High-performance software framework for the calculation of satellite-to-satellite data matchups (MMS version 1.2)

Block, Thomas; Embacher, Sabine; Merchant, Christopher J.; Donlon, Craig

doi:https://doi.org/10.5194/gmd-11-2419-2018

Articles | Volume 11, issue 6

https://doi.org/10.5194/gmd-11-2419-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/gmd-11-2419-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 11, issue 6

Model description paper

|

20 Jun 2018

Model description paper |

| 20 Jun 2018

High-performance software framework for the calculation of satellite-to-satellite data matchups (MMS version 1.2)

Thomas Block, Sabine Embacher, Christopher J. Merchant, and Craig Donlon

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Jun 2022	25	8	1	34
Jul 2022	20	11	0	31
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Sep 2022	16	4	0	20
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Jan 2023	47	16	2	65
Feb 2023	55	4	0	59
Mar 2023	52	6	0	58
Apr 2023	31	10	0	41
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Apr 2024	60	17	8	85
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Jan 2025	35	9	4	48
Feb 2025	57	10	2	69
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Apr 2025	36	28	2	66
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Oct 2025	55	29	3	87
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Cumulative views and downloads (calculated since 31 May 2017)

Month	HTML	PDF	XML	Total
May 2017	30	2	0	32
Jun 2017	144	20	11	175
Jul 2017	29	12	2	43
Aug 2017	27	17	0	44
Sep 2017	27	5	0	32
Oct 2017	20	7	0	27
Nov 2017	38	18	0	56
Dec 2017	16	11	1	28
Jan 2018	29	8	4	41
Feb 2018	27	8	4	39
Mar 2018	19	13	2	34
Apr 2018	34	11	0	45
May 2018	24	12	0	36
Jun 2018	175	36	5	216
Jul 2018	111	22	4	137
Aug 2018	15	18	0	33
Sep 2018	18	19	0	37
Oct 2018	13	13	0	26
Nov 2018	13	15	1	29
Dec 2018	12	12	0	24
Jan 2019	14	10	0	24
Feb 2019	6	10	0	16
Mar 2019	10	12	0	22
Apr 2019	5	6	0	11
May 2019	21	17	0	38
Jun 2019	25	11	0	36
Jul 2019	16	10	0	26
Aug 2019	25	22	0	47
Sep 2019	12	9	0	21
Oct 2019	33	28	1	62
Nov 2019	10	19	0	29
Dec 2019	10	27	0	37
Jan 2020	13	13	2	28
Feb 2020	16	20	0	36
Mar 2020	8	16	0	24
Apr 2020	14	17	0	31
May 2020	12	10	0	22
Jun 2020	23	11	0	34
Jul 2020	49	42	14	105
Aug 2020	8	28	1	37
Sep 2020	41	43	0	84
Oct 2020	39	35	3	77
Nov 2020	34	29	0	63
Dec 2020	49	25	0	74
Jan 2021	61	50	0	111
Feb 2021	35	43	0	78
Mar 2021	35	44	0	79
Apr 2021	31	35	0	66
May 2021	34	40	1	75
Jun 2021	31	26	1	58
Jul 2021	37	32	0	69
Aug 2021	44	35	0	79
Sep 2021	42	33	0	75
Oct 2021	36	56	0	92
Nov 2021	37	45	2	84
Dec 2021	28	19	2	49
Jan 2022	23	13	0	36
Feb 2022	28	9	1	38
Mar 2022	29	11	0	40
Apr 2022	27	9	1	37
May 2022	19	11	1	31
Jun 2022	25	8	1	34
Jul 2022	20	11	0	31
Aug 2022	30	13	1	44
Sep 2022	16	4	0	20
Oct 2022	22	4	1	27
Nov 2022	51	11	1	63
Dec 2022	43	5	1	49
Jan 2023	47	16	2	65
Feb 2023	55	4	0	59
Mar 2023	52	6	0	58
Apr 2023	31	10	0	41
May 2023	23	13	1	37
Jun 2023	18	7	1	26
Jul 2023	22	7	1	30
Aug 2023	20	4	3	27
Sep 2023	21	5	1	27
Oct 2023	17	9	2	28
Nov 2023	11	4	0	15
Dec 2023	32	13	2	47
Jan 2024	21	16	0	37
Feb 2024	23	9	2	34
Mar 2024	31	14	3	48
Apr 2024	60	17	8	85
May 2024	33	22	2	57
Jun 2024	54	7	2	63
Jul 2024	22	4	2	28
Aug 2024	40	4	3	47
Sep 2024	24	7	0	31
Oct 2024	32	9	0	41
Nov 2024	25	4	3	32
Dec 2024	29	6	0	35
Jan 2025	35	9	4	48
Feb 2025	57	10	2	69
Mar 2025	32	20	1	53
Apr 2025	36	28	2	66
May 2025	37	8	0	45
Jun 2025	58	14	1	73
Jul 2025	52	19	5	76
Aug 2025	59	11	0	70
Sep 2025	53	14	2	69
Oct 2025	55	29	3	87
Nov 2025	9	7	1	17

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Short summary

For calibration and validation purposes it is necessary to detect simultaneous data acquisitions from different spaceborne platforms. We present an algorithm and a software system which implements a general approach to resolve this problem. The multisensor matchup system (MMS) can detect simultaneous acquisitions in a large dataset (> 100 TB) and extract data for matching locations for further analysis. The MMS implements a flexible software infrastructure and allows for high parallelization.


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