1.
喜々津仁密、斉藤大樹、高橋郁夫、高田毅士、神田順、現行設計法における建築物の構造性能水準、構造工学論文集、45B、289, 1999.4
2.
Takada, T. and M. Kaneko, On New Treatment of
Modeling Uncertainty in the Framework of LRFD, Applications of Statistics and
Probability in Civil Engineering, R.E. Melchers and M.G. Stewart (eds.),
Sydney, Australia, 1999.12
3.
糸井達哉, 高田毅士, 神田順, 単純化した線状峰および孤立峰周辺の気流性状に関する風洞実験, 第16回風工学シンポジウム論文集, 41-46, 2000.12
4.
Takada, T. and T. Nakano, Seismic Load Effect
Directly Linked to Specified Collapse Mechanisms in Ultimate Limit State
Design, Proceedings of 12th World Conference on Earthquake Engineering,
Auckland, New Zealand, 2000.2
5.
串山繁、高田毅士、篠塚正宣、構造物の耐震信頼性評価/設計に関する米国の研究動向、構造工学論文集、Vol. 46B、2000.3、pp.111-120
6.
Takada, T. and Yamaguchi, K., Formulation of
nonlinear LRFD and its application to codified design, Structural Safety and
Reliability, R.B. Corotis, G.I. Schueller and M. Shinozuka (eds.), Newport
beach, USA, 2001.7
7.
Takada, T. and Yamaguchi, K., Two-step seismic
limit state design procedure based on non-linear LRFD and dynamic response
analysis, Structural Safety, 24, 2002, pp. 397-415
8.
糸井達哉, 高田毅士, 神田順, 荷重・耐力係数設計法に基づく外装材用設計風荷重設定法に関する基礎研究, 第17回風工学シンポジウム論文集, 2002.12
9.
高田毅士、越智沙香、神田順、確率論的想定地震の選定方法に関する基礎的考察、日本建築学会構造系論文集、第563号、2003.1, pp 53-59.
10. 高田毅士、下村哲人、台湾集集地震記録に基づく地震動のマクロ空間相関特性、日本建築学会構造系論文集、第565号、2003.3, pp 41-48.
11. 尾崎隆司、高田毅士、日本建築学会・荷重指針の地震荷重(案)に関して−初通過理論を用いたパワースペクトル密度関数と応答スペクトルの相互変換、構造工学論文集、2003.4
12. Takada, T. and Yamaguchi, K., Optimum Seismic Reliability Derived
for Dual Limit State, Applications of Statistics and Probability in Civil
Engineering, A. Der Kiureghian, S. Madanat and J. M. Pestana (eds.), San
Francisco, US, 2003.7
13. Itoi, T. and Takada, T., Stochastic Field Modeling of Ground Surface
Roughness for Estimation of Strong Wind Speed Profile, Applications of
Statistics and Probability in Civil Engineering, A. Der Kiureghian, S. Madanat
and J. M. Pestana (eds.), San Francisco, US, 2003.7
14. Osaki, T. and Takada, T., Seismic Fragility Assessment based on
Bayesian, Applications of Statistics and Probability in Civil Engineering, A.
Der Kiureghian, S. Madanat and J. M. Pestana (eds.), San Francisco, US, 2003.7
15. 下村哲人、高田毅士、マクロ空間相関特性を用いた地震動強さの推定、JCOSSAR2003, Vol. 5, 2003.11, pp 61-68.
