A decision-tree-based measure–correlate–predict approach for peak wind gust estimation  from a global reanalysis dataset

Kartal, Serkan; Basu, Sukanta; Watson, Simon J.

doi:10.5194/wes-8-1533-2023

Articles | Volume 8, issue 10

https://doi.org/10.5194/wes-8-1533-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/wes-8-1533-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 8, issue 10

Research article

|

16 Oct 2023

Research article |

| 16 Oct 2023

A decision-tree-based measure–correlate–predict approach for peak wind gust estimation from a global reanalysis dataset

Serkan Kartal, Sukanta Basu, and Simon J. Watson

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Jun 2023	102	9	0	111
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Sep 2023	25	16	1	42
Oct 2023	137	41	4	182
Nov 2023	63	9	0	72
Dec 2023	53	20	6	79
Jan 2024	252	19	1	272
Feb 2024	28	8	1	37
Mar 2024	19	14	1	34
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Jul 2024	406	17	3	426
Aug 2024	45	10	4	59
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Oct 2024	37	13	2	52
Nov 2024	53	9	0	62
Dec 2024	36	10	0	46
Jan 2025	30	18	0	48
Feb 2025	49	11	0	60
Mar 2025	38	3	1	42
Apr 2025	21	13	0	34
May 2025	71	21	1	93
Jun 2025	63	21	1	85
Jul 2025	36	13	1	50
Aug 2025	40	22	2	64
Sep 2025	125	26	2	153
Oct 2025	56	23	2	81
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Dec 2025	179	58	1	238
Jan 2026	1,245	40	10	1,295
Feb 2026	288	28	2	318
Mar 2026	166	39	4	209
Apr 2026	70	54	3	127
May 2026	171	34	4	209
Jun 2026	3	4	0	7

Cumulative views and downloads (calculated since 17 Apr 2023)

Month	HTML	PDF	XML	Total
Apr 2023	239	27	7	273
May 2023	312	18	5	335
Jun 2023	102	9	0	111
Jul 2023	51	5	1	57
Aug 2023	27	16	5	48
Sep 2023	25	16	1	42
Oct 2023	137	41	4	182
Nov 2023	63	9	0	72
Dec 2023	53	20	6	79
Jan 2024	252	19	1	272
Feb 2024	28	8	1	37
Mar 2024	19	14	1	34
Apr 2024	60	3	2	65
May 2024	20	14	2	36
Jun 2024	58	13	4	75
Jul 2024	406	17	3	426
Aug 2024	45	10	4	59
Sep 2024	42	8	2	52
Oct 2024	37	13	2	52
Nov 2024	53	9	0	62
Dec 2024	36	10	0	46
Jan 2025	30	18	0	48
Feb 2025	49	11	0	60
Mar 2025	38	3	1	42
Apr 2025	21	13	0	34
May 2025	71	21	1	93
Jun 2025	63	21	1	85
Jul 2025	36	13	1	50
Aug 2025	40	22	2	64
Sep 2025	125	26	2	153
Oct 2025	56	23	2	81
Nov 2025	65	60	9	134
Dec 2025	179	58	1	238
Jan 2026	1,245	40	10	1,295
Feb 2026	288	28	2	318
Mar 2026	166	39	4	209
Apr 2026	70	54	3	127
May 2026	171	34	4	209
Jun 2026	3	4	0	7

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Short summary

Peak wind gust is a crucial meteorological variable for wind farm planning and operations. Unfortunately, many wind farms do not have on-site measurements of it. In this paper, we propose a machine-learning approach (called INTRIGUE, decIsioN-TRee-based wInd GUst Estimation) that utilizes numerous inputs from a public-domain reanalysis dataset, generating long-term, site-specific peak wind gust series.