東京大学地震研究所  災害科学系研究部門
応用地震学研究室
教授 纐纈 一起 (こうけつ かずき)
ホーム トピックス 人々 研究活動 教育活動 Computer リンク集 English

[?]: Google Scholarでカウントされた引用回数
{?}: Web of Scienceでカウントされた引用回数

(a) 査読論文
  1. Diao, H., H Miyake and K. Koketsu, Near‐fault broadband ground‐motion simulations of the 2016 Meinong, Taiwan, earthquake, Bull. Seismol. Soc. Am., 108, 3336-3357, 2018.
  2. Nakayachi, K., B. B. Johnson and K. Koketsu, Effects of acknowledging uncertainty about earthquake risk estimates on San Francisco Bay Area residents’ beliefs, attitudes, and intentions, Risk analysis, 38, 666-679, 2018. [2]
  3. 引田智樹・纐纈一起・三宅弘恵, 観測地震動振幅の偶然的不確実性によるばらつき, 日本地震工学会論文集, 18(2), 15-34, 2018.
  4. Diao, H., H. Kobayashi and K. Koketsu, Rupture process of the 2016 Meinong, Taiwan, earthquake and its effects on strong ground motions, Bull. Seismol. Soc. Am., 108, 163-174, 2018.
  5. Pramatadie, A. M., H. Yamanaka, K. Chimoto, Afnimar, K. Koketsu, M. Sakaue, H. Miyake, I W. Sengara and I. A. Sadisun, Microtremor exploration for shallow S-wave velocity structure in Bandung Basin, Indonesia, Exploration Geophysics, 48, 401-412, 2017. [1]
  6. Kobayashi, H., K. Koketsu and H. Miyake, Rupture processes of the 2016 Kumamoto earthquake sequence: Causes for extreme ground motions, Geophys. Res. Lett., 44, 6002-6010, 2017. [10]
  7. Poiata, N., H. Miyake and K. Koketsu, Mechanisms for generation of near-fault ground motion pulses for dip-slip faulting, Pure Appl. Geophys., 174, 3521-3536, 2017. [2]
  8. Viens, L., H. Miyake and K. Koketsu, Simulations of long‐period ground motions from a large earthquake using finite rupture modeling and the ambient seismic field, J. Geophys. Res., 121, 8774-8791, 2016. [5]
  9. Kobayashi, H., K. Koketsu, H. Miyake, N. Takai, M. Shigefuji, M. Bhattarai and S. N. Sapkota, Joint inversion of teleseismic, geodetic, and near‑field waveform datasets for rupture process of the 2015 Gorkha, Nepal, earthquake, Earth Planets Space, 68:66, doi:10.1186/s40623-016-0441-1, 2016. [5]
  10. Ibrahim, R., H. Si, K. Koketsu and H. Miyake, Long‐period site response in northeastern Japan from ground‐motion prediction equations, Bull. Seismol. Soc. Am., 106, 2521-2531, 2016.
  11. Yun, S., K. Koketsu and R. Kobayashi, Source process of the 1923 Kanto earthquake considering subduction interface geometry and amplification effects caused by the large‐scale and 3D complex sedimentary basin, Bull. Seismol. Soc. Am., 106, 2817-2830, 2016.
  12. Koketsu, K., An overview of joint inversion in earthquake source imaging, J. Seismol., 20, 1131-1150, 2016. [3]
  13. Koketsu, K., H. Miyake, Y. Guo, H. Kobayashi, T. Masuda, S. Davuluri, M. Bhattarai, L. B. Adhikari and S. N. Sapkota, Widespread ground motion distribution caused by rupture directivity during the 2015 Gorkha, Nepal earthquake, Sci. Rep., 6, doi:10.1038/srep28536, 2016. [17]
  14. Ibrahim, R., H. Si, K. Koketsu and H. Miyake, Moment magnitude estimation of large earthquakes based on long-period ground motion prediction equations and preassumed fault models, J. Earthq. Tsunami, 10, doi:10.1142/S1793431116400042, 2016.