16. Kanda, J., Itoi, T., Choi, H. and Takada, T., Load factors with wind
directionality effects for wind resistant design, Proceedings of 11th
International Conference on Wind Engineering (ICWE), 2003.6
17. Itoi, T., Choi, H., Takada, T. and Kanda, J., Aerodynamic roughness
model for one-dimensional stochastic obstacle arrays, Proceedings of 11th
International Conference on Wind Engineering (ICWE), 2003.6
18. Takada, T. and Shimomura, T., Stochastic Prediction of Seismic
Ground Motions Using Macro-Spatial Correlation Model, PSAM7 and ESREL, Berlin,
2004.7
19. Takada, T. and Shimomura, T., Macro-Spatial Correlation Structure of
Seismic Ground Motions of the 1999 Chi-Chi Earthquake, ASRANET, Barcelona,
2004.6
20. Takada, T., Iwasaki, R., An, D. D., Itoi, T. and Nishikawa, N.,
Dynamic Behavior Change of Buildings Before and After Seismically Retrofitting,
13th World Conference on Earthquake Engineering, Vancouver, B.C., Canada,
2004.8
21. Ishiyama, Y., Takada, T., Soda, S., Inoue, T., Matsumura, K., Tohdo,
M., Ishii, T., Ishida, H., Fukushima, S., Tamura, R. and Nakamura, H., On
Revision of AIJ Recommendations of Seismic Loads on Buildings, 13th World
Conference on Earthquake Engineering, Vancouver, B.C., Canada, 2004.8
22. Shimomura, T. and Takada, T., Joint PDF Ground Motion Intensity and
Duration Time Based on PSHA, 13th World Conference on Earthquake Engineering,
Vancouver, B.C., Canada, 2004.8
23. Takada, T. and Wang, M., Code Calibration for Implementation of
Limit State Design in Japan, APSSRA’04, Seoul, 2004.8
24. 糸井達哉、神田順、崔恒、高田毅士、地表面上の障害物群の統計的特徴に基づく平均風速鉛直分布の評価、日本建築学会構造系論文集、第587号、2005.1, pp 45-52
25. 高田毅士、大渕正博、地震動強さと継続時間の同時確率密度関数を用いた地震動の表現とその応用、日本建築学会構造系論文集、第589号、2005.3, pp 73-80
26. Tsuyoshi Takada, Tetsuto Shimomura and Masahiro Ohbuchi, Joint PDF
of Ground Motion Intensity and Duration Time Based on PSHA, ICOSSAR2005, Rome,
2005.6
27. Tsuyoshi Takada and Jun Kanda, AIJ Recommendation for Limit State
Design of Buildings, ICOSSAR2005, Rome, 2005.6
28. Min Wang and Tsuyoshi Takada, Macro-spatial correlation model of
seismic ground motions, ICOSSAR2005, Rome, 2005.6
29. Wang, M., Takada, T.: Macrospatial Correlation Model of Seismic
Ground Motions, Earthquake Spectra, Vol. 21, No. 4, 2005, pp.1137-1156.
30. Tsuyoshi Takada and Yoshito Horiuchi, Risk Comparison of Natural
Hazards in Japan, ASSRANET, Glasgow, 2006.7
31. Masahiro Ohbuchi, Yuichi Masuda and Tsuyoshi Takada, Energy
Representation of Earthquake Ground Motion for Probabilistic Seismic Hazard
Analysis, ASSRANET, Glasgow, 2006.7
32. Tsuyoshi Takada and Yoshito Horiuchi, Risk Comparison of Natural
Hazards in Japan, 4th International Conference on Earthquake Engineering,
Taipei, 2006.10
33. Min Wang and Tsuyoshi Takada, Site-specific Prediction of Seismic
Ground Motion with Bayesian Updating Framework, 4th International Conference on
Earthquake Engineering, Taipei, 2006.10
34. Wang, M., Takada, T.: A Bayesian Updating Framework for Prediction
of Site-Specific Seismic Ground Motion (ベイズ更新理論に基づくサイト固有の距離減衰式の構築), 日本建築学会構造系論文集,607,2006,pp.183.191.
35. 大渕正博・高田毅士:時刻歴波形構築のための地震動エネルギースペクトルに関する距離減衰式の提案,日本建築学会構造系論文集,611,2006,pp.21-27.
36. ダオユイアン・岩崎良二・高田毅士:ねじりの卓越する建物の常時微動測定結果に基づく剛心位置の推定法,構造工学論文集,Vol52B,2006,pp.65-74.
37. Wang, M., Takada, T.: Site-Specific Prediction of Seismic Ground
Motion with Bayesian Updating Framework, 4th International
Conference on Earthquake Engineering, Taipei, Taiwan, 2006, No. 004.
38. Ohbuchi, M., Masuda, Y., Takada, T.: Energy Representation of
Earthquake Ground Motion for Probabilistic Seismic Hazard Analysis, 3rd
ASRANet International Colloquium, Glasgow, 2006.
39. Takada, T., Ohbuchi, M., Horiuchi, Y.,: Risk Comparison of Natural
Hazards in Japan, 3rd ASRANet International Colloquium, Glasgow,
2006.
40. 大渕正博・高田毅士:地震動エネルギースペクトルに関する周期帯間の相関,JCOSSAR2007論文集,2007,pp.759-764.
41. 組谷彰太郎・高田毅士:異種災害の重合を表す確率過程モデルの構築に関する基礎的研究,構造工学論文集,Vol.53B,2007,pp.305-310.
