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neos-pseudoapplication-5
| Type: | Model Group |
| Submitter: | NEOS Server Submission |
| Description: | Imported from the MIPLIB2010 submissions. |
Parent Model Group (neos-pseudoapplication-5)
All other model groups below were be compared against this "query" model group.  |
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Model Group Composite (MGC) image
Composite of the decomposed CCM images for every instance in the query model group.
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Component Instances (Decomposed)
These are the decomposed CCM images for each instance in the query model group. |
These are component instance images.
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| Name | neos-1601936 | neos-1605061 | neos-2978193-inde | neos-498623 | neos9 |
MIC Top 5 Model Groups
These are the 5 MGC images that are most similar to the MGC image for the query model group, according to the ISS metric. |
FIXME - These are model group composite images.
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| Name | air | neos-pseudoapplication-46 | neos-pseudoapplication-23 | iis | reblock | |
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Rank / ISS
The image-based structural similarity (ISS) metric measures the Euclidean distance between the image-based feature vectors for the query model group and all other model groups. A smaller ISS value indicates greater similarity.
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1 / 1.323 | 2 / 1.375 | 3 / 1.447 | 4 / 1.487 | 5 / 1.603 |
Model Group Summary
The table below contains summary information for neos-pseudoapplication-5, and for the five most similar model groups to neos-pseudoapplication-5 according to the MIC.
| MODEL GROUP | SUBMITTER | DESCRIPTION | ISS | RANK | |
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| Parent Model Group | neos-pseudoapplication-5 | NEOS Server Submission | Imported from the MIPLIB2010 submissions. | 0.000000 | - |
| MIC Top 5 | air | G. Astfalk | Airline crew scheduling set partitioning problem | 1.323090 | 1 |
| neos-pseudoapplication-46 | NEOS Server Submission | Imported from the MIPLIB2010 submissions. | 1.374972 | 2 | |
| neos-pseudoapplication-23 | NEOS Server Submission | Imported from the MIPLIB2010 submissions. | 1.446898 | 3 | |
| iis | Marc Pfetsch | 23 "middlehard" Set-Covering Models for MIPLIB: they have a small number of variables compared to the number of constraints and CPLEX 12.1 needs about one hour to solve them.For more information, have a look into the readme file which explains how the models can be created. | 1.486594 | 4 | |
| reblock | Andreas Bley | Multi-period mine production scheduling model. Solved using ug[SCIP/spx], a distributed massively parallel version of SCIP run on 2,000 cores at the HLRN-II super computer facility. | 1.602523 | 5 |
