Low-res many-view results

This table lists the benchmark results for the low-res many-view scenario. The following metrics are evaluated:

Accuracy [%]: The fraction of the reconstruction which is closer to the ground truth than the evaluation threshold distance (*). Larger is better.
Completeness [%]: The fraction of the ground truth which is closer to the reconstruction than the evaluation threshold distance (*). Larger is better.
F₁ score [%]: The harmonic mean of accuracy and completeness, used to rank methods based on both metrics. Larger is better.
Time [s]: The runtime of the method. Smaller is better.

(*) For exact definitions, detailing how potentially incomplete ground truth is taken into account, see our paper.

The datasets are grouped into different categories, and result averages are computed for a category and method if results of the method are available for all datasets within the category. Note that the category "all" includes both the high-res multi-view and the low-res many-view scenarios.

Methods with suffix _ROB may participate in the Robust Vision Challenge.

Click a dataset result cell to show a visualization of the reconstruction. For training datasets, ground truth and accuracy / completeness visualizations are also available. The visualizations may not work with mobile browsers.

Method	all	low-res many-view	indoor	outdoor	delivery area	electro	forest	playground	terrains

DeepPCF-MVS	92.65 2	85.25 1	86.92 1	84.14 2	83.97 1	86.69 1	87.50 7	78.23 2	89.87 1

DeepC-MVS_fast	93.32 1	85.07 2	85.88 2	84.53 1	83.15 3	85.58 3	88.70 5	79.32 1	88.61 4
Andreas Kuhn, Christian Sormann, Mattia Rossi, Oliver Erdler, Friedrich Fraundorfer: DeepC-MVS: Deep Confidence Prediction for Multi-View Stereo Reconstruction. 3DV 2020
DeepC-MVS	92.10 3	83.98 3	85.13 3	83.21 3	82.15 4	85.62 2	86.17 13	77.84 3	88.10 5
Andreas Kuhn, Christian Sormann, Mattia Rossi, Oliver Erdler, Friedrich Fraundorfer: DeepC-MVS: Deep Confidence Prediction for Multi-View Stereo Reconstruction. 3DV 2020
PCF-MVS	90.19 8	82.92 4	82.81 9	83.00 4	81.17 6	82.54 11	89.58 1	76.87 4	84.44 15
Andreas Kuhn, Shan Lin, Oliver Erdler: Plane Completion and Filtering for Multi-View Stereo Reconstruction. GCPR 2019
TAPA-MVS(SR)		82.41 5	81.95 12	82.72 5	79.26 10	82.92 9	88.96 2	76.30 7	84.64 13

GSE		82.31 6	84.48 4	80.86 9	83.37 2	83.31 8	86.44 11	72.84 14	85.60 11

COLMAP(SR)		82.14 7	82.69 10	81.77 6	80.22 7	81.91 12	86.69 9	76.70 5	85.16 12

ACMH+	85.75 12	82.00 8	82.99 8	81.34 7	79.86 9	83.50 6	84.14 20	76.39 6	86.13 9

COLMAP(base)		81.83 9	83.98 5	80.40 12	81.30 5	81.27 17	84.62 17	75.32 8	86.65 8

TAPA-MVS	90.35 6	81.65 10	82.35 11	81.19 8	77.80 13	82.80 10	87.23 8	73.54 13	86.89 7
Andrea Romanoni, Matteo Matteucci: TAPA-MVS: Textureless-Aware PAtchMatch Multi-View Stereo. ICCV 2019
ACMP	89.13 9	81.58 11	83.42 7	80.35 13	78.18 11	83.98 5	82.26 25	74.81 11	88.65 3
Qingshan Xu and Wenbing Tao: Planar Prior Assisted PatchMatch Multi-View Stereo. AAAI 2020
PLC	90.69 4	81.26 12	83.55 6	79.74 14	79.98 8	81.77 13	82.89 23	74.56 12	87.12 6
Jie Liao, Yanping Fu, Qingan Yan, Chunxia xiao: Pyramid Multi-View Stereo with Local Consistency. Pacific Graphics 2019
ACMM	88.76 10	81.11 13	81.52 13	80.84 10	74.01 17	84.63 4	82.95 22	74.93 9	89.03 2
Qingshan Xu and Wenbing Tao: Multi-Scale Geometric Consistency Guided Multi-View Stereo. CVPR 2019
ACMH	85.51 13	80.84 14	81.29 14	80.53 11	76.90 14	81.32 16	85.39 15	74.89 10	85.68 10
Qingshan Xu and Wenbing Tao: Multi-Scale Geometric Consistency Guided Multi-View Stereo. CVPR 2019
LTVRE_ROB	81.71 16	79.80 15	80.59 15	79.28 15	78.07 12	77.11 22	87.94 6	72.79 15	83.11 20
Andreas Kuhn, Heiko HirschmÃ¼ller, Daniel Scharstein, Helmut Mayer: A TV Prior for High-Quality Scalable Multi-View Stereo Reconstruction. International Journal of Computer Vision 2016
3Dnovator+	90.56 5	78.86 16	78.82 20	78.88 16	74.00 18	81.48 15	88.96 2	66.20 17	83.64 19