42. 楊貴君、岩崎良二、高田毅士、連結構造物における定点理論に基づく質量比—周波数比空間の領域分類と最適パラメータの誘導、日本建築学会構造系論文集、第617号、2007.7, pp 71-76
43. Wang, M., Takada, T.: Bayesian updating for site-specific
attenuation relation with limited number of data, Application of Statistics and
Probability in Civil Engineering, ICASP10, 2007.
44. Hiraiwa, Y., Takada, T.: Seismic Vulnerability Assessment of
Buildings Functionally Connected in University Campus, Application of
Statistics and Probability in Civil Engineering, ICASP10, 2007.
45. Faber, M. H., Maes, M. A., Baker, J. W., Vrouwenvelder, T. Takada,
T.: Principles of risk assessment of engineered systems, Application of
Statistics and Probability in Civil Engineering, ICASP10, 2007.
46. Ohbuchi, M., Takada, T.: Correlation property for generation of
waveforms, Application of Statistics and Probability in Civil Engineering,
ICASP10, 2007.
47. Takada, T., Iwasaki, R.: Optimum absorber parameters for linked
structures with extensive mass-frequency-ratio, Application of Statistics and
Probability in Civil Engineering, ICASP10, 2007.
48. 友澤裕介・岩崎良二・高田毅士:制震効果を最大化する連結特性の特定,日本建築学会構造系論文集, 第631号,2008, pp.1529-1534.
49. 田中浩平・王敏・高田毅士:加速度応答スペクトルの周期間の共分散構造の解明とその応用,日本建築学会構造系論文集,第632号,2008,pp.1727-1733.
50. Kumitani, S., Takada, T.: Probabilistic Assessment of Buildings
Damage Considering Aftershocks of Earthquakes, 14th World Conference
on Earthquake Engineering, 2008.
51. Tanaka, K., Wang, M., Takada, T.: Covariance Structure between
Spectral Acceleration with Different Periods, 14th World Conference
on Earthquake Engineering, 2008.
52. Masuda, Y., Takada, T.: Statistical Characteristics of Spatial
Transfiguration of Waveforms Recorded in Some Recent Crustal Earthquakes in
Japan, 14th World Conference on Earthquake Engineering, 2008.
53. Tomozawa, Y., Iwasaki, R., Takada, T.: Optimum Connection Property
Based on Energy Distribution of Connected Nonlinear Buildings, 14th
World Conference on Earthquake Engineering, 2008.
54. Fukushima, S., Takada, T.: Probabilistic Comparison of Seismic
Design Response Spectra, 14th World Conference on Earthquake
Engineering, 2008.
55. 組谷彰太郎・高田毅士:余震発生を考慮した確率論的建物被害評価,日本建築学会構造系論文集, 第637号,2009, pp.459-465.
56. Wang, M., Takada, T.: A Bayesian Framework for Prediction of Seismic
Ground Motion, Bulletin of the Seismological Society of America, Vol. 99, No.
4, 2009, pp.2348-2364.
57. 田中浩平・高田毅士:既往観測波形インベントリーを用いた地震動予測のための波形選定手法の提案,日本建築学会構造系論文集,第646号,2009,pp.2219-2226.
58. M. Wang, K. Tanaka & T. Takada: Probabilistic seismic risk analysis
for building portfolio, 10th International Conference on Structural Safety
and Reliability, 2009
59. A. Yazdani & T. Takada: Stochastic sensitivity of ground motion parameters
to structural response, 10th International Conference on Structural Safety
and Reliability, 2009
60. M. Ohbuchi & T. Takada: Minimum prediction capability of ground motion, 10th International Conference on Structural Safety and Reliability, 2009.
61. 大渕正博・糸井達哉・高田毅士:構造物の性能規定型耐震設計のための設計用地震動設定手法の提案,日本建築学会構造系論文集,76(667),2011,pp.1583-1590.
62. 田中浩平・糸井達哉・高田毅士:地震動発生確率を付与した波形インベントリーを用いた設計用地震動選定手法 地震波系の確率論的地震ハザード評価における簡便法の提案,日本建築学会構造系論文集,76(667),2011,pp.1591-1600.
63. 田村良一・高田毅士・糸井達哉・石山祐二:非線形域の地盤・建物相互作用効果を考慮した比較的強度の高い中低層鉄筋コンクリート造建物の実用的な地震最大応答評価手法,日本建築学会構造系論文集,76(667),2011,pp.1611-1620.