  15. Guo, Y., K. Koketsu and H. Miyake, Propagation mechanism of long‐period ground motions for offshore earthquakes along the Nankai trough: Effects of the accretionary wedge, Bull. Seismol. Soc. Am., 106, 1176-1197, 2016. [9]
  16. Wang, D., J. Mori and K. Koketsu, Fast rupture propagation for large strike-slip earthquakes, Earth Planet. Sci. Lett., 440, 115-126, 2016. [13]
  17. Viens, L., K. Koketsu, H. Miyake, S. Sakai and S. Nakagawa, Basin‐scale Green's functions from the ambient seismic field recorded by MeSO‐net stations, J. Geophys. Res., 121, 2507-2520, 2016. [12]
  18. Ibrahim, R., H. Si, K. Koketsu and H. Miyake, Long‐period ground‐motion prediction equations for moment magnitude estimation of large earthquakes in Japan, Bull. Seism. Soc. Am., 106, 54-72, 2016. [4]
  19. 津野靖士・山中浩明・翠川三郎・地元孝輔・宮腰寛之・佐口浩一郎・酒井慎一・三宅弘恵・纐纈一起, 2011年東北地方太平洋沖地震の東京湾西岸部に於ける周期2~3秒の強震動生成要因, 日本地震工学会論文集, 16(4), 35-51, 2016. (論文賞)
  20. 司宏俊・纐纈一起・三宅弘恵, プレート境界巨大地震の地震動距離減衰特性, 日本地震工学会論文集, 16, 96-105, 2016. [2]
  21. Chadha, R. K., D. Srinagesh, D. Srinivas, G. Suresh, A. Sateesh, S. K. Singh, X. Pérez‐Campos, K. Koketsu, T. Masuda, K. Domen and T. Ito, CIGN, a strong‐motion seismic network in central Indo‐Gangetic plains, foothills of Himalayas: First Results, Seismol. Res. Lett., 87, 37-46, 2016. [7]
  22. Murotani, S., K. Shimazaki and K. Koketsu, Rupture process of the 1946 Nankai earthquake estimated using seismic waveforms and geodetic data, J. Geophys. Res., 120, 5677-5692, 2015. [4]
  23. Viens, L., H. Miyake and K. Koketsu, Long‐period ground motion simulation of a subduction earthquake using the offshore-onshore ambient seismic field, Geophys. Res. Lett., 42, 5282-5289, 2015. [7]
  24. Ishise, M., H. Miyake and K. Koketsu, Dual subduction tectonics and plate dynamics of central Japan shown by three-dimensional P-wave anisotropic structure, Phys. Earth Planet. Inter., 244, 49-68, 2015. [3]
  25. Yagoda-Biran, G., J. G. Anderson, H. Miyake and K. Koketsu, Between-event variance for large repeating earthquakes, Bull. Seism. Soc. Am., 105, 2023-2040, 2015. [2]
  26. 纐纈一起・大木聖子, ラクイラ地震裁判 —災害科学の不定性と科学者の責任—, 科学技術社会論研究, 11, 50-67, 2015. [2]
  27. Yokota, Y. and K. Koketsu, A very long-term transient event preceding the 2011 Tohoku earthquake, Nature Commun., 6, doi:10.1038/ncomms6934, 2015. [26]
  28. 早川崇・津田健一・三宅弘恵・纐纈一起, 関東平野における周期2∼4秒のサイト特性分布, 日本建築学会構造系論文集, 701, 895-904, 2014.
  29. Ibrahim, R., H. Si, K. Koketsu and H. Miyake, Empirical spectral acceleration amplification in the Iwate-Miyagi and Niigata regions, Japan, inferred by a spectral ratio method, Bull. Seism. Soc. Am., 104, 1410-1429, 2014. [6]
  30. 安井譲・西川隼人・前田寿朗・長郁夫・小嶋啓介・纐纈一起・宮島昌克, 地震動H/Vスペクトルによる地盤構造逆解析の適用性 ー福井地域の記録を用いた事例研究ー, 土木学会論文集A1, 70, I_628-I_643, 2014.
