1. Architectural Institute of Japan, Recommendation for Limit State Design of Steel Structures (2013) (in Japanese)

2. Endo, T., Anzai, H., Refined Rainflow algorithm : P/V Difference Method, Journal of the Society of Materials Science, Japan Volume 30 Issue 328 (1981), pp. 89-93 (in Japanese)

3. Hanji, T., Tateishi, K., Minami, K., Kitoh, K., Extremely Low Cycle Fatigue Assessment For Welded Joints Based On Peak Strain Approach, Journal of the Society of Materials Science, Japan, Volume 29 Issue 322 (1980), pp. 717-723(in Japanese)

4. Hasegawa, T., Fukumoto, T., Tagami, J., Sawamoto, Y., Kubota, J., Tokinoya, H., Suzui, Y., Terada, T., Ishii, D., Narihara, H., Yasuda, S., Kaneko, H., Usami, T., Koshika, N., Suzuki, Y., Nishiyama, I., Mukai, A., Iwata, Y., Study on Seismic Performance for Super-High-Rise Steel Building against Long-Period Earthquake Ground Motions, Building Research Data, No.160, July 2014, Published by Building Research Institute Incorporated Administrative Agency, Japan (in Japanese)

5. Honda, R., Akiyama, M., Nozu, A., Takahashi, Y., Kataoka, S., Murono, Y., Seismic Design For “Anti-Catastrophe” - A Study On The Implementation As Design Codes -, Journal of JSCE, Vol.5 (2017), pp. 346-356