A high-fidelity multiresolution digital elevation model for Earth systems

Duan, Xinqiao; Li, Lin; Zhu, Haihong; Ying, Shen

doi:https://doi.org/10.5194/gmd-10-239-2017

Articles | Volume 10, issue 1

https://doi.org/10.5194/gmd-10-239-2017

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

https://doi.org/10.5194/gmd-10-239-2017

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

Articles | Volume 10, issue 1

Development and technical paper

|

16 Jan 2017

Development and technical paper |

| 16 Jan 2017

A high-fidelity multiresolution digital elevation model for Earth systems

Xinqiao Duan, Lin Li, Haihong Zhu, and Shen Ying

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Total article views: 3,784 (including HTML, PDF, and XML)

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2,199	1,431	154	3,784	303	191	191

HTML: 2,199
PDF: 1,431
XML: 154
Total: 3,784
Supplement: 303
BibTeX: 191
EndNote: 191

Views and downloads (calculated since 27 May 2016)

Month	HTML	PDF	XML	Total
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Jul 2016	11	6	0	17
Aug 2016	4	4	1	9
Sep 2016	9	5	0	14
Oct 2016	3	1	0	4
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Jan 2017	179	47	7	233
Feb 2017	49	22	13	84
Mar 2017	55	36	9	100
Apr 2017	39	20	5	64
May 2017	43	31	14	88
Jun 2017	40	18	10	68
Jul 2017	17	16	1	34
Aug 2017	10	68	0	78
Sep 2017	17	15	4	36
Oct 2017	9	32	0	41
Nov 2017	9	17	2	28
Dec 2017	9	15	1	25
Jan 2018	9	22	0	31
Feb 2018	9	11	0	20
Mar 2018	10	19	0	29
Apr 2018	9	18	0	27
May 2018	11	19	0	30
Jun 2018	7	23	0	30
Jul 2018	15	23	1	39
Aug 2018	13	22	0	35
Sep 2018	9	18	0	27
Oct 2018	6	22	0	28
Nov 2018	19	18	0	37
Dec 2018	7	17	0	24
Jan 2019	8	19	0	27
Feb 2019	5	10	0	15
Mar 2019	7	17	0	24
Apr 2019	5	16	1	22
May 2019	4	22	0	26
Jun 2019	6	15	0	21
Jul 2019	8	11	1	20
Aug 2019	6	20	0	26
Sep 2019	8	14	0	22
Oct 2019	16	18	1	35
Nov 2019	18	13	0	31
Dec 2019	9	13	0	22
Jan 2020	27	10	3	40
Feb 2020	9	8	0	17
Mar 2020	10	7	0	17
Apr 2020	5	4	0	9
May 2020	3	9	0	12
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Jul 2020	46	63	33	142
Aug 2020	4	13	0	17
Sep 2020	12	8	0	20
Oct 2020	11	9	3	23
Nov 2020	6	17	1	24
Dec 2020	10	14	0	24
Jan 2021	16	16	0	32
Feb 2021	19	9	0	28
Mar 2021	9	10	0	19
Apr 2021	10	11	0	21
May 2021	9	7	0	16
Jun 2021	11	5	0	16
Jul 2021	6	5	1	12
Aug 2021	5	13	0	18
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Oct 2021	6	33	0	39
Nov 2021	9	31	0	40
Dec 2021	13	10	0	23
Jan 2022	7	11	0	18
Feb 2022	5	10	2	17
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Apr 2022	38	1	1	40
May 2022	40	10	0	50
Jun 2022	35	9	0	44
Jul 2022	30	2	0	32
Aug 2022	37	5	0	42
Sep 2022	32	10	0	42
Oct 2022	39	8	2	49
Nov 2022	47	7	0	54
Dec 2022	35	3	0	38
Jan 2023	30	8	0	38
Feb 2023	39	10	1	50
Mar 2023	41	6	1	48
Apr 2023	55	7	0	62
May 2023	43	5	0	48
Jun 2023	36	3	1	40
Jul 2023	34	6	0	40
Aug 2023	37	8	1	46
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Nov 2023	23	3	1	27
Dec 2023	45	8	3	56
Jan 2024	39	9	1	49
Feb 2024	33	5	0	38
Mar 2024	38	8	4	50
Apr 2024	49	8	2	59
May 2024	17	5	9	31
Jun 2024	9	9	2	20
Jul 2024	21	17	0	38
Aug 2024	10	3	1	14
Sep 2024	7	10	0	17
Oct 2024	11	8	0	19
Nov 2024	10	1	3	14
Dec 2024	7	10	2	19
Jan 2025	13	13	0	26
Feb 2025	25	8	2	35
Mar 2025	14	9	0	23
Apr 2025	2	0	2

