Validation of three-component wind lidar sensor for traceable highly resolved wind vector measurements

Oertel, Stefan; Eggert, Michael; Gutsmuths, Christian; Wilhelm, Paul; Müller, Harald; Többen, Helmut

doi:https://doi.org/10.5194/jsss-8-9-2019

Articles | Volume 8, issue 1

https://doi.org/10.5194/jsss-8-9-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

Sensors and Measurement Systems 2018

https://doi.org/10.5194/jsss-8-9-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 8, issue 1

Regular research article

|

08 Jan 2019

Regular research article |

| 08 Jan 2019

Validation of three-component wind lidar sensor for traceable highly resolved wind vector measurements

Stefan Oertel, Michael Eggert, Christian Gutsmuths, Paul Wilhelm, Harald Müller, and Helmut Többen

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Jun 2019	248	28	1	277
Jul 2019	239	28	1	268
Aug 2019	80	26	0	106
Sep 2019	106	25	1	132
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Nov 2019	153	27	0	180
Dec 2019	101	24	0	125
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Apr 2020	339	20	1	360
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Jun 2020	306	11	1	318
Jul 2020	205	8	3	216
Aug 2020	308	3	2	313
Sep 2020	163	9	0	172
Oct 2020	47	10	3	60
Nov 2020	126	10	0	136
Dec 2020	96	13	3	112
Jan 2021	34	13	0	47
Feb 2021	22	8	0	30
Mar 2021	23	10	0	33
Apr 2021	20	9	1	30
May 2021	26	13	1	40
Jun 2021	23	10	2	35
Jul 2021	16	7	0	23
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Mar 2022	43	21	0	64
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Jun 2022	23	13	5	41
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Aug 2022	34	6	3	43
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Jan 2024	13	5	0	18
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Mar 2024	10	11	1	22
Apr 2024	13	8	1	22
May 2024	6	5	1	12
Jun 2024	47	6	4	57
Jul 2024	19	3	3	25
Aug 2024	31	7	2	40
Sep 2024	27	12	2	41
Oct 2024	24	8	4	36
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Dec 2024	14	1	4	19
Jan 2025	7	1	0	8

Cumulative views and downloads (calculated since 08 Jan 2019)

Month	HTML	PDF	XML	Total
Jan 2019	83	33	4	120
Feb 2019	37	10	1	48
Mar 2019	45	11	1	57
Apr 2019	24	18	2	44
May 2019	22	21	2	45
Jun 2019	248	28	1	277
Jul 2019	239	28	1	268
Aug 2019	80	26	0	106
Sep 2019	106	25	1	132
Oct 2019	94	24	1	119
Nov 2019	153	27	0	180
Dec 2019	101	24	0	125
Jan 2020	83	35	1	119
Feb 2020	57	14	0	71
Mar 2020	43	14	0	57
Apr 2020	339	20	1	360
May 2020	125	12	0	137
Jun 2020	306	11	1	318
Jul 2020	205	8	3	216
Aug 2020	308	3	2	313
Sep 2020	163	9	0	172
Oct 2020	47	10	3	60
Nov 2020	126	10	0	136
Dec 2020	96	13	3	112
Jan 2021	34	13	0	47
Feb 2021	22	8	0	30
Mar 2021	23	10	0	33
Apr 2021	20	9	1	30
May 2021	26	13	1	40
Jun 2021	23	10	2	35
Jul 2021	16	7	0	23
Aug 2021	12	10	0	22
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Oct 2021	12	27	0	39
Nov 2021	19	24	1	44
Dec 2021	17	6	0	23
Jan 2022	26	20	5	51
Feb 2022	24	13	2	39
Mar 2022	43	21	0	64
Apr 2022	40	12	1	53
May 2022	16	11	6	33
Jun 2022	23	13	5	41
Jul 2022	21	3	0	24
Aug 2022	34	6	3	43
Sep 2022	9	8	0	17
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Dec 2022	17	9	1	27
Jan 2023	13	7	0	20
Feb 2023	16	8	3	27
Mar 2023	23	9	2	34
Apr 2023	7	13	1	21
May 2023	22	13	1	36
Jun 2023	8	8	0	16
Jul 2023	6	12	0	18
Aug 2023	19	33	6	58
Sep 2023	17	13	1	31
Oct 2023	9	4	1	14
Nov 2023	10	4	5	19
Dec 2023	14	5	1	20
Jan 2024	13	5	0	18
Feb 2024	17	12	1	30
Mar 2024	10	11	1	22
Apr 2024	13	8	1	22
May 2024	6	5	1	12
Jun 2024	47	6	4	57
Jul 2024	19	3	3	25
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Oct 2024	24	8	4	36
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Short summary

Traceable wind velocity measurements with high resolution play a critical role in the field of wind energy. In this article we present a novel bistatic wind lidar system that has a high spatial and temporal resolution and a reduced measurement uncertainty compared to conventional systems as evidenced by comparison measurements. A first validation measurement in a wind tunnel with a laser Doppler anemometer as a flow velocity reference confirms the high accuracy of the bistatic lidar system.


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Validation of three-component wind lidar sensor for traceable highly resolved wind vector measurements

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7 citations as recorded by crossref.