  31. 司宏俊・纐纈一起・三宅弘恵・李小軍, 基于基岩衰減公式的汶川・盧山地震強震動評価, 地震工程与工程振動, 34(4), 93-100, 2014. [1]
  32. Guo, Y., K. Koketsu and T. Ohno, Analysis of the rupture process of the 1995 Kobe earthquake using a 3D velocity structure, Earth Planets Space, 65, 1581-1586, 2013. [4]
  33. Yukutake, Y., M. Miyazawa, R. Honda, M. Harada, H. Ito, M. Sakaue, K. Koketsu and A.Yoshida, Remotely triggered seismic activity in Hakone volcano during and after the passage of surface waves from the 2011 M9.0 Tohoku-Oki earthquake, Earth Planet. Sci. Lett., 373, 205-216, 2013. [19]
  34. 安井譲・西川隼人・小嶋啓介・前田寿朗・纐纈一起・宮島昌克, サイト増幅特性を用いた地震動 H/V スペクトルの計算法に関する考察ー福井地域の地震観測記録を対象としてー, 土木学会論文集A1, 69, I_280-I_290, 2013. [1]
  35. Yokota, Y., Y. Kawazoe, S. Yun, S. Oki, Y. Aoki and K. Koketsu, Joint inversion of teleseismic and InSAR datasets for the rupture process of the 2010 Yushu, China, earthquake, Earth Planets Space, 64, 1047-1051, 2012. [9]
  36. Poiata, N., K. Koketsu, A. Vuan and H. Miyake, Low-frequency and broad-band source models for the 2009 L'Aquila, Italy, earthquake, Geophys. J. Int., 191, 224-242, 2012. [14]
  37. Poiata, N., H. Miyake, K. Koketsu and K. Hikima, Strong-motion and teleseismic waveform inversions for the source process of the 2003 Bam, Iran, earthquake, Bull. Seism. Soc. Am., 102, 1477-1496, 2012. [10]
  38. Roten, D., H. Miyake and K. Koketsu, A Rayleigh wave back-projection method applied to the 2011 Tohoku earthquake, Geophys. Res. Lett., 39, L02302, 2012. [29]
  39. Iizuka, H., Y. Sakai and K. Koketsu, Strong ground motions and damage conditions associated with seismic stations in the February 2011 Christchurch, New Zealand, earthquake, Seismol. Res. Lett., 82, 875-881, 2011. [12]
  40. Koketsu, K., Y. Yokota, N. Nishimura, Y. Yagi, S. Miyazaki, K. Satake, Y. Fujii, H. Miyake, S. Sakai, Y. Yamanaka and T. Okada, A unified source model for the 2011 Tohoku earthquake, Earth Planet. Sci. Lett., 310, 480-487, 2011. [217]
  41. Mak, S. and K. Koketsu, Shortest path ray tracing in cell model with a second-level forward star, Geophys. J. Int., 186, 1279-1284, 2011. [1]
  42. Lavallee, D., H. Miyake and K. Koketsu, Stochastic model of a subduction-zone earthquake: Sources and ground motions for the 2003 Tokachi-oki, Japan, earthquake, Bull. Seism. Soc. Am., 101, 1807-1821, 2011. [8]
  43. Yokota, Y., K. Koketsu, Y. Fujii, K. Satake, S. Sakai, M. Shinohara and T. Kanazawa, Joint inversion of strong motion, teleseismic, geodetic, and tsunami datasets for the rupture process of the 2011 Tohoku earthquake, Geophys. Res. Lett., 38, L00G21, 2011. [142]
  44. 木村武志・竹本帝人・塚越大・坂上実・三宅弘恵・纐纈一起, スペクトルインバージョンに基づく2008年岩手・宮城内陸地震の余震の震源特性と震源域のサイト増幅特性, 日本地震工学会論文集, 11, 5, 28-40, 2011.
