Mkrtchyan F.A., Krapivin V.F. GIMS – technology in the water quality monitoring. In: International Conference on GeoInformatics for Spatial-Infrastructure Development in Earth & Allied Sciences (GIS-IDEAS 2016), 12-15 November, 2016, Hanoi, Vietnam , GIS-IDEAS , С. 191-196.
Полный текст не доступен из этого репозитория.Аннотация
Results of the investigations are stated in connection with the assessment of capabilities to use the sensors of optical and microwave ranges for the diagnostics of hydrophysical and hydrochemical systems having various spatial scales. Structure of multi-functional information-modeling system (MFIMS) MFIMS consists the sensors of optical and microwave ranges and it realizes functions for the diagnostics and adaptive identification of the liquids. The system is based on the base formation of spectral standards for the liquid solutions delivered by means of multi-channel spectrophotometer or spectroellipsometer and used for adaptive recognition of spectral images. Education process and following recognition are realized in accordance with the certain series of the methods, algorithms and procedures for accumulation, analysis, sorting and processing observation data. Assembly of all tools forms the information-modeling system oriented on the operative diagnostics of the state of the water objects when multi-channel information is delivered by the on-site and remote sensors and high-performance information technologies are used for the solution of the tasks related to the classification and identification of the water objects. A solution of operative multi-pronged task of the water quality control and state of hydrochemical systems when their spatial heterogeneity is taken into consideration and series of physical, chemical and biological factors exist to be as influencing on them is realized by means of the collection of computer algorithms and models that are the hydrochemical monitoring system. This collection gives a possibility to parameterize typical water balance on restricted territory that reflects an interaction between hydrological cycle components. Under this, the system has adaptation function to the real hydrophysical object or process. The MFIMS can used under the water media or other liquids quality control under the expedition conditions when chemical laboratory no exist.
Тип объекта: | Доклад на конференции или семинаре (Доклад) |
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Авторы на русском. ОБЯЗАТЕЛЬНО ДЛЯ АНГЛОЯЗЫЧНЫХ ПУБЛИКАЦИЙ!: | Мкртчян Ф.А., Крапивин В.Ф. |
Подразделения (можно выбрать несколько, удерживая Ctrl): | 209 лаб. вычислительная |
URI: | http://cplire.ru:8080/id/eprint/2856 |
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