1. 5) 土木学会水工学委員会編，水理公式集 2018年版，河川編，6.2.5 (b), p. 316, 2019. [JSCE Committee of Hydroscience and Hydraulic Engineering eds.: The Collection of Hydraulic Formulae, 6.2.5 (b), p. 316, 2019.]

2. 6) iRIC Software, https://i-ric.org/ja/

3. 8) 渡邉健人，久加朋子，山口里実，清水康行：大規模出水時における河道内樹木と流路変動特性の関係：札内川を事例として，土木学会論文集 B1（水工学），Vol. 75, No. 5, pp. I_1015-I_1020, 2018. [Watanabe, K., Kyuka, T., Yamaguchi, S. and Shimizu, Y.: The effects of vegetation on morphodynamics during a flood, Transaction of the Japan Society of Civil Engineers B1, Vol. 75, No. 5, pp. I_1015-I_1020, 2018.]

4. 9) 岩﨑理樹，奥田醇，清水康行：2019年出水時の千曲川における流路変動解析，土木学会第23回応用力学シンポジウム講演概要集，P02-16, 2020. [Iwasaki, T., Okuda, J. and Shimizu, Y.: Numerical simulation of sand bar and channel evolution process of the Chikuma River caused by the 2019 flood, Proc. Applied Mechanics Symposium, JSCE, 23, P02-16, 2020.]

5. 10) 崇田徳彦，清水康行：水制を含む流れの準3次元数値計算モデルの開発，土木学会論文集，第497号，pp. 31-39, 1994. [Muneta, N. and Shimizu, Y.: Numerical analysis model with spur-dike considering the vertical flow velocity distribution, Transaction of the Japan Society of Civil Engineers, Vol. 497, pp. 31-39, 1994.]