1. Aleksyuk, A.I. and Belikov, V.V., Software system STREAM 2D CUDA for calculating flows, bed deformations, and pollutant transport in open flows with the use of Compute Unified Device Architecture technology (on NVIDIA graphic processors), Svid. gos. registratsii programm dlya EVM № 2 017 660 266 ot 20.09.2017 (Certificate of State Registration of Computer Program no. 2 017 660 266 of September 20, 2017).
2. Belikov, V.V., Borisova, N.M., Vasil’eva, E.S., and Kochetkov, V.V., Ensuring the hydrological safety at the construction in floodplain territories: case study of the Lower Don), “Fundamental’nye problemy vody i vodnykh resursov” Materialy Tret’ei vseros. konf. s mezhdunarod. uchastiem (“Basic Problems of Water and Water Resources,” Proc. Third Russian Conf. with Foreign Participants), Barnaul, 2010, pp. 496–499.
3. Belikov, V.V., Kochetkov, V.V., Borisova, N.M., Kovalev, S.V., and Nikitina, N.V., The use of GIS technologies and specialized databases in numerical modeling of extreme inundations of the Lower Don floodplain, Tr. nauch.-prakt. konf. “Upravlenie vodno-resursnymi sistemami v ekstremal’nykh situatsiyakh” (Proc. Sci.-Pract. Conf. “Management of Water-Resources Systems in Extreme Situations”), Moscow, 2008, pp. 121–125.
4. Buber, A.L., Golovinov, E.E., Buber, A.A., and Talyzov, A.A., The construction of an integrated digital elevation model for the development of a hydrodynamic model of the Lower Don and visualization of the effect of low-head hydropower systems and positive and negative setup phenomena, Materialy Mezhdunarod. nauch. konf. RAN (Proc. Intern. Sci. Conf. RAS), Rostov-on-Don: Southern Scientific Center, Russian Academy of Sciences Rostov-na-Donu: YuNTs, 2019, pp. 106–110. ISBN 978-5-4358-0182-8
5. Aleksyuk, A.I. and Belikov, V.V., Simulation of shallow water flows with shoaling areas and bottom discontinuities, Comput. Math. Math. Phys., 2017, vol. 57, no. 2, pp. 318–339.