[BORECKA A., KORZEC K., STANISZ J. 2017. SMART LEVEE in Poland : ful-scale monitoring experimental study of levees by different methods, Computer Science Journal, in press.]Search in Google Scholar
[BORYS M. 2007. Przepisy i wymogi oraz aktualny stan obwałowań przeciwpowodziowych w Polsce. Woda-Środowisko-Obszary Wiejskie 7, 2a (20):25-44.]Search in Google Scholar
[BUDOKOP website: www.budokop.com]Search in Google Scholar
[CHUCHRO M., LUPA M., PIĘTA A., PIÓRKOWSKI A., LEŚNIAK A. 2014. A concept of time windows length selection in stream databases in the context of sensor networks monitoring. New trends in database and information systems II: 173–183.10.1007/978-3-319-10518-5_14]Search in Google Scholar
[CHUCHRO M., PIĘTA A., DWORNIK M., LEŚNIAK A. 2016. Big Data processing strategy for hybrid interpretation of flood embankment multisensor data. Geology, Geophysics and Environment 42, 3: 269-278.]Search in Google Scholar
[DWORNIK M., FRANCZYK A., LEŚNIAK A., KRAWIEC K. 2016. Influence of initial water saturation in earthen levees on results of numerical modelling of infiltration processes. Proceedings of CGW Workshop’16: 23-24.]Search in Google Scholar
[DWORNIK M., FRANCZYK A., LEŚNIAK A., KRAWIEC K. 2017. Influence of initial water saturation in earthen levees on results of numerical modelling of infiltration processes, Computer Science, in press.10.7494/csci.2017.18.4.2223]Search in Google Scholar
[FRANCZYK A., DWORNIK M., LEŚNIAK A. 2016. Numerical modelling of the impact of flood wave cyclicality on the stability of levees. FLOODrisk.7: 1–6.10.1051/e3sconf/20160703022]Search in Google Scholar
[HABRAT M., LUPA M., CHUCHRO M., LESNIAK A. 2015. A Decision Support System for Emergency Flood Embankment Stability. Procedia Computer Science 51: 2957–2961.10.1016/j.procs.2015.05.495]Search in Google Scholar
[ISMOP: project website. http://www.ismop.edu.pl.]Search in Google Scholar
[ITASCA CONSULTING GROUP: FLAC Fast Lagrangian Analysis Itasca Consulting Group: FLAC Fast Lagrangian Analysis of Continua and FLAC/Slope O Users Manual, 2011.]Search in Google Scholar
[KRET E. 2015. ISMOP Internal Raport, Task 2.2.]Search in Google Scholar
[MOŚCICKI J.W., BANIA G., ĆWIKLIK M., BORECKA A. 2014. DC resistivity studies of shallow geology in the vicinity of Vistula river flood bank in Czernichów Village (near Kraków in Poland). Studia Geotechnica et Mechanica 36, 1: 63–70.]Search in Google Scholar
[NEOSTRAIN webpage: www.neostrain.pl]Search in Google Scholar
[PIĘTA A., KRAWIEC K. 2015. Random set method application to flood embankment stability modelling, Procedia Computer Science 51: 2668–2677.10.1016/j.procs.2015.05.377]Search in Google Scholar
[PIĘTA A., DWORNIK M., 2014. Analysis of boundary conditions offset for the accuracy of the numerical modeling of the levees, International Multidisciplinary Scientific GeoConference SGEM: 457–464.10.5593/SGEM2014/B21/S8.058]Search in Google Scholar
[PN-B-12095, 1997. Urządzenia wodno-melioracyjne. Nasypy. Wymagania i badania przy odbiorze.]Search in Google Scholar
[PYAYT A.L., SHEVCHENKO D.V., KOZIONOV A.P., MOKHOV I.I., LANG B., KRZHIZHANOVSKAYA V. V., SLOOT P.M.A., 2015. Combining Data-Driven Methods with Finite Element Analysis for Flood Early Warning Systems, Procedia Computer Science 51: 2347-2356.10.1016/j.procs.2015.05.404]Search in Google Scholar
[STANISZ J., BORECKA A., LEŚNIAK A., ZIELIŃSKI K. 2014. Wybrane systemy monitorujące obwałowania przeciwpowodziowe 62, 10/2: 699-703.]Search in Google Scholar
[STANISZ J., KORZEC K., BORECKA A. 2015. ISMOP Project (IT system of levee monitoring) as an example of integrated monitoring of levee. Geology, Geophysics and Environment 41, 1: 137-139.]Search in Google Scholar
[ŻBIKOWSKI A. (Edditor) 1982. Wały przeciwpowodziowe – wytyczne instruktażowe projektowania. A. Melior. Rol. 2–3: 1-49.]Search in Google Scholar
