High-resolution typhoon precipitation integrations using satellite infrared observations and multisource data

Zhao, You; Liu, Chao; Di, Di; Ma, Ziqiang; Tang, Shihao

doi:10.5194/amt-15-2791-2022

Articles | Volume 15, issue 9

https://doi.org/10.5194/amt-15-2791-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/amt-15-2791-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 15, issue 9

Research article

|

06 May 2022

Research article |

| 06 May 2022

High-resolution typhoon precipitation integrations using satellite infrared observations and multisource data

You Zhao, Chao Liu, Di Di, Ziqiang Ma, and Shihao Tang

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Total article views: 2,383 (including HTML, PDF, and XML)

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PDF: 699
XML: 87
Total: 2,383
BibTeX: 95
EndNote: 115

Views and downloads (calculated since 20 Jan 2022)

Month	HTML	PDF	XML	Total
Jan 2022	60	11	2	73
Feb 2022	65	17	3	85
Mar 2022	37	13	5	55
Apr 2022	13	8	1	22
May 2022	191	29	9	229
Jun 2022	59	21	1	81
Jul 2022	60	8	0	68
Aug 2022	60	11	0	71
Sep 2022	19	7	0	26
Oct 2022	18	10	2	30
Nov 2022	27	7	1	35
Dec 2022	10	7	1	18
Jan 2023	14	13	0	27
Feb 2023	18	10	1	29
Mar 2023	13	3	0	16
Apr 2023	12	14	0	26
May 2023	11	11	2	24
Jun 2023	18	12	2	32
Jul 2023	14	14	0	28
Aug 2023	19	16	3	38
Sep 2023	23	17	1	41
Oct 2023	20	11	2	33
Nov 2023	10	9	3	22
Dec 2023	25	9	0	34
Jan 2024	33	6	1	40
Feb 2024	17	12	0	29
Mar 2024	20	21	3	44
Apr 2024	25	11	3	39
May 2024	37	8	4	49
Jun 2024	41	9	2	52
Jul 2024	56	7	5	68
Aug 2024	22	13	2	37
Sep 2024	18	6	1	25
Oct 2024	12	9	0	21
Nov 2024	18	6	1	25
Dec 2024	12	5	0	17
Jan 2025	12	13	0	25
Feb 2025	21	5	1	27
Mar 2025	29	9	1	39
Apr 2025	21	11	0	32
May 2025	30	7	1	38
Jun 2025	57	27	0	84
Jul 2025	46	17	5	68
Aug 2025	30	17	2	49
Sep 2025	48	19	2	69
Oct 2025	32	29	3	64
Nov 2025	45	50	4	99
Dec 2025	60	50	3	113
Jan 2026	39	44	4	87

Cumulative views and downloads (calculated since 20 Jan 2022)

Month	HTML	PDF	XML	Total
Jan 2022	60	11	2	73
Feb 2022	65	17	3	85
Mar 2022	37	13	5	55
Apr 2022	13	8	1	22
May 2022	191	29	9	229
Jun 2022	59	21	1	81
Jul 2022	60	8	0	68
Aug 2022	60	11	0	71
Sep 2022	19	7	0	26
Oct 2022	18	10	2	30
Nov 2022	27	7	1	35
Dec 2022	10	7	1	18
Jan 2023	14	13	0	27
Feb 2023	18	10	1	29
Mar 2023	13	3	0	16
Apr 2023	12	14	0	26
May 2023	11	11	2	24
Jun 2023	18	12	2	32
Jul 2023	14	14	0	28
Aug 2023	19	16	3	38
Sep 2023	23	17	1	41
Oct 2023	20	11	2	33
Nov 2023	10	9	3	22
Dec 2023	25	9	0	34
Jan 2024	33	6	1	40
Feb 2024	17	12	0	29
Mar 2024	20	21	3	44
Apr 2024	25	11	3	39
May 2024	37	8	4	49
Jun 2024	41	9	2	52
Jul 2024	56	7	5	68
Aug 2024	22	13	2	37
Sep 2024	18	6	1	25
Oct 2024	12	9	0	21
Nov 2024	18	6	1	25
Dec 2024	12	5	0	17
Jan 2025	12	13	0	25
Feb 2025	21	5	1	27
Mar 2025	29	9	1	39
Apr 2025	21	11	0	32
May 2025	30	7	1	38
Jun 2025	57	27	0	84
Jul 2025	46	17	5	68
Aug 2025	30	17	2	49
Sep 2025	48	19	2	69
Oct 2025	32	29	3	64
Nov 2025	45	50	4	99
Dec 2025	60	50	3	113
Jan 2026	39	44	4	87

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Total article views: 2,383 (including HTML, PDF, and XML) Thereof 2,341 with geography defined and 42 with unknown origin.

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1

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Latest update: 23 Jan 2026

Short summary

A typhoon is a high-impact atmospheric phenomenon that causes most significant socioeconomic damage, and its precipitation observation is always needed for typhoon characteristics and disaster prevention. This study developed a typhoon precipitation fusion method to combine observations from satellite radiometers, rain gauges and reanalysis to provide much improved typhoon precipitation datasets.


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