Factorization-Based Broad Learning System With Time-Dependent Structure.

Authors

Chen Li, Zeyi Liu, Xiao He, Pengyu Han

Published in

IEEE transactions on neural networks and learning systems. Volume PP. May 21, 2025. Epub May 21, 2025.

Abstract

In response to the increasing complexity of tasks in artificial intelligence, broad learning systems (BLSs) have emerged as essential tools, especially given the limitations of deep neural networks, such as their extensive training and computational demands. This study addresses the computational inefficiencies and numerical instabilities inherent in traditional BLS when handling complex tasks in dynamic environments. To mitigate these challenges, we propose an enhanced version of BLS incorporating QR factorization (QRF), referred to as QRBLS, which is known for improving numerical stability. This framework replaces the traditional method of computing output weights, which typically relies on the Moore-Penrose pseudoinverse. The primary contribution of this article is the integration of QRF into the BLS architecture, thereby improving stability when processing large-scale datasets. QRBLS also features a dynamic updating mechanism that adjusts model parameters efficiently with new data, enabling continuous learning without the need for full-model re-evaluation. In addition, a time-dependent structure (TDS) enhances the model's responsiveness to temporal data changes, increasing its utility in dynamic environments. Validation through numerical experiments demonstrated that QRBLS outperformed traditional BLS, exhibiting superior stability and adaptability in handling data anomalies and rapid updates. The integration of QRF and TDS significantly improves the adaptability and computational efficiency of BLS, providing a robust solution for large scale and dynamic AI applications. QRBLS effectively addresses challenges related to numerical instability and continuous learning, offering practical improvements in real-world settings.

PMID:
40397642
Bibliographic data and abstract were imported from PubMed on 22 May 2025.

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