DualCP: Rehearsal-Free Domain-Incremental Learning via Dual-Level Concept Prototype

Qiang Wang; Yuhang He; Songlin Dong; Xiang Song; Jizhou Han; Haoyu Luo; Yihong Gong

doi:10.1609/aaai.v39i20.35418

DualCP: Rehearsal-Free Domain-Incremental Learning via Dual-Level Concept Prototype

Qiang Wang
, Yuhang He
, Songlin Dong
, Xiang Song
, Jizhou Han
, Haoyu Luo
, Yihong Gong

College of Artificial Intelligence and Robotics

Research output: Contribution to journal › Conference article › peer-review

1 Scopus citations

Abstract

Domain-Incremental Learning (DIL) enables vision models to adapt to changing conditions in real-world environments while maintaining the knowledge acquired from previous domains. Given privacy concerns and training time, Rehearsal-Free DIL (RFDIL) is more practical. Inspired by the incremental cognitive process of the human brain, we design Dual-level Concept Prototypes (DualCP) for each class to address the conflict between learning new knowledge and retaining old knowledge in RFDIL. To construct DualCP, we propose a Concept Prototype Generator (CPG) that generates both coarse-grained and fine-grained prototypes for each class. Additionally, we introduce a Coarse-to-Fine calibrator (C2F) to align image features with DualCP. Finally, we propose a Dual Dot-Regression (DDR) loss function to optimize our C2F module. Extensive experiments on the DomainNet, CDDB, and CORe50 datasets demonstrate the effectiveness of our method.

Original language	English
Pages (from-to)	21198-21206
Number of pages	9
Journal	Proceedings of the AAAI Conference on Artificial Intelligence
Volume	39
Issue number	20
DOIs	https://doi.org/10.1609/aaai.v39i20.35418
State	Published - 11 Apr 2025
Event	39th Annual AAAI Conference on Artificial Intelligence, AAAI 2025 - Philadelphia, United States Duration: 25 Feb 2025 → 4 Mar 2025

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title = "DualCP: Rehearsal-Free Domain-Incremental Learning via Dual-Level Concept Prototype",

abstract = "Domain-Incremental Learning (DIL) enables vision models to adapt to changing conditions in real-world environments while maintaining the knowledge acquired from previous domains. Given privacy concerns and training time, Rehearsal-Free DIL (RFDIL) is more practical. Inspired by the incremental cognitive process of the human brain, we design Dual-level Concept Prototypes (DualCP) for each class to address the conflict between learning new knowledge and retaining old knowledge in RFDIL. To construct DualCP, we propose a Concept Prototype Generator (CPG) that generates both coarse-grained and fine-grained prototypes for each class. Additionally, we introduce a Coarse-to-Fine calibrator (C2F) to align image features with DualCP. Finally, we propose a Dual Dot-Regression (DDR) loss function to optimize our C2F module. Extensive experiments on the DomainNet, CDDB, and CORe50 datasets demonstrate the effectiveness of our method.",

author = "Qiang Wang and Yuhang He and Songlin Dong and Xiang Song and Jizhou Han and Haoyu Luo and Yihong Gong",

note = "Publisher Copyright: {\textcopyright} 2025, Association for the Advancement of Artificial Intelligence (www.aaai.org). All rights reserved.; 39th Annual AAAI Conference on Artificial Intelligence, AAAI 2025 ; Conference date: 25-02-2025 Through 04-03-2025",

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T2 - 39th Annual AAAI Conference on Artificial Intelligence, AAAI 2025

AU - Wang, Qiang

AU - He, Yuhang

AU - Dong, Songlin

AU - Song, Xiang

AU - Han, Jizhou

AU - Luo, Haoyu

AU - Gong, Yihong

PY - 2025/4/11

Y1 - 2025/4/11

N2 - Domain-Incremental Learning (DIL) enables vision models to adapt to changing conditions in real-world environments while maintaining the knowledge acquired from previous domains. Given privacy concerns and training time, Rehearsal-Free DIL (RFDIL) is more practical. Inspired by the incremental cognitive process of the human brain, we design Dual-level Concept Prototypes (DualCP) for each class to address the conflict between learning new knowledge and retaining old knowledge in RFDIL. To construct DualCP, we propose a Concept Prototype Generator (CPG) that generates both coarse-grained and fine-grained prototypes for each class. Additionally, we introduce a Coarse-to-Fine calibrator (C2F) to align image features with DualCP. Finally, we propose a Dual Dot-Regression (DDR) loss function to optimize our C2F module. Extensive experiments on the DomainNet, CDDB, and CORe50 datasets demonstrate the effectiveness of our method.

AB - Domain-Incremental Learning (DIL) enables vision models to adapt to changing conditions in real-world environments while maintaining the knowledge acquired from previous domains. Given privacy concerns and training time, Rehearsal-Free DIL (RFDIL) is more practical. Inspired by the incremental cognitive process of the human brain, we design Dual-level Concept Prototypes (DualCP) for each class to address the conflict between learning new knowledge and retaining old knowledge in RFDIL. To construct DualCP, we propose a Concept Prototype Generator (CPG) that generates both coarse-grained and fine-grained prototypes for each class. Additionally, we introduce a Coarse-to-Fine calibrator (C2F) to align image features with DualCP. Finally, we propose a Dual Dot-Regression (DDR) loss function to optimize our C2F module. Extensive experiments on the DomainNet, CDDB, and CORe50 datasets demonstrate the effectiveness of our method.

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SN - 2159-5399

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Y2 - 25 February 2025 through 4 March 2025

ER -

DualCP: Rehearsal-Free Domain-Incremental Learning via Dual-Level Concept Prototype

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