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Umerjanje delno distribuiranih hidroloških modelov : doktorska disertacija
ID Vidmar, Andrej (Author), ID Brilly, Mitja (Mentor) More about this mentor... This link opens in a new window

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Abstract
Doktorska disertacija obravnava področje hidrologije in hidroloških modelov. Hidrološki pojavi se oblikujejo v hidrološkem sistemu, ki ga določa narava in so v osnovi stohastični. Pojavi so enkratni, neponovljivi in spreminjajoči se v prostoru in času. Simuliramo jih s pomočjo različnih hidroloških modelov, s katerimi poskušamo integrirati kompleksne procese, ki jih ponazarjajo zvezne funkcije. V preteklosti so bili razviti različni modeli, ki simulirajo različne hidrološke procese. Vendar so neskladja med simuliranimi in merjenimi vrednostmi še vedno velika in predstavljajo izziv mnogim raziskovalcem. Modeli vsebujejo veliko parametrov, ki jih je nemogoče neposredno izmeriti. Vrednosti večine teh parametrov so določene v postopku umerjanja, ki pogojuje učinkovitost takšnih modelov. Postopek umerjanja modela je obremenjen s pomanjkanjem podatkov in poenostavitvami, s katerimi rešujemo matematični model. Omenjene obremenitve povzročajo šume oziroma odstopanja med rezultati izračuna, ki nam jih poda model, in meritvami, ki smo jih pridobili v naravi. V postopku umerjanja modela poskušamo določiti parametre, ki jih vsebujejo posamezne funkcije, tako da so razlike med izračunom in meritvami čim manjše. Doktorska disertacija predstavlja uporabo izboljšanega postopka Gaussa-Levenberga-Marquardta (GLM) v kombinaciji s singularnim razcepom (SVD) in regularizacijo po metodi Tihonova. S takšnim postopkom izboljšamo umerjanja hidrološkega modela. Postopek se je preskušal na prosto dostopnem hidrološkem modelu z uporabo sintetičnih podatkov in na realnih modelih porečja Savinje v Sloveniji in reke Bosne v Bosni in Hercegovini. Na podlagi več kazalcev učinkovitosti umerjanja modela je bilo ugotovljeno, da postopek GLM v kombinaciji s SVD in Tihonovo regularizacijo zagotavlja učinkovito ujemanje zgodovine sintetičnega modela in skoraj popolno umerjanje parametrov. S pomočjo Tihonove regularizacije parametrov se je izdatno izboljšalo umerjanje modela in dosegla minimalna varianca napak. Poleg tega je bilo s primerjavo rezultatov predlaganega postopka z rezultati globalnih evolucijskih postopkov umerjanja ugotovljeno, da je samo umerjanje s kombiniranim postopkom GLM popolnoma simuliralo nizke pretoke. Ne nazadnje je bil šum pri rezultatih izračuna pri kombinirani metodi GLM z regularizacijo Tihonova praktično enak v postopku umerjanja in validaciji. To kaže, da je v rezultatih ostal le računski šum.

Language:Slovenian
Keywords:Grajeno okolje, gradbeništvo, disertacije, delno distribuirani hidrološki model, učinkovitost umerjanja modela, GaussLevenberg-Marquardt postopek (GLM), singularni razcep (SVD), Tihonova regularizacija, vzporedno procesiranje
Work type:Doctoral dissertation
Typology:2.08 - Doctoral Dissertation
Organization:FGG - Faculty of Civil and Geodetic Engineering
Place of publishing:Ljubljana
Publisher:[A. Vidmar]
Year:2021
Number of pages:XX, 151 str., 1 pril.
PID:20.500.12556/RUL-124693 This link opens in a new window
UDC:004.42:556(043)
COBISS.SI-ID:52406531 This link opens in a new window
Publication date in RUL:10.02.2021
Views:2530
Downloads:268
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Secondary language

Language:English
Title:Calibration of semi-distributed hydrological models : doctoral dissertation
Abstract:
The doctoral dissertation deals with the field of hydrology and hydrological models. Hydrological phenomena are formed in a hydrological system determined by nature and are stochastic. Phenomena are unique, unrepeatable, and changing in space and time. We simulate these natural processes with the help of various hydrological models with which we try to integrate complex processes illustrated by continuous functions. In the past, different models have been developed to simulate different hydrological processes. However, discrepancies between simulated and measured values are still significant and pose a challenge to many researchers. The models contain many parameters that cannot be measured directly. The values of most of these parameters are determined in the calibration process, which is conditioned by the efficiency of such models. The process of model calibration is burdened by the lack of data and simplifications with which we solve the mathematical model. These all cause noise, or deviations between the results of the calculation given to us by the model and the measurements obtained in nature. In the process of calibrating the model, we try to determine the parameters contained in the individual functions so that the differences between the simulation and measurements are as small as possible. The doctoral dissertation presents the use of the enhanced Gauss-Levenberg-Marquardt (GLM) procedure in combination with singular value decomposition (SVD) and Tikhonov regularization. With such a procedure, we improve the calibrations of the hydrological model. The procedure was tested on a freely accessible hydrological model using synthetic data and on real models of the Savinja river basin in Slovenia and the Bosna river in Bosnia. Based on several model calibration efficiency indicators, it was found that the GLM process in combination with SVD and Tikhonov regularization ensures efficient matching of the history of the synthetic model and almost complete calibration of the parameters. With the help of Tikhonov parameter regularization, the calibration of the model was significantly improved, and a minimum error variance was achieved. Also, by comparing the results of the proposed process with the results of global evolutionary calibration processes, it was found that the calibration with the combined GLM process alone fully simulated low flows. Last but not least, the noise in the calculation results of the combined GLM method with Tikhonov regularization was practically the same either in the calibration or validation process, which shows that only the calculation noise remained in the results.

Keywords:Built Environment, civil engineering, doctoral thesis, semi-distributed hydrological model, calibration model efficiency, GaussLevenberg-Marquardt procedure (GLM), singular value decomposition (SVD), Tikhonov regularization, parallel computing

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