Impact of an observational time window on coupled data assimilation: simulation with a simple climate model

Zhao, Yuxin; Deng, Xiong; Zhang, Shaoqing; Liu, Zhengyu; Liu, Chang; Vecchi, Gabriel; Han, Guijun; Wu, Xinrong

doi:https://doi.org/10.5194/npg-24-681-2017

Articles | Volume 24, issue 4

https://doi.org/10.5194/npg-24-681-2017

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

https://doi.org/10.5194/npg-24-681-2017

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

Articles | Volume 24, issue 4

Research article

|

17 Nov 2017

Research article |

| 17 Nov 2017

Impact of an observational time window on coupled data assimilation: simulation with a simple climate model

Yuxin Zhao, Xiong Deng, Shaoqing Zhang, Zhengyu Liu, Chang Liu, Gabriel Vecchi, Guijun Han, and Xinrong Wu

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Jun 2017	27	10	8	45
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Aug 2017	18	10	2	30
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Oct 2017	9	3	1	13
Nov 2017	86	61	5	152
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Jan 2018	44	34	12	90
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Apr 2018	28	21	6	55
May 2018	21	24	4	49
Jun 2018	18	24	6	48
Jul 2018	18	19	5	42
Aug 2018	31	20	7	58
Sep 2018	13	21	4	38
Oct 2018	16	19	9	44
Nov 2018	12	10	2	24
Dec 2018	20	16	3	39
Jan 2019	23	20	5	48
Feb 2019	25	16	4	45
Mar 2019	26	15	3	44
Apr 2019	17	13	3	33
May 2019	22	15	3	40
Jun 2019	18	14	0	32
Jul 2019	14	10	0	24
Aug 2019	8	6	0	14
Sep 2019	9	7	0	16
Oct 2019	8	6	3	17
Nov 2019	13	8	2	23
Dec 2019	7	12	0	19
Jan 2020	16	11	5	32
Feb 2020	7	8	0	15
Mar 2020	10	7	5	22
Apr 2020	11	9	3	23
May 2020	9	5	1	15
Jun 2020	29	23	3	55
Jul 2020	38	73	18	129
Aug 2020	4	14	3	21
Sep 2020	17	12	0	29
Oct 2020	8	10	0	18
Nov 2020	8	9	1	18
Dec 2020	7	7	0	14
Jan 2021	25	14	1	40
Feb 2021	6	6	0	12
Mar 2021	5	5	2	12
Apr 2021	9	8	3	20
May 2021	8	9	2	19
Jun 2021	8	8	0	16
Jul 2021	4	9	2	15
Aug 2021	16	9	0	25
Sep 2021	12	8	3	23
Oct 2021	6	37	0	43
Nov 2021	12	31	1	44
Dec 2021	16	11	1	28
Jan 2022	12	15	2	29
Feb 2022	9	8	2	19
Mar 2022	15	9	1	25
Apr 2022	4	6	0	10
May 2022	8	11	2	21
Jun 2022	6	6	5	17
Jul 2022	8	6	0	14
Aug 2022	10	8	1	19
Sep 2022	9	4	1	14
Oct 2022	7	5	3	15
Nov 2022	8	11	1	20
Dec 2022	13	12	1	26
Jan 2023	2	7	0	9
Feb 2023	19	11	0	30
Mar 2023	12	10	2	24
Apr 2023	26	7	1	34
May 2023	14	12	1	27
Jun 2023	6	4	0	10
Jul 2023	6	6	0	12
Aug 2023	8	8	3	19
Sep 2023	7	5	0	12
Oct 2023	8	12	0	20
Nov 2023	4	1	0	5
Dec 2023	15	6	2	23
Jan 2024	8	4	0	12
Feb 2024	2	10	0	12
Mar 2024	5	19	3	27
Apr 2024	5	7	1	13

Cumulative views and downloads (calculated since 13 Jan 2017)

Month	HTML	PDF	XML	Total
Jan 2017	55	10	6	71
Feb 2017	36	10	2	48
Mar 2017	36	13	10	59
Apr 2017	33	17	2	52
May 2017	32	6	9	47
Jun 2017	27	10	8	45
Jul 2017	15	18	3	36
Aug 2017	18	10	2	30
Sep 2017	13	5	1	19
Oct 2017	9	3	1	13
Nov 2017	86	61	5	152
Dec 2017	35	31	8	74
Jan 2018	44	34	12	90
Feb 2018	29	13	5	47
Mar 2018	21	19	3	43
Apr 2018	28	21	6	55
May 2018	21	24	4	49
Jun 2018	18	24	6	48
Jul 2018	18	19	5	42
Aug 2018	31	20	7	58
Sep 2018	13	21	4	38
Oct 2018	16	19	9	44
Nov 2018	12	10	2	24
Dec 2018	20	16	3	39
Jan 2019	23	20	5	48
Feb 2019	25	16	4	45
Mar 2019	26	15	3	44
Apr 2019	17	13	3	33
May 2019	22	15	3	40
Jun 2019	18	14	0	32
Jul 2019	14	10	0	24
Aug 2019	8	6	0	14
Sep 2019	9	7	0	16
Oct 2019	8	6	3	17
Nov 2019	13	8	2	23
Dec 2019	7	12	0	19
Jan 2020	16	11	5	32
Feb 2020	7	8	0	15
Mar 2020	10	7	5	22
Apr 2020	11	9	3	23
May 2020	9	5	1	15
Jun 2020	29	23	3	55
Jul 2020	38	73	18	129
Aug 2020	4	14	3	21
Sep 2020	17	12	0	29
Oct 2020	8	10	0	18
Nov 2020	8	9	1	18
Dec 2020	7	7	0	14
Jan 2021	25	14	1	40
Feb 2021	6	6	0	12
Mar 2021	5	5	2	12
Apr 2021	9	8	3	20
May 2021	8	9	2	19
Jun 2021	8	8	0	16
Jul 2021	4	9	2	15
Aug 2021	16	9	0	25
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Oct 2021	6	37	0	43
Nov 2021	12	31	1	44
Dec 2021	16	11	1	28
Jan 2022	12	15	2	29
Feb 2022	9	8	2	19
Mar 2022	15	9	1	25
Apr 2022	4	6	0	10
May 2022	8	11	2	21
Jun 2022	6	6	5	17
Jul 2022	8	6	0	14
Aug 2022	10	8	1	19
Sep 2022	9	4	1	14
Oct 2022	7	5	3	15
Nov 2022	8	11	1	20
Dec 2022	13	12	1	26
Jan 2023	2	7	0	9
Feb 2023	19	11	0	30
Mar 2023	12	10	2	24
Apr 2023	26	7	1	34
May 2023	14	12	1	27
Jun 2023	6	4	0	10
Jul 2023	6	6	0	12
Aug 2023	8	8	3	19
Sep 2023	7	5	0	12
Oct 2023	8	12	0	20
Nov 2023	4	1	0	5
Dec 2023	15	6	2	23
Jan 2024	8	4	0	12
Feb 2024	2	10	0	12
Mar 2024	5	19	3	27
Apr 2024	5	7	1	13

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Short summary

Here with a simple coupled model that simulates typical scale interactions in the climate system, we study the optimal OTWs for the coupled media so that climate signals can be most accurately recovered by CDA. Results show that an optimal OTW determined from the de-correlation timescale provides maximal observational information that best fits the characteristic variability of the coupled medium during the data blending process.

Impact of an observational time window on coupled data assimilation: simulation with a simple climate model

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6 citations as recorded by crossref.

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