Combining Meteosat-10 satellite image data with GPS tropospheric path delays to estimate regional integrated water vapor (IWV) distribution

Leontiev, Anton; Reuveni, Yuval

doi:https://doi.org/10.5194/amt-10-537-2017

Articles | Volume 10, issue 2

https://doi.org/10.5194/amt-10-537-2017

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

Special issue:

Advanced Global Navigation Satellite Systems tropospheric...

https://doi.org/10.5194/amt-10-537-2017

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

Articles | Volume 10, issue 2

Research article

|

14 Feb 2017

Research article |

| 14 Feb 2017

Combining Meteosat-10 satellite image data with GPS tropospheric path delays to estimate regional integrated water vapor (IWV) distribution

Anton Leontiev and Yuval Reuveni

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Jan 2024	37	3	0	40
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Cumulative views and downloads (calculated since 10 Aug 2016)

Month	HTML	PDF	XML	Total
Aug 2016	41	14	2	57
Sep 2016	24	3	0	27
Oct 2016	10	4	5	19
Nov 2016	15	3	1	19
Dec 2016	12	3	2	17
Jan 2017	17	3	4	24
Feb 2017	95	13	1	109
Mar 2017	63	35	7	105
Apr 2017	37	21	2	60
May 2017	32	16	0	48
Jun 2017	28	21	2	51
Jul 2017	12	10	0	22
Aug 2017	20	24	3	47
Sep 2017	14	27	0	41
Oct 2017	5	6	1	12
Nov 2017	9	10	0	19
Dec 2017	10	13	0	23
Jan 2018	14	16	1	31
Feb 2018	16	10	2	28
Mar 2018	9	12	0	21
Apr 2018	12	7	0	19
May 2018	18	17	1	36
Jun 2018	7	10	1	18
Jul 2018	7	6	0	13
Aug 2018	19	7	0	26
Sep 2018	15	9	1	25
Oct 2018	15	12	1	28
Nov 2018	20	12	4	36
Dec 2018	16	5	1	22
Jan 2019	13	11	0	24
Feb 2019	13	5	0	18
Mar 2019	20	11	2	33
Apr 2019	17	11	2	30
May 2019	23	9	1	33
Jun 2019	22	12	1	35
Jul 2019	14	8	1	23
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Sep 2019	10	9	4	23
Oct 2019	22	5	1	28
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Nov 2020	17	9	2	28
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Feb 2023	22	12	1	35
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Apr 2023	27	8	0	35
May 2023	43	8	1	52
Jun 2023	35	4	0	39
Jul 2023	37	2	0	39
Aug 2023	39	10	2	51
Sep 2023	37	9	1	47
Oct 2023	42	5	0	47
Nov 2023	23	2	1	26
Dec 2023	39	2	0	41
Jan 2024	37	3	0	40
Feb 2024	33	4	0	37
Mar 2024	38	11	0	49
Apr 2024	32	6	4	42

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Short summary

Here we present the use of GPS tropospheric zenith path delays combined with METEOSAT-10 water vapor (WV) and surface temperature pixel intensity values in order to obtain absolute integrated water vapor map distribution. The results show good agreement between the suggested strategies compared with available radiosonde precipitable water vapor absolute values. This can provide unprecedented WV temporal and special distribution, which can be used as accurate initial conditions in weather models.

Combining Meteosat-10 satellite image data with GPS tropospheric path delays to estimate regional integrated water vapor (IWV) distribution

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11 citations as recorded by crossref.

11 citations as recorded by crossref.


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