K., Ellsworth, W.L., Giardini, D., Townend, J., Ge, S., Shimamoto, T., Yeo, I.-W., Kang, T.-S., Rhie, J., Sheen, D.-H., Chang, C., Woo, J.-U. and Langenbruch, C., 2019. Managing injection-induced seismic risks, Science, 364, 6442, 730-732, DOI: 10.1126/science.aax1878
Naik, S.P., Kim, Y.-S., Kim, T. and Su-Ho, J., 2019. Geological and structural control on localized ground effects within the Heunghae Basin during the Pohang earthquake (MW 5.4, 15th November 2017), South Korea, Geosciences, 9, 4, , DOI: 10.3390/geosciences9040173
Choi, J., Ko, K., Gihm, Y.S., Cho, C.S., Lee, H., Song, S.G., Bang, E., Lee, H., Bae, H., Kim, S.W., Choi, S., Lee, S.S. and Lee, S.R., 2019. Surface deformations and rupture processes associated with the 2017 Mw 5.4 Pohang, Korea, earthquake, Bull. seism. Soc. Am., 109, 2, 756-769, DOI: 10.1785/0120180167
Kang, S., Kim, B., Bae, S., Lee, H. and Kim, M., 2019. Earthquake-Induced Ground Deformations in the Low-Seismicity Region: A Case of the 2017 M5.4 Pohang, South Korea, Earthquake, Earthq. Spectra, 35, 3, 1235-1260, DOI: 10.1193/062318eqs160m
Woo, J.-U., Kim, M., Sheen, D.-H., Kang, T.-S., Rhie, J., Grigoli, F., Ellsworth, W.L. and Giardini, D., 2019. An in-depth seismological analysis revealing a causal link between the 2017 MW 5.5 Pohang earthquake and EGS project, J. geophys. Res.: Solid Earth, 124, 12, 13060-13078, DOI: 10.1029/2019JB018368
Kang, S., Kim, B., Cho, H., Lee, J., Kim, K., Bae, S. and Sun, C., 2019. Ground?motion amplifications in small?size hills: Case study of Gokgang?ri, South Korea, during the 2017 ML 5.4 Pohang earthquake sequence, Bull. seism. Soc. Am., 109, 6, 2626-2643, DOI: 10.1785/0120190064
Eom, T.S., Lee, S.J. and Park, H.G., 2019. Investigation of Structural Damage in Bearing Wall Buildings with Pilotis by 2017 Pohang Earthquake, J. Earthq. Eng. Soc. Korea, 23, 1, 9-18, DOI: 10.5000/eesk.2019.23.1.009
Gihm, Y.S., Kim, S.W., Ko, K., Choi, J.-H., Bae, H., Hong, P.S., Lee, Y., Lee, H., Jin, K., Choi, S.-J., Kim, J.C., Choi, M.S. and Lee, S.R., 2018. Paleoseismological implications of liquefaction-induced structures caused by the 2017 Pohang Earthquake, Geosci. J., 22, 6, 871-880, DOI: 10.1007/s12303-018-0051-y
Hong, T.-K., Lee, J., Park, S. and Kim, W., 2018. Time-advanced occurrence of moderate-size earthquakes in a stable intraplate region after a megathrust earthquake and their seismic properties, Sci. Rep., 8, 13331, DOI: 10.1038/s41598-018-31600-5
Song, S.G. and Lee, H., 2018. Static slip model of the 2017 Mw 5.4 Pohang, South Korea, earthquake constrained by the InSAR Data, Seismol. Res. Lett., 90, 1, 140-148, DOI: 10.1785/0220180156
Heo, T.M., Kim, J.H., Lee, J.H. and Kim, J.K., 2018. Response Spectra of 2017 Pohang Earthquake and Comparison with Korean Standard Design Spectra, J. Earthq. Eng. Soc. Korea, 22, 3, 129-137, DOI: 10.5000/eesk.2018.22.3.129
