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| author | nunzip <np.scarh@gmail.com> | 2018-12-10 18:01:09 +0000 |
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| committer | nunzip <np.scarh@gmail.com> | 2018-12-10 18:01:09 +0000 |
| commit | c8f0949a6192b68a8e2ea62836ee97ecbdf3eb3e (patch) | |
| tree | 8a295eb043ea349d373ef198e7945fd0fbc27599 | |
| parent | 30583c4ce19bc77e48810894b277857429fbc201 (diff) | |
| download | vz215_np1915-c8f0949a6192b68a8e2ea62836ee97ecbdf3eb3e.tar.gz vz215_np1915-c8f0949a6192b68a8e2ea62836ee97ecbdf3eb3e.tar.bz2 vz215_np1915-c8f0949a6192b68a8e2ea62836ee97ecbdf3eb3e.zip | |
Fix failed merge
| -rwxr-xr-x | report2/paper.md | 32 |
1 files changed, 12 insertions, 20 deletions
diff --git a/report2/paper.md b/report2/paper.md index 2e0bb0a..4ccf5ca 100755 --- a/report2/paper.md +++ b/report2/paper.md @@ -1,25 +1,17 @@ -# Summary - -In this report we analysed how distance metrics learning affects classification -accuracy for the dataset CUHK03. The baseline method used for classification is -Nearest Neighbors based on Euclidean distance. The improved approach we propose -mixes Jaccardian and Mahalanobis metrics to obtain a ranklist that takes into -account also the reciprocal neighbors. This approach is computationally more -complex, since the matrices representing distances are effectively calculated -twice. However it is possible to observe a significant accuracy improvement of -around 10% for the $@rank1$ case. Accuracy improves overall, especially for -$@rankn$ cases with low n. + +# Forulation of the Addresssed Machine Learning Problem + +## Probelm Definition The person re-identification problem presented in this paper requires mtatching -pedestrian images from disjoint camera's by pedestrian detectors. This problem -is challenging, as identities captured in photsos are subject to various -lighting, pose, blur, background and oclusion from various camera views. This -report considers features extracted from the CUHK03 dataset, following a 50 layer -Residual network (Resnet50). This paper considers distance metrics techniques which -can be used to perform person re-identification across **disjoint* cameras, using -these features. - -## CUHK03 +pedestrian images from disjoint camera's by pedestrian detectors. This problem is +challenging, as identities captured in photsos are subject to various lighting, pose, +blur, background and oclusion from various camera views. This report considers +features extracted from the CUHK03 dataset, following a 50 layer Residual network +(Resnet50). This paper considers distance metrics techniques which can be used to +perform person re-identification across **disjoint* cameras, using these features. + +## Dataset - CUHK03 Summary The dataset CUHK03 contains 14096 pictures of people captured from two different cameras. The feature vectors used, extracted from a trained ResNet50 model |