The use of adjoint problems solution in the identification of input parameters for transport models and planning of experiments
UDC
51.37Abstract
In the numerical identification input model transport parameters of passive admixture in the measurement data raises the question of constructing the optimal plans for performing the measurement. From a mathematical point of view, the solution of inverse problems, the optimal plan is treated as a net of measurement points distributed across space and time that gives the best conditioning of identification input parameters of numerical simulations against measurements. Computational properties of algorithms for solving inverse problems can largely be improved by optimal schemes of measurements. At the core of the algorithms for optimal planning is the creation and study of the properties of Fisher information matrix, which is based on the Jacobian matrix characterizing the admixture concentration field variation dependence of variations parameters of the problem. For example, the one-dimensional problem of the transfer of passive admixtures discusses the assessment component of this matrix by a series of adjoint tasks of a special kind. As a result of numerical experiments with the one-dimensional model of transport of passive tracer shows that the best convergence of the variational algorithm for identifying the initial field of concentration is in the selection of measurement points in the region of maximum values. This scheme of measuring net leads to improved conditioning of the problem being solved. Additional information about the location of the boundaries of the pollution are also important in the algorithm initialization the initial distribution. Similar calculations are carried out with a three-dimensional model for the Azov sea. The results can be used for solving various ecological orientation problems in the study of the sources pollution influence of anthropogenic nature in the Azov and Black seas waters.
Keywords:
planning of the experiment, model of transport, passive admixture, identification, related task, minimization, Azov seaFunding information
Работа выполнена в рамках государственного задания по теме № 0827-2014-0010 "Комплексные междисциплинарные исследования океанологических процессов, определяющих функционирование и эволюцию экосистем Черного и Азовского морей, на основе современных методов контроля состояния морской среды и гридтехнологий".
References
- Горский В.Г. Планирование кинетических экспериментов. М.: Наука, 1984. 240 с. [Gorskij V.G. Planirovanie kineticheskikh eksperimentov [Planning kinetic experiments]. Moscow, Nauka Pub., 1984, 240 p.]
- Пененко В.В. Оценка параметров дискретных моделей динамики атмосферы и океана // Метеорология и гидрология. 1979. №7. C. 77-90. [Penenko V.V. Otsenka parametrov diskretnykh modeley dinamiki atmosfery i okeana [Estimation of parameters of discrete models of atmospheric and ocean dynamics]. Meteorologiya i gidrologiya [Meteorology and Hydrology], 1979, no. 7, pp. 77-90.]
- Марчук Г.И. Математическое моделирование в проблеме окружающей среды. М.: Наука, 1982. 320 с. [Marchuk G.I. Matematicheskoe modelirovanie v probleme okruzhayushchey sredy [Mathematical modeling in the environmental problem]. Moscow, Nauka Pub., 1982, 320 p.]
- Кочергин В.С. Определение поля концентрации пассивной примеси по начальным данным на основе решения сопряженных задач // Экологическая безопасность прибрежной и шельфовой зон и комплексное использование ресурсов шельфа, МГИ НАНУ, Севастополь, 2011. Вып. 25, т. 2. С. 270-376. [Kochergin V.S. Opredelenie polya kontsentratsii passivnoy primesi po nachal'nym dannym na osnove resheniya sopryazhennykh zadach [Determination of the passive admixture concentration field from the initial data on the basis of the solution of the conjugate problems]. Ekologicheskaya bezopasnost' pribrezhnoy i shel'fovoy zon i kompleksnoe ispol'zovanie resursov shel'fa [Ecological safety of coastal and shelf zones and integrated use of shelf resources], MGI NANU, Sevastopol' 2011, iss. 25, vol. 2, pp. 270-376.]
- Иванов В.А., Фомин В.В. Математическое моделирование динамических процессов в зоне море - суша. Севастополь: ЭКОСИ-гидрофизика, 2008. 363 с. [Ivanov V.A., Fomin V.V. Matematicheskoe modelirovanie dinamicheskikh protsessov v zone more - susha [Mathematical modeling of dynamic processes in the sea-land zone]. Sevastopol', EHKOSI-gidrofizika, 2008, 363 p.]
- Еремеев В.Н., Кочергин В.П., Кочергин С.В., Скляр С.Н. Математическое моделирование гидродинамики глубоковдных бассейнов. Севастополь: ЭКОСИ-Гидрофизика, 2002. 238 с. [Eremeev V.N., Kochergin V.P., Kochergin S.V., Sklyar S.N. Matematicheskoe modelirovanie gidrodinamiki glubokovdnykh basseynov [Mathematical modeling of hydrodynamics of deep basins]. Sevastopol': EHKOSI-Gidrofizika, 2002, 238 p.]
- Кочергин В.С., Кочергин С.В. Реализация вариационного подхода при идентификации входных параметров модели переноса пассивной примеси в Азовском море // Экологический вестник научных центров Черноморского экономического сотрудничества. 2016, №3. С. 50-58. [Kochergin V.S., Kochergin S.V. Realizatsiya variatsionnogo podkhoda pri identifikatsii vkhodnykh parametrov modeli perenosa passivnoy primesi v Azovskom more [Implementation of the variational approach in identifying the input parameters of the passive admixture transport model in the Azov Sea]. Ekologicheskiy vestnik nauchnykh tsentrov Chernomorskogo ekonomicheskogo sotrudnichestva [Ecological bulletin of scientific centers of the Black Sea Economic Cooperation], 2016, no. 3, pp. 50-58.]
Downloads
Downloads
Dates
Submitted
Accepted
Published
How to Cite
License
Copyright (c) 2017 Кочергин В.С., Кочергин С.В.
This work is licensed under a Creative Commons Attribution 4.0 International License.
