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Transitivity Recovering Decompositions: Interpretable and Robust Fine-Grained Relationships

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arxiv 2310.15999 v1 pith:XWY7ATHF submitted 2023-10-24 cs.CV cs.LG

Transitivity Recovering Decompositions: Interpretable and Robust Fine-Grained Relationships

classification cs.CV cs.LG
keywords interpretablerelationshipsabstractrecoveringviewsdecompositionsemergentfine-grained
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Recent advances in fine-grained representation learning leverage local-to-global (emergent) relationships for achieving state-of-the-art results. The relational representations relied upon by such methods, however, are abstract. We aim to deconstruct this abstraction by expressing them as interpretable graphs over image views. We begin by theoretically showing that abstract relational representations are nothing but a way of recovering transitive relationships among local views. Based on this, we design Transitivity Recovering Decompositions (TRD), a graph-space search algorithm that identifies interpretable equivalents of abstract emergent relationships at both instance and class levels, and with no post-hoc computations. We additionally show that TRD is provably robust to noisy views, with empirical evidence also supporting this finding. The latter allows TRD to perform at par or even better than the state-of-the-art, while being fully interpretable. Implementation is available at https://github.com/abhrac/trd.

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