Xinyuan Qian, Xianghu Yue, Jiadong Wang, Huiping Zhuang, Haizhou Li
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Analytic Class Incremental Learning for Sound Source Localization with Privacy Protection
Sound Source Localization (SSL) enabling technology for applications such as
surveillance and robotics. While traditional Signal Processing (SP)-based SSL
methods provide analytic solutions under specific signal and noise assumptions,
recent Deep Learning (DL)-based methods have significantly outperformed them.
However, their success depends on extensive training data and substantial
computational resources. Moreover, they often rely on large-scale annotated
spatial data and may struggle when adapting to evolving sound classes. To
mitigate these challenges, we propose a novel Class Incremental Learning (CIL)
approach, termed SSL-CIL, which avoids serious accuracy degradation due to
catastrophic forgetting by incrementally updating the DL-based SSL model
through a closed-form analytic solution. In particular, data privacy is ensured
since the learning process does not revisit any historical data
(exemplar-free), which is more suitable for smart home scenarios. Empirical
results in the public SSLR dataset demonstrate the superior performance of our
proposal, achieving a localization accuracy of 90.9%, surpassing other
competitive methods.
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