Jee, H.W. and Han, S.W., 2018. Prediction of Peak Ground Acceleration Generated from the 2017 Pohang Earthquake, J. Earthq. Eng. Soc. Korea, 22, 3, 211-217, DOI: 10.5000/eesk.2018.22.3.211
Kang, H.G., Yun, N.-R., Kim, D., Lee, J.H., Kim, H.W. and Oh, K.H., 2018. Improvement of Post-earthquake Risk Assesment System for Damaged Buildings by Case Study on ‘11.15 Earthquake’, J. Earthq. Eng. Soc. Korea, 22, 3, 185-191, DOI: 10.5000/eesk.2018.22.3.185
Eem, S.-H., Yang, B. and Jeon, H., 2018. Earthquake Damage Assessment of Buildings Using Opendata in the Pohang and the Gyeongju Earthquakes, J. Earthq. Eng. Soc. Korea, 22, 3, 121-128, DOI: 10.5000/eesk.2018.22.3.121
Sohn, D.-H., Park, S.-C., Lee, W.-J. and Lee, D.K., 2018. GPS Ionospheric Perturbations Following ML ≥ 5.0 Earthquakes in Korean Peninsula, Korean J. Remote Sens., 34, 6_4, 1531-1544, DOI: 10.7780/kjrs.2018.34.6.4.6
Eem, S.-H. and Choi, I.-K., 2018. Seismic Response Analysis of Nuclear Power Plant Structures and Equipment due to the Pohang Earthquake, J. Earthq. Eng. Soc. Korea, 22, 3, 113-119, DOI: 10.5000/eesk.2018.22.3.113
Grigoli, F., Cesca, S., Rinaldi, A.P., Manconi, A., Lopez-Comino, J.A., Clinton, J.F., Westaway, R., Cauzzi, C., Dahm, T. and Wiemer, S., 2018. The November 2017 Mw 5.5 Pohang earthquake: A possible case of induced seismicity in South Korea, Science, 360, 6392, 1003-1006, DOI: 10.1126/science.aat2010
Kim, K.-H., Ree, J.-H., Kim, Y., Kim, S., Kang, S.Y. and Seo, W., 2018. Assessing whether the 2017 Mw 5.4 Pohang earthquake in South Korea was an induced event, Science, 360, 6392, 1007-1009, DOI: 10.1126/science.aat6081
Lee, W.-J., Park, S.-C., Kim, S.-W. and Lee, D.K., 2018. Application of satellite imagery to research on earthquake and volcano, Korean J. Remote Sens., 34, 6-4, 1469-1478, DOI: 10.7780/kjrs.2018.34.6.4.1
Kim, J., Kim, J., Eijima, Y. and Kato, T., 2018. The present situation and characteristics of earthquake disaster response case in Pohang earthquake, AIJ J. Technol. Design, 24, 58, 1319-1324, DOI: 10.3130/aijt.24.1319
Walter, W.R., Dodge, D.A., Ichinose, G., Myers, S.C., Pasyanos, M.E. and Ford, S.R., 2018. Body?wave methods of distinguishing between explosions, collapses, and earthquakes: Application to recent events in North Korea, Seismol. Res. Lett., , DOI: 10.1785/0220180128
Lee, D.H., Shim, J.Y. and Jeon, J.-S., 2016. Damage Potential of a Domestic Metropolitan Railway Bridge subjected to 2016 Gyeongju Earthquake, J. Earthq. Eng. Soc. Korea, 20, 7 Special, 461-472, DOI: 10.5000/eesk.2016.20.7.461
Lee, D.H. and Jeon, J.-S., 2016. Seismic Performance Assessment of a Mid-Rise RC Building subjected to 2016 Gyeongju Earthquake, J. Earthq. Eng. Soc. Korea, 20, 7 Special, 473-483, DOI: 10.5000/eesk.2016.20.7.473