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arXiv:2403.16003v1 Announce Type: new
Abstract: Lifelong Person Re-Identification (LReID) aims to continuously learn from successive data streams, matching individuals across multiple cameras. The key challenge for LReID is how to effectively preserve old knowledge while learning new information incrementally. Task-level domain gaps and limited old task datasets are key factors leading to catastrophic forgetting in ReLD, which are overlooked in existing methods. To alleviate this problem, we propose a novel Diverse Representation Embedding (DRE) framework for LReID. The proposed DRE preserves old knowledge while adapting to new information based on instance-level and task-level layout. Concretely, an Adaptive Constraint Module (ACM) is proposed to implement integration and push away operations between multiple representations, obtaining dense embedding subspace for each instance to improve matching ability on limited old task datasets. Based on the processed diverse representation, we interact knowledge between the adjustment model and the learner model through Knowledge Update (KU) and Knowledge Preservation (KP) strategies at the task-level layout, which reduce the task-wise domain gap on both old and new tasks, and exploit diverse representation of each instance in limited datasets from old tasks, improving model performance for extended periods. Extensive experiments were conducted on eleven Re-ID datasets, including five seen datasets for training in order-1 and order-2 orders and six unseen datasets for inference. Compared to state-of-the-art methods, our method achieves significantly improved performance in holistic, large-scale, and occluded datasets.