  45. Ghasemi, H., Y. Fukushima, K. Koketsu, H. Miyake, Z. Wang and J. G. Anderson, Ground-motion simulation for the 2008 Wenchuan, China, earthquake using the stochastic finite-fault method, Bull. Seism. Soc. Am., 100, 2476-2490, 2010. [23]
  46. Kimura, T., K. Koketsu, H. Miyake, C. Wu and T. Miyatake, Dynamic source modeling of the 1978 and 2005 Miyagi-oki earthquakes: Interpretation of fracture energy, J. Geophys. Res., 115, B08302, 2010. [3]
  47. Tsuda, K., K. Koketsu, Y. Hisada and T. Hayakawa, Inversion analysis of site responses in the Kanto basin using data from a dense strong motion seismograph array, Bull. Seism. Soc. Am., 100, 1276-1287, 2010. [22]
  48. Poiata, N., K. Koketsu and H. Miyake, Source processes of the 2009 Irian Jaya, Indonesia, earthquake doublet, Earth Planets Space, 62, 475-481, 2010. [4]
  49. Miyake, H., K. Koketsu, K. Hikima, M. Shinohara and T. Kanazawa, Source fault of the 2007 Chuetsu-oki, Japan, earthquake, Bull. Seism. Soc. Am., 100, 384-391, 2010. [35]
  50. 山中浩明・地元孝輔・諸井孝文・池浦友則・纐纈一起・坂上実・中井正一・関口徹・小田義也, 南関東地域における微動の長期連続観測記録の地震波干渉法処理による表面波の群速度の推定, 物理探査, 63, 409-425, 2010. [6]
  51. Ghasemi, H., M. Zare, Y. Fukushima and K. Koketsu, An empirical spectral ground-motion model for Iran, J. Seismol., 13, 499-515, 2009. [74]
  52. 纐纈一起・三宅弘恵, 地下構造モデルと強震動シミュレーション, 地震2, 61, S441-S453, 2009. [3]
  53. Koketsu, K., H. Miyake, Afnimar and Y. Tanaka, A proposal for a standard procedure of modeling 3-D velocity structures and its application to the Tokyo metropolitan area, Japan, Tectonophysics, 472, 290-300, 2009. [30]
  54. Yokota, Y., K. Koketsu, K. Hikima and S. Miyazaki, Ability of 1-Hz GPS data to infer the source process of a medium-sized earthquake: The case of the 2008 Iwate-Miyagi Nairiku, Japan, earthquake, Geophys. Res. Lett., 36, L12301, 2009. [45]
  55. Ishise, M., K. Koketsu and H. Miyake, Slab segmentation revealed by anisotropic P-wave tomography, Geophys. Res. Lett., 36, L08308, 2009. [8]
  56. Murotani, S., H. Miyake and K. Koketsu, Scaling of characterized slip models for plate-boundary earthquakes, Earth Planets Space, 60, 987-991, 2008. [70]
  57. Wu, C., K. Koketsu and H. Miyake, Source processes of the 1978 and 2005 Miyagi-oki, Japan, earthquakes: Repeated rupture of asperities over successive large earthquakes, J. Geophys. Res., 113, B08316, doi:10.1029/2007JB005189, 2008. [46]
  58. Ikegami, Y., K. Koketsu, T. Kimura and H. Miyake, Finite-element simulations of long-period ground motions: Japanese subduction-zone earthquakes and the 1906 San Francisco earthquake, J. Seismol., 12, 161-172, 2008. [9]
  59. Koketsu, K. and H. Miyake, A seismological overview of long-period ground motion, J. Seismol., 12, 133-143, 2008. [80]
  60. Furumura, T., T. Hayakawa, M. Nakamura, K. Koketsu and T. Baba, Development of long-period ground motions from the Nankai Trough, Japan, earthquakes: Observations and computer simulation of the 1944 Tonankai (Mw 8.1) and the 2004 SE Off-Kii Peninsula (Mw 7.4) earthquakes, Pure Appl. Geophys., 165, 585-607, 2008. [49]
  61. Takahashi, T., T. Ebisuzaki and K. Koketsu, A hardware acceleration of the time domain boundary integral equation method for the wave equation in two dimensions, Engineering Analysis with Boundary Elements, 31, 95-102, 2007. [1]
  62. Koketsu, K. and H. Miyake, Earthquake observation and strong motion seismology in Japan from 1975 to 2005, J. Disas. Res., 1, 407-414, 2006.
