OpenGM Benchmark (IJCV 2015)
Benchmark database of discrete energy minimization problems. For further details see
Jörg H. Kappes,
Bjoern Andres,
Fred A. Hamprecht,
Christoph Schnörr,
Sebastian Nowozin,
Dhruv Batra,
Sungwoong Kim,
Thorben Kroeger,
Bernhard X. Kausler,
Jan Lellmann,
Bogdan Savchynskyy,
Nikos Komodakis,
Carsten Rother
:
"A Comparative Study of Modern Inference Techniques for Discrete Energy Minimization Problems",
International Journal of Computer Vision 2015,
[publisher], [preprint], [sublementary material 1][sublementary material 2], [bib]
"A Comparative Study of Modern Inference Techniques for Discrete Energy Minimization Problems",
International Journal of Computer Vision 2015,
[publisher], [preprint], [sublementary material 1][sublementary material 2], [bib]
Download Code and Data
- Optimization methods provided within OpenGM 2.3.3
- Links to download the models are given below.
Models
dataset (zip) 
model description (pdf) 
evaluation (html) | Variables | Labels | Order | Structure | Functions | Instances | Reference | Comment | |||
 | In-Painting (N4) J. Lellmann et.al. converted by J. Lellmann and J.H. Kappes | | 14400 | 4 | 2 | grid4 | potts | 2 | [56] | |
| In-Painting (N8) J. Lellmann et.al. converted by J. Lellmann and J.H. Kappes | | 14400 | 4 | 2 | grid8 | potts | 2 | [56] | |
 | ColorSegmentation (N4) J. Lellmann et.al. converted by J. Lellmann and J.H. Kappes | | 76800 | 3-12 | 2 | grid4 | potts | 2 | [56] | |
| ColorSegmentation (N8) J. Lellmann et.al. converted by J. Lellmann and J.H. Kappes | | 76800 | 3-12 | 2 | grid8 | potts | 2 | [56] | |
 | ColorSegmentation K. Alahari et.al. converted by J.H. Kappes | | 21000-424720 | 3-4 | 2 | grid8 | potts | 2 | [19] | |
 | Object Segmentation K. Alahari et.al. converted by J.H. Kappes | | 68160 | 4-8 | 2 | grid4 | potts | 2 | [19] | |
 | MRF Photomontage R. Szeliski et.al. converted by J.H. Kappes | | 425632-514080 | 5-7 | 2 | grid4 | explicite | 2 | [64] | Models include soft-constraints. |
 | MRF Stereo R. Szeliski et.al. converted by J.H. Kappes | | ~100000 | 16-60 | 2 | grid4 | trunc. conv. | 3 | [64] | |
 | MRF Inpainting R. Szeliski et.al. converted by J.H. Kappes | | 21838-65536 | 256 | 2 | grid4 | trunc. L2 | 2 | [64] | |
 | Chinese Characters S. Nowozin et.al. converted by S. Nowozin and J. H. Kappes | | 4992-17856 | 2 | 2 | sparse | explicit | 100 | [58] | |
 | Brain 3mm J. H. Kappes et.al. converted by J. H. Kappes | | 2356620 | 5 | 2 | 3d-grid6 | potts | 4 | [1] | Good example for large scale |
| Brain 5mm J. H. Kappes et.al. converted by J. H. Kappes | | 1413972 | 5 | 2 | 3d-grid6 | potts | 4 | [1] | Good example for large scale |
| Brain 9mm J. H. Kappes et.al. converted by J. H. Kappes | | 785540 | 5 | 2 | 3d-grid6 | potts | 4 | [1] | Good example for large scale |
 | Scene Decomposition Gould et.al. converted by S. Nowozin and J. H. Kappes | | 150-208 | 8 | 2 | sparse | explicit | 751 | [37] | Use superpixels. |
 | Geometric Surface Labeling (3) Gallagher et.al. converted by D. Batra and J. H. Kappes | | 29-1133 | 3 | 2 | sparse | explicit | 300 | [35,38] | Use superpixels. |
| Geometric Surface Labeling (7) Gallagher et.al. converted by D. Batra and J. H. Kappes | | 29-1133 | 7 | 2 | sparse | explicit | 300 | [35,38] | Use superpixels. |
 | Image Segmentation with Inclusion Prior J. Kappes et.al. converted by J. Kappes | | 1024 | 4 | 4 | sparse | gpotts | 100 | [40] | higher order |
 | Matching N. Komodakis et.al. converted by N. Komodakis and J.H. Kappes | | 19-21 | 19-21 | 2 | full / sparse | explicit | 4 | [54] | Local polytope relaxation is not tight. |
 | Cell Tracking B. X. Kausler et.al. converted by B. X.Kausler | | 41134 | 2 | 9 | sparse | explicit | 1 | [46] | Model includes soft-constraints. |
 | Image Segmentation B. Andres et.al. converted by B. Andres | | 156-3764 | 156-3764 | 2 | sparse | potts | 100 | [20] | Invariant to label permutation. Use superpixels. |
| Image Segmentation 3rd order B. Andres et.al. converted by J. Kappes | | 156-3764 | 156-3764 | 3 | sparse | gpotts | 100 | [20] | Invariant to label permutation. Use superpixels. |
 | Hirachical Image Segmentation K. Sungwoong et.al. converted by K. Sungwoong and J. H. Kappes | | 122-651 | 122-651 | 34-651 | sparse | potts | 715 | [48] | Invariant to label permutation. Use superpixels. |
 | Knott 3D Segmentation 150 Bjoern Andres et.al. converted by Thorben Kroeger | | 572-972 | 572-972 | 2 | sparse | potts | 2 | [23,22] | Invariant to label permutation. Use supervoxels. |
| Knott 3D Segmentation 300 Bjoern Andres et.al. converted by Thorben Kroeger | | 3846-5896 | 3846-5896 | 2 | sparse | potts | 2 | [23,22] | Invariant to label permutation. Use supervoxels. |
| Knott 3D Segmentation 450 Bjoern Andres et.al. converted by Thorben Kroeger | | 15150-17074 | 15150-17074 | 2 | sparse | potts | 2 | [23,22] | Invariant to label permutation. Use supervoxels. |
 | Modularity Clustering U. Brandes et.al. converted by Joerg Kappes | | 34-115 | 34-115 | 2 | sparse | potts | 2 | [11] | Invariant to label permutation. |
 | Protein Folding Yanover et. al. converted by Joerg Kappes | | 33-1972 | 81-503 | 2 | sparse | explicit | 21 | [2,10] | Large models, arbitrary pairwise terms, selected hard models |
 | Protein Prediction Jaimovich et. al. converted by Joerg Kappes | | 14258-14441 | 2 | 3 | spase | explicit | 8 | [2,9] | binary 3rd order models |