Development of a System for Estimating Tsunami Parameters in Coastal Areas

The problem of timely warning the population about the danger of a tsunami is still relevant in the coastal areas around the world. Despite the fact that the tsunami is quite rare, the consequences could be disastrous. To assess the scale of possible damage, it is necessary to have information about the height and speed of the wave at the coastline. Scientists in Akademgorodok for many years engaged in the creation and implementation of tsunami waves modeling algorithms used to calculate the parameters of the tsunami near the coastline. The main purpose of this article is to integrate existing implementations of algorithms written in different programming languages (C ++, C, Python, Kotlin, Fortran, etc.) into a one system. This system will allow to calculate tsunami parameters at the protected coastline accepting seismic event data at the input. The article considered the main stages of the system, such as monitoring seismic activity, extracting data from the DART (Deep-ocean Assessment and Reporting of Tsunamis) stations, tidal components filtration and tsunami waves modeling, and intermediate steps associated with preprocessing and transformation of data. Special attention is paid to the development of the system architecture. The interaction between the modules is designed in such a way that new implementations of the algorithms can be easily integrated into the system.

DART, MOST, tsunami, DART, tsunami waves modeling, tidal component filtering, MOST

1. Lavrentiev M. M., Romanenko A. A. Real Time Tsunami Data Inversion. In: Proceedings of The International Conference dedicated to the 80th anniversary of the birthday of Academician Mikhail Mikhailovich Lavrentiev. Novosibirsk, 2012, p. 311-312.

2. Воробьев Ю. Л., Акимов В. А., Соколов Ю. И. Цунами: предупреждение и защита. М., 2006.

3. Meinig Ch., Stalin S. E., Nakamura A. I., González F. Proceedings of OCEANS-2005 MTS/IEEE. In: Technology Developments in Real-Time Tsunami Measuring. Washington, 2005.

4. Марчук А. Г. Минимизация погрешностей при численных расчетах волновых лучей и фронтов цунами // Вестник НГУ. Серия: Информационные технологии. 2013. Т. 11, № 3. С. 27-36.

5. Карев В. Ю., Судаков А. Н., Чубаров Л. Б. Методы расчета карт изохрон. Методы интерпретации экспериментальных данных и численные расчеты. Красноярск: Изд-во КГУ, 1987. С. 75-81.

6. Gica E., Spillane M., Titov V., Chamberlin C., Newman J. Development of the Forecast Propagation Database for Noaa’s Short-Term Inundation Forecast for Tsunamis (Sift). In: NOAA Technical Memorandum OAR PMEL-139, 2008. Mouat A. Using Docker: Developing and Deploying Software with Containers. 1st ed. O'Reilly Media, 2016.

7. Романенко А. А., Татаринцев П. В. Алгоритм восстановления формы начального возмущения в источнике цунами // Вестник НГУ. Серия: Информационные технологии. 2013. Т. 11, № 1. С. 113-123.