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MMCosine: Multi-Modal Cosine Loss Towards Balanced Audio-Visual Fine-Grained Learning

Ruize Xu, Ruoxuan Feng, Shixiong Zhang, Di Hu

202326 citationsDOI

Abstract

Audio-visual learning helps to comprehensively under-stand the world by fusing practical information from multiple modalities. However, recent studies show that the imbalanced optimization of uni-modal encoders in a joint-learning model is a bottleneck to enhancing the model’s performance. We further find that the up-to-date imbalance-mitigating methods fail on some audio-visual fine-grained tasks, which have a higher demand for distinguishable feature distribution. Fueled by the success of cosine loss that builds hyperspherical feature spaces and achieves lower intra-class angular variability, this paper proposes Multi-Modal Cosine loss, MMCosine. It performs a modality-wise L <inf xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">2</inf> normalization to features and weights towards balanced and better multi-modal fine-grained learning. We demonstrate that our method can alleviate the imbalanced optimization from the perspective of weight norm and fully exploit the discriminability of the cosine metric. Extensive experiments prove the effectiveness of our method and the versatility with advanced multi-modal fusion strategies and up-to-date imbalance-mitigating methods. The project page is https://gewu-lab.github.io/MMCosine/.

Topics & Concepts

Discrete cosine transformModalComputer scienceCosine similarityBottleneckNormalization (sociology)EncoderMetric (unit)Feature learningArtificial intelligenceFeature (linguistics)Trigonometric functionsPattern recognition (psychology)MathematicsEngineeringLinguisticsAnthropologyOperations managementPolymer chemistryImage (mathematics)SociologyEmbedded systemGeometryOperating systemChemistryPhilosophySpeech and Audio ProcessingMusic and Audio ProcessingVideo Analysis and Summarization
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