QAP Optimisation with Reinforcement Learning for Faster Graph Matching in Sequential Semantic Image Analysis
Résumé
The paper addresses the fundamental task of semantic image analysis by exploiting structural information (spatial relationships
between image regions). We propose to combine a deep neural network
(CNN) with graph matching where graphs encode efficiently structural
information related to regions segmented by the CNN. Our novel approach solves the quadratic assignment problem (QAP) sequentially for
matching graphs. The optimal sequence for graph matching is conveniently defined using reinforcement-learning (RL) based on the region
membership probabilities produced by the CNN and their structural relationships. Our RL-based strategy for solving QAP sequentially allows
us to significantly reduce the combinatorial complexity for graph matching. Preliminary experiments are performed on both a synthetic dataset
and a public dataset dedicated to the semantic segmentation of face images. Results show that the proposed RL-based ordering significantly
outperforms random ordering and that our strategy is about 386 times
faster than a global QAP-based approach while preserving similar segmentation accuracy.
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