3Dnovator	90.28 7	78.78 17	78.85 19	78.73 17	73.51 19	81.69 14	88.79 4	65.70 18	84.20 17

IB-MVS	85.10 14	77.61 18	78.87 18	76.76 18	73.22 21	83.42 7	86.20 12	60.66 21	84.52 14
Christian Sormann, Mattia Rossi, Andreas Kuhn and Friedrich Fraundorfer: IB-MVS: An Iterative Algorithm for Deep Multi-View Stereo based on Binary Decisions. BMVC 2021
LPCS		77.42 19	79.47 16	76.06 21	75.26 15	76.94 23	84.57 19	66.67 16	83.68 18

OpenMVS	88.18 11	76.93 20	77.43 22	76.60 19	71.99 22	79.92 20	86.68 10	63.18 20	82.87 21

BP-MVSNet		76.29 21	78.89 17	74.55 22	73.37 20	80.83 18	84.61 18	58.21 24	84.41 16
Christian Sormann, Patrick KnÃ¶belreiter, Andreas Kuhn, Mattia Rossi, Thomas Pock, Friedrich Fraundorfer: BP-MVSNet: Belief-Propagation-Layers for Multi-View-Stereo. 3DV 2020
COLMAP_ROB	84.39 15	76.00 22	78.19 21	74.54 23	74.84 16	78.71 21	85.35 16	59.56 23	81.54 22
Johannes L. SchÃ¶nberger, Enliang Zheng, Marc Pollefeys, Jan-Michael Frahm: Pixelwise View Selection for Unstructured Multi-View Stereo. ECCV 2016
A-TVSNet + Gipuma		74.86 23	72.82 23	76.22 20	65.68 24	80.05 19	83.85 21	64.78 19	79.97 23

CIDER		72.79 24	71.22 24	73.83 24	66.45 23	75.90 24	85.48 14	60.12 22	75.99 28
Qingshan Xu and Wenbing Tao: Learning Inverse Depth Regression for Multi-View Stereo with Correlation Cost Volume. AAAI 2020
CasMVSNet(SR_B)		68.37 25	69.10 26	67.89 25	58.45 26	75.81 25	82.56 24	45.29 25	79.74 24

CasMVSNet(base)		67.59 26	69.39 25	66.39 26	59.55 25	73.85 26	81.64 26	43.68 27	79.22 26

CasMVSNet(SR_A)		61.07 27	69.10 26	55.72 27	58.45 26	51.00 28	70.87 27	45.29 25	79.74 24

unsupervisedMVS_cas		57.02 28	62.80 28	53.17 28	51.47 28	56.11 27	64.92 28	38.49 28	74.12 30

PMVS	56.77 18	45.06 29	56.08 29	37.71 29	36.72 29	39.72 30	58.13 30	15.27 33	75.45 29
Y. Furukawa, J. Ponce: Accurate, dense, and robust multiview stereopsis. PAMI (2010)
example		41.99 30	50.30 30	36.45 31	22.98 32	24.09 33	59.89 29	25.38 30	77.63 27

MVE	39.81 19	40.56 31	46.63 33	36.51 30	21.84 33	40.47 29	33.87 33	35.20 29	71.41 31
Simon Fuhrmann, Fabian Langguth, Michael Goesele: MVE - A Multi-View Reconstruction Environment. EUROGRAPHICS Workshops on Graphics and Cultural Heritage (2014)
hgnet		39.62 32	46.97 31	34.72 32	23.74 30	29.07 31	58.02 31	17.07 31	70.20 32

DPSNet		39.62 32	46.97 31	34.72 32	23.74 30	29.07 31	58.02 31	17.07 31	70.20 32

CMPMVS	61.19 17	12.65 34	31.46 34	0.11 34	0.00 34	0.00 34	0.34 34	0.00 34	62.92 34
M. Jancosek, T. Pajdla: Multi-View Reconstruction Preserving Weakly-Supported Surfaces. CVPR 2011
dnet		0.00 35	0.00 35	0.00 35	0.00 34	0.00 34	0.00 35	0.00 34	0.00 35

Low-resolution many-view benchmark