Objednáváme u Vás 1 ks licence Software pro modelování průběhu heterogenních katalytických reakcí, pro projekt Modernizace praktické výuky a zkvalitnění praktických dovedností v technicky zaměřených programech, reg. č. CZ.02.2.67/0.0./0.0/16_016/0002458. Na faktuře musí být uveden název projektu, jeho reg.číslo. Přílohou faktury musí být dodací list s položkovým uvedením dodávaného zboží včetně jeho číselného označení dle přílohy objednávky nebo přesné specifikace přílohy objednávky. Dodavatel musí umožnit všem subjektům oprávněným k výkonu kontroly projektu, z jehož prostředků je faktura hrazena, provést kontrolu dokladu souvisejících s danou fakturou, a to po dobu danou právními předpisy ČR k jejich archivaci Individuální konfigurace - licence vázaná na CPU (Na určeném počítači se může v práci s programem střídat více uživatelů)
Anotace v angličtině
Monitoring of water quality parameters of inland water bodies and small inland water
bodies specifically can be operationally expensive and involving. This work tries to explore
how remote sensing could be used as a tool in monitoring selected water quality parameters in
small inland water bodies in the Czech Republic. Models were created based of Landsat 7
ETM+ imagery based on acquisitions from autumn of 2011 until the Spring of 2015 to estimate
water quality parameters. The images used were scenes of WRS-2, path and row 191/25 as
well as 190/25 respectively. Samples were taken from 13 water bodies (Bunkov, Melice,
Jezero, Oplatil, Pohranovsky rybnik, Velka Cerna, Opatovicky pisnik, Ujezdsky rybnik,
Bohumilecsky rybnik, Spravcicky pisnik, pisnik Hradek, Bohdanecsky rybnik, Placicky
rybnik), with water body area between 8-90 ha, around Pardubice and Hradec Kralove in the
Czech Republic. The samples were analysed for chlorophyl-a, Total Carbon, Total Nitrogen,
Total Organic Carbon, Temperature and Secchi Disk Depth. The 3×3 average window was
used to limit the effect of noise on the images and water only mask was used in order to limit
the process to open water areas specifically.
Models were developed based on best fit charts of water quality parameter vs. satellite band
combination using linear function in the regression analysis. Models created for the water
quality parameters had their performance tested based on r2, RMSE and NRMSE. The best
models found are (WQ parameter | formula | r2 | RMSE | NRMSE). Band combination L3/L1
or the vice versa had best fit for most the models created. The exception was temperature
which was based on surface radiance (brightness temperature in [K]).
Where L1-L3 are visible bands of atmospherically corrected Landsat 7 SR product. The
models created are intended to help institutions that are mandated in monitoring water bodies.
Landsat ETM+; Remote Sensing; Model; Inland Water Quality; Water Monitoring; In-
Situ; Parameters; Monitoring; Limnology.
Rozsah průvodní práce
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Jazyk
AN
Anotace
Objednáváme u Vás 1 ks licence Software pro modelování průběhu heterogenních katalytických reakcí, pro projekt Modernizace praktické výuky a zkvalitnění praktických dovedností v technicky zaměřených programech, reg. č. CZ.02.2.67/0.0./0.0/16_016/0002458. Na faktuře musí být uveden název projektu, jeho reg.číslo. Přílohou faktury musí být dodací list s položkovým uvedením dodávaného zboží včetně jeho číselného označení dle přílohy objednávky nebo přesné specifikace přílohy objednávky. Dodavatel musí umožnit všem subjektům oprávněným k výkonu kontroly projektu, z jehož prostředků je faktura hrazena, provést kontrolu dokladu souvisejících s danou fakturou, a to po dobu danou právními předpisy ČR k jejich archivaci Individuální konfigurace - licence vázaná na CPU (Na určeném počítači se může v práci s programem střídat více uživatelů)
Anotace v angličtině
Monitoring of water quality parameters of inland water bodies and small inland water
bodies specifically can be operationally expensive and involving. This work tries to explore
how remote sensing could be used as a tool in monitoring selected water quality parameters in
small inland water bodies in the Czech Republic. Models were created based of Landsat 7
ETM+ imagery based on acquisitions from autumn of 2011 until the Spring of 2015 to estimate
water quality parameters. The images used were scenes of WRS-2, path and row 191/25 as
well as 190/25 respectively. Samples were taken from 13 water bodies (Bunkov, Melice,
Jezero, Oplatil, Pohranovsky rybnik, Velka Cerna, Opatovicky pisnik, Ujezdsky rybnik,
Bohumilecsky rybnik, Spravcicky pisnik, pisnik Hradek, Bohdanecsky rybnik, Placicky
rybnik), with water body area between 8-90 ha, around Pardubice and Hradec Kralove in the
Czech Republic. The samples were analysed for chlorophyl-a, Total Carbon, Total Nitrogen,
Total Organic Carbon, Temperature and Secchi Disk Depth. The 3×3 average window was
used to limit the effect of noise on the images and water only mask was used in order to limit
the process to open water areas specifically.
Models were developed based on best fit charts of water quality parameter vs. satellite band
combination using linear function in the regression analysis. Models created for the water
quality parameters had their performance tested based on r2, RMSE and NRMSE. The best
models found are (WQ parameter | formula | r2 | RMSE | NRMSE). Band combination L3/L1
or the vice versa had best fit for most the models created. The exception was temperature
which was based on surface radiance (brightness temperature in [K]).
Where L1-L3 are visible bands of atmospherically corrected Landsat 7 SR product. The
models created are intended to help institutions that are mandated in monitoring water bodies.