  63. Tsuda, K., R. J. Archuleta and K. Koketsu, Quantifying the spatial distribution of site response by use of the Yokohama high-density strong-motion network, Bull. Seism. Soc. Am., 96, 926-942, 2006. [17]
  64. Miyake, H., Y. Tanaka, M. Sakaue, K. Koketsu and Y. Ishigaki, Empirical Green's function simulation of broadband ground motions on Genkai Island during the 2005 West Off Fukuoka Prefecture earthquake, Earth Planets Space, 58, 1637-1642, 2006. [9]
  65. Kobayashi, R., S. Miyazaki and K. Koketsu, Source processes of the 2005 West Off Fukuoka Prefecture earthquake and its largest aftershock inferred from strong motion and 1-Hz GPS data, Earth Planets Space, 58, 57-62, 2006. [31]
  66. Hikima, K. and K. Koketsu, Rupture processes of the 2004 Chuetsu (mid-Niigata prefecture) earthquake, Japan: A series of events in a complex fault system, Geophys. Res. Lett., 32, L18303, 2005. [96]
  67. Sato, H., N. Hirata, K. Koketsu, D. Okaya, S. Abe, R. Kobayashi, M. Matsubara, T. Iwasaki, T. Ito, T. Ikawa, T. Kawanaka, K. Kasahara and S. Harder, Earthquake source fault beneath Tokyo, Science, 309, 462-464, 2005. [127]
  68. Miyake, H. and K. Koketsu, Long-period ground motions from a large offshore earthquake: The case of the 2004 off the Kii peninsula earthquake, Japan, Earth Planets Space, 57, 203-207, 2005. [59]
  69. Megawati K., T.-C. Pan and K. Koketsu, Response spectral attenuation relationships for Sumatran-subduction earthquakes and the seismic hazard implications to Singapore and Kuala Lumpur, Soil Dyn. Earthq. Eng., 25, 11-25, 2005. [59]
  70. Kobayashi, R. and K. Koketsu, Source process of the 1923 Kanto earthquake inferred from historical geodetic, teleseismic, and strong motion data, Earth Planets Space, 57, 261-270, 2005. [43]
  71. Koketsu, K., K. Hatayama, T. Furumura, Y. Ikegami and S. Akiyama, Damaging long-period ground motions from the 2003 Mw 8.3 Tokachi-oki, Japan, earthquake, Seismol. Res. Lett., 76, 67-73, 2005. [78]
  72. Koketsu, K., H. Fujiwara and Y. Ikegami, Finite-element simulation of seismic ground motion with a voxel mesh, Pure Appl. Geophys., 161, 2183-2198, 2004. [87]
  73. 境有紀・神野達夫・纐纈一起, 震度の高低によって地震動の周期帯を変化させ た震度算定法の提案, 建築学会構造系論文集, 585, 71-76, 2004. [58]
  74. Miyazaki, S., K. M. Larson, K. Choi, K. Hikima, K. Koketsu, P. Bodin, J. Haase, G. Emore and A. Yamagiwa, Modeling the rupture process of the 2003 September 25 Tokachi-Oki (Hokkaido) earthquake using 1-Hz GPS data, Geophys. Res. Lett., 31, L21603, 2004. [141]
  75. Umutlu, N., K. Koketsu and C. Milkereit, The rupture process of the 1999 Duzce, Turkey, earthquake from joint inversion of teleseismic and strong-motion data, Tectonophysics, 391, 315-324, 2004. [32]
  76. Koketsu, K., K. Hikima, S. Miyazaki and S. Ide, Joint inversion of strong motion and geodetic data for the source process of the 2003 Tokachi-oki, Hokkaido, earthquake, Earth Planets Space, 56, 329-334, 2004. [96]
  77. Hikima, K. and K. Koketsu, Source processes of the foreshock, mainshock and largest aftershock in the 2003 Miyagi-ken Hokubu, Japan, earthquake sequence, Earth Planets Space, 56, 87-93, 2004. [21]
