Předmět Hydroinformatics (DZGX05Y)

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Materiál	Typ	Datum	Počet stažení

Cíl

Hydroinformatics interconnects an information technology, with processes in aquatic environment inclusively communication- and control theory. The aim of the subject is to provide fundamental knowledge in selected fields of numerical simulation and mathematical modelling, to meet potential of SW resources utilization in water economy, environmental protection, operational hydrology, and in control water resources systems from end user s point of view, namely: Structured formulation of hydrological cycle. Mathematical model. Modelling systems. Topology. Basin wide mathematical formulation of selected hydrological and hydraulic processes. Water resources systems models. Monitoring, system control. USACE HEC NextGen models: HEC-HMS, HEC-RAS, HEC-ReSim etc. Hands-on workshop on the HEC systems with GIS and CAD support. Selected SW systems used by Hydromet departments and by River Boards (AquaLog, Hydrog, Coral-TIRS). Presentation of the DHI systems. Water resources planning. The Labe river case study.

Osnova

PřednáškaOn Computer-Aided-Learning and DecisionsTowards Hydroinformatics SystemsPrinciples of Graph Theory in WRSBasin Topology and Petri NetsSurface Flow Hydraulics in 1DPhysical Concepts of Computational HydraulicsConcepts of Numerical MethodsProcess ControlModelling SystemsCvičení

Získané způsobilosti

Znalosti:Gaining the basic knowledge about the formulation, development and use of mathematical models in water management and environmental protection characterizes the outcomes of the subject; this is what hydro informatics provides for. Skill acquired forms comprehensive and integrated approach in field of water science, of numerical methods, of informatics and communication technologies. Within hydroinformatics, principle awareness across a broad spectrum of theoretical disciplines is not solely related to sphere of water sciences. In this sense, therefore, the knowledge gained focuses chiefly to the application field. Requirements of national economy towards implementation of hydroinformatic systems are unequivocal: along with increasing complexity of environmental problems in water management, the growing necessity for a multi-disciplinary analysis supported by computer technology both in the field of hardware and software. This is a central aim of the subject.Dovednosti:In general, an interdisciplinary nature of hydroinformatics is a stimulating factor for logical composition of the projects it enables independence of judgment and thus the student initiative. The aim and purpose of hydroinformatics is mainly to enable deeper comprehension between the SW users and developers. Monitoring of recent developments in relevant theories, modeling and instrumentation is an essential prerequisite to for improvement of experience and expertise. The development of every hydroinformatic system should follow the links between all involved parties into the project. Thus the student often becomes the co-author and obtains skills not only in developing simple software, but especially in active use of complex computer systems, often in association with the other support software. Tools for spatial modeling, database management systems or water management system are worth to mention, as well as the use of advanced methods of data processing and visualization techniques in the input/output data processing of mathematical models.Kompetence - komunikace:The analysis of the information related to the aquatic environment usually requires interdisciplinary collaboration of the team. The experts from various professions, including IT s have to be involved into the project to facilitate subsequent computerizing. The student is able to cope with experts and to act as a moderator in the debate between water resources managers and the IT s.Kompetence - úsudek:Hydroinformatics as scientific discipline (or, better technology ) should be seen in context of a broad exchange of information between real world and other parties involved into the environmental protection, the economy and into the field of State administration. Self treatment in critical evaluation of the input data, including the economic conditions needed for the subsequent synthesis of the results is unavoidable.

Literatura

ZákladníJazyk výuky: AngličtinaZEZULÁK, J.: Hydroinformatics, selected Issues. Praha, vyd. ČZU LF. 2001.DoporučenáJazyk výuky: AngličtinaABBOTT, M., B.: Hydroinformatics: Information Technology and the Aquatic Environment. 1991. ISBN-13: 9781856288323JOHNSON. L., E.: Geographic Information Systems in Water Resources Engineering ISBN: 9781843392378, 2009,http://www.iwapublishing.com/template.cfm?name=isbn9781843392378JOURNAL OF HYDROINFORMATICS. Issues 1999 through 2009. http://iwaponline.com/ih/toc.htmPROCEEDINGS OF INTL. CONFERENCES ON HYDROINFORMATICS (1994 2009). http://hydroinformatics-community.org/conferences/.ZEZULÁK, J. SARAFIS, I.: Computer analysis of slope failure and landslide processes caused by water. In: Monitoring, Simulation, Prevention and Remediation of Dense and debris Flow

Garant

prof. Ing. Jiří Zezulák, DrSc.