Delta-encoder: an effective sample synthesis method for few-shot object recognition
Eli Schwartz, Leonid Karlinsky, Joseph Shtok, Sivan Harary, Mattias Marder, Rogerio Feris, Abhishek Kumar, Raja Giryes, Alex M. Bronstein
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- github.com/EliSchwartz/DeltaEncoderOfficialIn papertf★ 0
Abstract
Learning to classify new categories based on just one or a few examples is a long-standing challenge in modern computer vision. In this work, we proposes a simple yet effective method for few-shot (and one-shot) object recognition. Our approach is based on a modified auto-encoder, denoted Delta-encoder, that learns to synthesize new samples for an unseen category just by seeing few examples from it. The synthesized samples are then used to train a classifier. The proposed approach learns to both extract transferable intra-class deformations, or "deltas", between same-class pairs of training examples, and to apply those deltas to the few provided examples of a novel class (unseen during training) in order to efficiently synthesize samples from that new class. The proposed method improves over the state-of-the-art in one-shot object-recognition and compares favorably in the few-shot case. Upon acceptance code will be made available.
Tasks
Benchmark Results
| Dataset | Model | Metric | Claimed | Verified | Status |
|---|---|---|---|---|---|
| Caltech-256 5-way (1-shot) | Delta-encoder | Accuracy | 73.2 | — | Unverified |
| CIFAR100 5-way (1-shot) | Delta-encoder | Accuracy | 66.7 | — | Unverified |
| CUB 200 5-way 1-shot | Delta-encoder | Accuracy | 69.8 | — | Unverified |
| Mini-Imagenet 5-way (1-shot) | Delta-encoder | Accuracy | 59.9 | — | Unverified |