  78. Megawati, K., T.-C. Pan and K. Koketsu, Response spectral attenuation relationships for Singapore and the Malay peninsula due to distant Sumatran-fault earthquakes, Earthq. Eng. Struct. Dyn., 32, 2241-2265, 2003. [32]
  79. Furumura, T., B. L. N. Kennett and K. Koketsu, Visualization of 3D wave propagation from the 2000 Tottori-ken Seibu, Japan, earthquake: Observation and numerical simulation, Bull. Seism. Soc. Am., 93, 870-881, 2003. [43]
  80. 纐纈一起・古村孝志, 2001年芸予地震の強震動分布と深部地下構造, 地震2, 55, 97-105, 2002. [6]
  81. Afnimar, K. Koketsu and K. Nakagawa, Joint inversion of refraction and gravity data for the three-dimensional topography of a sediment-basement interface, Geophys. J. Int., 151, 243-254, 2002. [35]
  82. Furumura, T., K. Koketsu and K.-L. Wen, Parallel PSM/FDM hybrid simulation of ground motions from the 1999 Chi-Chi, Taiwan, earthquake, Pure Appl. Geophys., 159, 2133-2146, 2002. [33]
  83. 境有紀・纐纈一起・神野達夫, 建物被害率の予測を目的とした地震動の破壊力 指標の提案, 建築学会構造系論文集, 555, 85-91, 2002. [77]
  84. Koketsu, K., M. Takahashi and S. Sakai, Accidental explosions observed by seismometers, Seismol. Res. Lett., 73, 136-143, 2002. [1]
  85. 境有紀・吉岡伸悟・纐纈一起・壁谷澤寿海, 1999年台湾集集地震に基づいた建 築被害を予測する地震動の破壊力指標の検討, 建築学会構造系論文集, 549, 43-50, 2001. [30]
  86. Megawati, K., H. Higashihara and K. Koketsu, Derivation of near-source ground motions of the 1995 Kobe (Hyogo-ken Nanbu) earthquake from vibration records of the Akashi Kaikyo Bridge and its implications, Engineering Structures, 23, 1256-1268, 2001. [16]
  87. 古村孝志・纐纈一起・坂上実・山中佳子・高橋正義, 2000年伊豆諸島群発地震 における式根島の震度異常と地盤増幅特性, 地震2, 54, 299-308, 2001. [1]
  88. Sekine, S. and K. Koketsu, Parametrized shooting of seimic rays in a spherical earth with discontinuities, Geophys. J. Int., 146, 497-503, 2001. [2]
  89. 菊地正幸・山中佳子・纐纈一起, 三宅島2000年噴火活動に伴う長周期地震のメカ ニズムとその解釈, 地学雑誌, 110, 204-216, 2001. [36]
  90. Kasahara, J., S. Nakao and K. Koketsu, Tidal influence on the 2000 Miyake-jima eruption and its implications for hydrothermal activities and volcanism, Proc. Japan Academy, 77(6), 99-104, 2001. {3}
  91. Afnimar and K. Koketsu, Finite-difference traveltime calculation for head waves traveling along an irregular interface, Geophys. J. Int., 143, 729-734, 2000. [35]
  92. Furumura, T. and K. Koketsu, Parallel 3-D simulation of ground motion for the 1995 Kobe earthquake: The component decomposition approach, Pure Appl. Geophys., 157, 2047-2062, 2000. [22]
  93. 古村孝志・纐纈一起・竹中博士, 大規模3次元地震波動場(音響場) モデリングのためのPSM/FDMハイブリッド型並列計算, 物理探査, 53, 294-308, 2000. [3]
  94. Koketsu, K. and T. Yoshii, A seismicity database and interactive retrieval tool: SeisView, Computers & Geosciences, 26, 839-845, 2000. [1]
  95. Koketsu, K. and M. Kikuchi, Propagation of seismic ground motion in the Kanto basin, Japan, Science, 288, 1237-1239, 2000. [79]
  96. 境有紀・吉岡伸悟・纐纈一起・壁谷澤寿海, 1999年台湾集集地震で被災した鉄筋コンクリート造建物の地震応答解析, コンクリート工学年次論文報告集, 22, 1441-1446, 2000.
  97. Koketsu, K., Imaging earthquake fault rupture by waveform inversion, Butsuri-Tansa (Geophys. Explor.), 52, 505-513, 1999.
