Conditional simulation of spatial rainfall fields  using random mixing: a study that implements  full control over the stochastic process

Yan, Jieru; Li, Fei; Bárdossy, András; Tao, Tao

doi:10.5194/hess-25-3819-2021

Articles | Volume 25, issue 7

https://doi.org/10.5194/hess-25-3819-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/hess-25-3819-2021

© Author(s) 2021. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 25, issue 7

Research article

|

02 Jul 2021

Research article |

| 02 Jul 2021

Conditional simulation of spatial rainfall fields using random mixing: a study that implements full control over the stochastic process

Jieru Yan, Fei Li, András Bárdossy, and Tao Tao

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Total article views: 4,402 (including HTML, PDF, and XML)

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Views and downloads (calculated since 02 Feb 2021)

Month	HTML	PDF	XML	Total
Feb 2021	161	45	2	208
Mar 2021	131	28	13	172
Apr 2021	71	30	4	105
May 2021	23	10	0	33
Jun 2021	19	12	1	32
Jul 2021	224	56	2	282
Aug 2021	54	23	1	78
Sep 2021	49	45	0	94
Oct 2021	25	137	1	163
Nov 2021	45	83	0	128
Dec 2021	41	25	0	66
Jan 2022	25	21	0	46
Feb 2022	16	11	2	29
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Apr 2022	19	14	3	36
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Jan 2023	25	31	0	56
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Apr 2023	10	5	1	16
May 2023	9	7	1	17
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Jul 2023	23	34	3	60
Aug 2023	17	17	3	37
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Oct 2023	31	10	0	41
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Dec 2023	13	4	1	18
Jan 2024	65	13	2	80
Feb 2024	15	20	2	37
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Apr 2024	28	14	1	43
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Jun 2024	176	9	3	188
Jul 2024	44	14	1	59
Aug 2024	35	14	2	51
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Jan 2025	16	8	0	24
Feb 2025	26	13	0	39
Mar 2025	22	7	0	29
Apr 2025	36	11	3	50
May 2025	41	6	2	49
Jun 2025	45	37	0	82
Jul 2025	31	19	3	53
Aug 2025	55	10	2	67
Sep 2025	71	13	1	85
Oct 2025	41	32	1	74
Nov 2025	67	44	4	115
Dec 2025	125	49	2	176
Jan 2026	191	16	11	218
Feb 2026	224	8	3	235
Mar 2026	68	30	4	102
Apr 2026	99	22	1	122
May 2026	15	5	1	21

Cumulative views and downloads (calculated since 02 Feb 2021)

Month	HTML	PDF	XML	Total
Feb 2021	161	45	2	208
Mar 2021	131	28	13	172
Apr 2021	71	30	4	105
May 2021	23	10	0	33
Jun 2021	19	12	1	32
Jul 2021	224	56	2	282
Aug 2021	54	23	1	78
Sep 2021	49	45	0	94
Oct 2021	25	137	1	163
Nov 2021	45	83	0	128
Dec 2021	41	25	0	66
Jan 2022	25	21	0	46
Feb 2022	16	11	2	29
Mar 2022	23	24	0	47
Apr 2022	19	14	3	36
May 2022	18	12	1	31
Jun 2022	11	3	1	15
Jul 2022	21	6	0	27
Aug 2022	57	19	0	76
Sep 2022	38	16	0	54
Oct 2022	21	6	1	28
Nov 2022	35	12	0	47
Dec 2022	15	6	0	21
Jan 2023	25	31	0	56
Feb 2023	19	10	0	29
Mar 2023	14	9	0	23
Apr 2023	10	5	1	16
May 2023	9	7	1	17
Jun 2023	11	10	0	21
Jul 2023	23	34	3	60
Aug 2023	17	17	3	37
Sep 2023	7	18	2	27
Oct 2023	31	10	0	41
Nov 2023	11	2	1	14
Dec 2023	13	4	1	18
Jan 2024	65	13	2	80
Feb 2024	15	20	2	37
Mar 2024	20	22	2	44
Apr 2024	28	14	1	43
May 2024	17	13	3	33
Jun 2024	176	9	3	188
Jul 2024	44	14	1	59
Aug 2024	35	14	2	51
Sep 2024	34	7	0	41
Oct 2024	28	26	1	55
Nov 2024	24	11	2	37
Dec 2024	11	2	3	16
Jan 2025	16	8	0	24
Feb 2025	26	13	0	39
Mar 2025	22	7	0	29
Apr 2025	36	11	3	50
May 2025	41	6	2	49
Jun 2025	45	37	0	82
Jul 2025	31	19	3	53
Aug 2025	55	10	2	67
Sep 2025	71	13	1	85
Oct 2025	41	32	1	74
Nov 2025	67	44	4	115
Dec 2025	125	49	2	176
Jan 2026	191	16	11	218
Feb 2026	224	8	3	235
Mar 2026	68	30	4	102
Apr 2026	99	22	1	122
May 2026	15	5	1	21

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Short summary

Accurate spatial precipitation estimates are important in various fields. An approach to simulate spatial rainfall fields conditioned on radar and rain gauge data is proposed. Unlike the commonly used Kriging methods, which provide a Kriged mean field, the output of the proposed approach is an ensemble of estimates that represents the estimation uncertainty. The approach is robust to nonlinear error in radar estimates and is shown to have some advantages, especially when estimating the extremes.