Cumulative views and downloads (calculated since 27 May 2016)

Month	HTML	PDF	XML	Total
May 2016	38	8	0	46
Jun 2016	30	11	1	42
Jul 2016	11	6	0	17
Aug 2016	4	4	1	9
Sep 2016	9	5	0	14
Oct 2016	3	1	0	4
Nov 2016	3	2	0	5
Dec 2016	3	1	0	4
Jan 2017	179	47	7	233
Feb 2017	49	22	13	84
Mar 2017	55	36	9	100
Apr 2017	39	20	5	64
May 2017	43	31	14	88
Jun 2017	40	18	10	68
Jul 2017	17	16	1	34
Aug 2017	10	68	0	78
Sep 2017	17	15	4	36
Oct 2017	9	32	0	41
Nov 2017	9	17	2	28
Dec 2017	9	15	1	25
Jan 2018	9	22	0	31
Feb 2018	9	11	0	20
Mar 2018	10	19	0	29
Apr 2018	9	18	0	27
May 2018	11	19	0	30
Jun 2018	7	23	0	30
Jul 2018	15	23	1	39
Aug 2018	13	22	0	35
Sep 2018	9	18	0	27
Oct 2018	6	22	0	28
Nov 2018	19	18	0	37
Dec 2018	7	17	0	24
Jan 2019	8	19	0	27
Feb 2019	5	10	0	15
Mar 2019	7	17	0	24
Apr 2019	5	16	1	22
May 2019	4	22	0	26
Jun 2019	6	15	0	21
Jul 2019	8	11	1	20
Aug 2019	6	20	0	26
Sep 2019	8	14	0	22
Oct 2019	16	18	1	35
Nov 2019	18	13	0	31
Dec 2019	9	13	0	22
Jan 2020	27	10	3	40
Feb 2020	9	8	0	17
Mar 2020	10	7	0	17
Apr 2020	5	4	0	9
May 2020	3	9	0	12
Jun 2020	15	18	0	33
Jul 2020	46	63	33	142
Aug 2020	4	13	0	17
Sep 2020	12	8	0	20
Oct 2020	11	9	3	23
Nov 2020	6	17	1	24
Dec 2020	10	14	0	24
Jan 2021	16	16	0	32
Feb 2021	19	9	0	28
Mar 2021	9	10	0	19
Apr 2021	10	11	0	21
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Jun 2021	11	5	0	16
Jul 2021	6	5	1	12
Aug 2021	5	13	0	18
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May 2022	40	10	0	50
Jun 2022	35	9	0	44
Jul 2022	30	2	0	32
Aug 2022	37	5	0	42
Sep 2022	32	10	0	42
Oct 2022	39	8	2	49
Nov 2022	47	7	0	54
Dec 2022	35	3	0	38
Jan 2023	30	8	0	38
Feb 2023	39	10	1	50
Mar 2023	41	6	1	48
Apr 2023	55	7	0	62
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Jun 2023	36	3	1	40
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Aug 2023	37	8	1	46
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Nov 2023	23	3	1	27
Dec 2023	45	8	3	56
Jan 2024	39	9	1	49
Feb 2024	33	5	0	38
Mar 2024	38	8	4	50
Apr 2024	49	8	2	59
May 2024	17	5	9	31
Jun 2024	9	9	2	20
Jul 2024	21	17	0	38
Aug 2024	10	3	1	14
Sep 2024	7	10	0	17
Oct 2024	11	8	0	19
Nov 2024	10	1	3	14
Dec 2024	7	10	2	19
Jan 2025	13	13	0	26
Feb 2025	25	8	2	35
Mar 2025	14	9	0	23
Apr 2025	2	0	2

Cited

Latest update: 02 Apr 2025

Short summary

This article proposes an optimized transformation for topographic datasets. The resulting topographic grid exhibits good surface approximation and quasi-uniform high-quality. Both features of the processed topography build a concrete base from which improved endogenous or exogenous parameters can be derived, and makes it suitable for Earth and environmental simulations.

A high-fidelity multiresolution digital elevation model for Earth systems

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Cited

4 citations as recorded by crossref.

4 citations as recorded by crossref.