The importance of atmospheric correction for airborne hyperspectral remote sensing of shallow waters: application to depth estimation

Castillo-López, Elena; Dominguez, Jose Antonio; Pereda, Raúl; de Luis, Julio Manuel; Pérez, Ruben; Piña, Felipe

doi:10.5194/amt-10-3919-2017

Articles | Volume 10, issue 10

https://doi.org/10.5194/amt-10-3919-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/amt-10-3919-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 10, issue 10

Research article

|

24 Oct 2017

Research article |

| 24 Oct 2017

The importance of atmospheric correction for airborne hyperspectral remote sensing of shallow waters: application to depth estimation

Elena Castillo-López, Jose Antonio Dominguez, Raúl Pereda, Julio Manuel de Luis, Ruben Pérez, and Felipe Piña

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Views and downloads (calculated since 28 Feb 2017)

Month	HTML	PDF	XML	Total
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Mar 2017	82	20	9	111
Apr 2017	43	15	7	65
May 2017	45	8	7	60
Jun 2017	36	10	2	48
Jul 2017	21	8	0	29
Aug 2017	14	7	2	23
Sep 2017	5	10	0	15
Oct 2017	56	29	2	87
Nov 2017	51	31	0	82
Dec 2017	12	17	0	29
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Jun 2025	31	21	1	53
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Apr 2026	25	24	6	55
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Cumulative views and downloads (calculated since 28 Feb 2017)

Month	HTML	PDF	XML	Total
Feb 2017	39	7	0	46
Mar 2017	82	20	9	111
Apr 2017	43	15	7	65
May 2017	45	8	7	60
Jun 2017	36	10	2	48
Jul 2017	21	8	0	29
Aug 2017	14	7	2	23
Sep 2017	5	10	0	15
Oct 2017	56	29	2	87
Nov 2017	51	31	0	82
Dec 2017	12	17	0	29
Jan 2018	17	16	1	34
Feb 2018	7	16	1	24
Mar 2018	12	12	0	24
Apr 2018	7	6	0	13
May 2018	14	8	0	22
Jun 2018	14	12	0	26
Jul 2018	3	6	0	9
Aug 2018	17	14	1	32
Sep 2018	11	14	0	25
Oct 2018	5	5	0	10
Nov 2018	7	13	0	20
Dec 2018	7	6	0	13
Jan 2019	9	15	0	24
Feb 2019	13	5	0	18
Mar 2019	4	7	0	11
Apr 2019	9	14	0	23
May 2019	7	8	1	16
Jun 2019	4	9	0	13
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Jan 2020	6	4	2	12
Feb 2020	7	8	1	16
Mar 2020	7	7	2	16
Apr 2020	7	8	0	15
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Jul 2020	24	24	9	57
Aug 2020	14	11	5	30
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Oct 2020	9	5	1	15
Nov 2020	8	9	2	19
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Jan 2021	22	7	0	29
Feb 2021	17	6	0	23
Mar 2021	19	6	1	26
Apr 2021	20	8	0	28
May 2021	15	17	0	32
Jun 2021	17	7	3	27
Jul 2021	11	13	0	24
Aug 2021	27	13	1	41
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Oct 2021	17	34	1	52
Nov 2021	14	32	2	48
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Jan 2022	15	12	2	29
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Oct 2022	14	5	2	21
Nov 2022	17	11	1	29
Dec 2022	11	9	1	21
Jan 2023	12	9	1	22
Feb 2023	18	8	1	27
Mar 2023	36	6	6	48
Apr 2023	28	11	0	39
May 2023	54	15	4	73
Jun 2023	38	4	0	42
Jul 2023	39	7	2	48
Aug 2023	41	6	3	50
Sep 2023	44	16	4	64
Oct 2023	39	5	0	44
Nov 2023	26	2	1	29
Dec 2023	50	13	1	64
Jan 2024	47	9	0	56
Feb 2024	40	4	0	44
Mar 2024	44	14	0	58
Apr 2024	40	5	5	50
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Jan 2025	17	10	3	30
Feb 2025	26	7	2	35
Mar 2025	8	9	1	18
Apr 2025	10	13	1	24
May 2025	7	14	0	21
Jun 2025	31	21	1	53
Jul 2025	21	9	5	35
Aug 2025	24	24	3	51
Sep 2025	19	22	0	41
Oct 2025	17	24	1	42
Nov 2025	24	26	5	55
Dec 2025	21	24	4	49
Jan 2026	24	25	9	58
Feb 2026	22	33	7	62
Mar 2026	18	23	3	44
Apr 2026	25	24	6	55
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Short summary

This work is part of a project funded by the government of Spain, whose objective was to develop a methodology that would allow the grain size and heavy metals estimation in the sediments of the intertidal zone (Bay of Santander) and depth estimation in the subtidal area, using information (VNIR) captured by the hyperspectral sensor, CASI-2, a spectroradiometer ASD-FR (350–2500 nm) in field and laboratory and classical and robust statistic algorithms.