  98. Koketsu, K. and T. Furumura, Imaging earthquake fault rupture and simulating seismic ground motion, Leading Edge, 18, 1414-1416, 1999. [2]
  99. Koketsu, K., S. Yoshida, and H. Higashihara, A fault model of the 1995 Kobe earthquake derived from the GPS data on the Akashi Kaikyo Bridge and other datasets, Earth Planets Space, 50, 803-811, 1998. [30]
  100. Furumura, T. and K. Koketsu, Specific distribution of ground motion during the 1995 Kobe earthquake and its generation mechanism, Geophys. Res. Lett., 25, 785-788, 1998. [78]
  101. Koketsu, K. and S. Sekine, Pseudo-bending method for three-dimensional seismic ray tracing in a spherical earth with discontinuities, Geophys. J. Int., 132, 339-346, 1998. [98]
  102. 古村孝志・竹中博士・纐纈一起, Pseudospectral法による地震波動の 3次元計算, 物理探査, 49, 536-548, 1996. [5]
  103. Yoshida, S., K. Koketsu, B. Shibazaki, T. Sagiya, T. Kato and Y. Yoshida, Joint inversion of the near- and far-field waveforms and geodetic data for the rupture process of the 1995 Kobe earthquake, J. Phys. Earth, 44, 437-454, 1996. [220]
  104. Takenaka, H., M. Ohori, K. Koketsu and B. L. N. Kennett, An efficient approach to the seismogram synthesis for a basin strucuture using propagation invariant, Bull. Seism. Soc. Am., 86, 379-388, 1996. [8]
  105. 纐纈一起, 首都圏の地下構造, 物理探査, 48, 504-518, 1995. [7]
  106. 纐纈一起, 基盤構造の探査, 地震2, 46, 351-370, 1993. [15]
  107. Takenaka, H., B. L. N. Kennett and K. Koketsu, The integral operator representation of propagation invariants for elastic waves in irregularly layered media, Wave Motion, 17, 299-317, 1993. [10]
  108. 大堀道広・竹中博士・纐纈一起・南 忠夫, Aki-Larner法における計算領域の 省力化, 地震2, 45, 357-363, 1993. [4]
  109. Koketsu, K. and S. Higashi, Three-dimensional topography of the sediment/basement interface in the Tokyo metropolitan area, central Japan, Bull. Seism. Soc. Am., 82, 2328-2349, 1992. [75]
  110. Ikami, A., S. Asano, K. Koketsu, T. Moriya, K. Ito, T. Tanada, K. Yoshida, T. Yabuki and N. Hirata, A shallow crustal structure as derived from an explosion seismic experiment, J. Phys. Earth, 40, 361-377, 1992. [6]
  111. Ohori, M., K. Koketsu and T. Minami, Seismic responses of three-dimensionally sediment-filled valleys due to incident plane waves, J. Phys. Earth, 40, 209-222, 1992. [16]
  112. 纐纈一起, 沈み込み帯における3次元レイトレーシング, 地震2, 44, 165-176, 1991. [10]
  113. Koketsu, K., B. L. N. Kennett and H. Takenaka, 2-D reflectivity method and synthetic seismograms in irregularly layered structures. II. Invariant embedding approach, Geophys. J. Int., 105, 119-130, 1991. [43]
  114. 纐纈一起, 研究展望: 不整形地盤における地震動, 土木学会論文集, 437(I-17), 1-18, 1991. [28]
  115. Yoshida, S. and K. Koketsu, Simultaneous inversion of waveform and geodetic data for the rupture process of the 1984 Naganoken-seibu, Japan, earthquake, Geophys. J. Int., 103, 355-362, 1990. [85]
  116. Kennett, B. L. N., K. Koketsu and A. J. Haines, Propagation invariants, reflection and transmission in anisotropic, laterally heterogeneous media, Geophys. J. Int., 103, 95-101, 1990. [29]
  117. Koketsu, K. and H. Yamanaka, The behavior of head waves propagating along irregular interfaces, J. Phys. Earth, 38, 75-82, 1990. [1]
  118. Kawasaki, I. and K. Koketsu, Rayleigh-Love wave coupling of surface waves in an azimuthally anisotropic medium, J. Phys. Earth, 38, 361-390, 1990. [15]
  119. 纐纈一起, 深さが負にならない震源決定, 地震2, 42, 325-331, 1989. [1]{2}
  120. 纐纈一起・竹中博士, 総合報告: 近地地震波の伝播に関する理論, 地震2, 42, 391-403, 1989. [25]
  121. 坪井誠司・纐纈一起・鷹野 澄・宮武 隆・阿部勝征・萩原幸男, 国立大学観測 網地震カタログの震源決定処理, 地震2, 42, 277-284, 1989. [2]{1}
  122. 纐纈一起・嶋悦三, 表面波 Gaussian Beam 法による不整形地盤の震動解析, 土質工学会論文報告集, 28, 216, 1988. [1]
  123. Kohketsu, K., 2-D reflectivity method and synthetic seismograms in irregularly layered structures. I. SH-wave generation, Geophys. J. Int., 89, 821-838, 1987. [45]
  124. Kohketsu, K., The extended reflectivity method for synthetic near-field seismograms, J. Phys. Earth, 33, 121-131, 1985. [117]
  125. Kohketsu, K., Reinterpretation of seismograms obtained by the Kurayosi explosions with the reflectivity method, J. Phys. Earth, 29, 255-265, 1981. [3]

2004年07月04日
2008年04月03日
2010年12月20日
2014年07月13日
2016年03月20日
2018年12月19日