Multi-Dimensional Spectrum Prediction Method Based on Efficient Adaptive Broad Learning

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Niancong Ji, Shufei Wang, Yibin Zhang, Yang Peng, Tomoaki Otsuki, Dusit Niyato, Guan Gui

Published: 2025, Last Modified: 07 Jan 2026WCNC 2025EveryoneRevisionsBibTeXCC BY-SA 4.0
Abstract: Multi-dimensional spectrum prediction is essential for spectrum sharing and dynamic spectrum access (DSA), tack-ling spectrum scarcity and improving wireless communication. Traditional methods often use machine learning (ML), which requires manual feature extraction, or deep learning (DL), which demands high computational resources. This paper proposes a lightweight multi-dimensional spectrum prediction model using an adaptive broad learning network (ABLN). The model employs a sliding window to preprocess data and establishes input layers using randomly generated feature and enhancement nodes. The weights of broad learning are determined by solving the pseudo-inverse, and the structure is incrementally extended without retraining, reducing computational complexity. An adaptive node increment module optimizes hyperparameters efficiently. Experimental results demonstrate that ABLN reduces computational overhead while maintaining robust prediction performance across various scenarios.