Modeling the unified measurement uncertainty of deflectometric and plenoptic 3-D sensors

Ziebarth, Mathias; Zeller, Niclas; Heizmann, Michael; Quint, Franz

doi:https://doi.org/10.5194/jsss-7-517-2018

Articles | Volume 7, issue 2

https://doi.org/10.5194/jsss-7-517-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

Evaluating measurement data and uncertainty

https://doi.org/10.5194/jsss-7-517-2018

© Author(s) 2018. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 7, issue 2

Regular research article

|

28 Sep 2018

Regular research article |

| 28 Sep 2018

Modeling the unified measurement uncertainty of deflectometric and plenoptic 3-D sensors

Mathias Ziebarth, Niclas Zeller, Michael Heizmann, and Franz Quint

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Jan 2021	18	9	5	32
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Cumulative views and downloads (calculated since 28 Sep 2018)

Month	HTML	PDF	XML	Total
Sep 2018	29	7	3	39
Oct 2018	93	35	4	132
Nov 2018	67	12	2	81
Dec 2018	48	8	0	56
Jan 2019	26	11	1	38
Feb 2019	13	11	1	25
Mar 2019	14	15	0	29
Apr 2019	15	7	0	22
May 2019	16	16	1	33
Jun 2019	235	9	1	245
Jul 2019	240	13	0	253
Aug 2019	67	16	0	83
Sep 2019	105	13	2	120
Oct 2019	101	20	1	122
Nov 2019	171	14	0	185
Dec 2019	76	5	2	83
Jan 2020	59	13	1	73
Feb 2020	11	6	0	17
Mar 2020	15	9	0	24
Apr 2020	332	12	1	345
May 2020	117	4	0	121
Jun 2020	244	8	0	252
Jul 2020	183	19	14	216
Aug 2020	191	6	3	200
Sep 2020	108	8	0	116
Oct 2020	36	9	0	45
Nov 2020	30	11	1	42
Dec 2020	12	8	6	26
Jan 2021	18	9	5	32
Feb 2021	8	2	0	10
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Apr 2021	7	8	2	17
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Short summary

We propose a measurement uncertainty model of two complementary optical sensors: a deflectometric and a plenoptic sensor. The deflectometric sensor uses active triangulation and works best on specular surfaces, while the plenoptic sensor uses passive triangulation and works best on textured, diffusely reflecting surfaces. The predicted uncertainties can be used to obtain optimized measurements for varying surface properties. The models are validated exemplarily based on real measurements.


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Modeling the unified measurement uncertainty of deflectometric and plenoptic 3-D sensors

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