融合归因分析与注意力机制的自动调制分类可信优化方法OA
A Trustworthy Optimization Method for Automatic Modulation Classification Integrating Attribution Analysis and Attention Mechanism
在复杂信道环境下,无线通信中的自动调制分类任务对模型的性能和可靠性提出了更高要求.尽管深度学习方法在该任务中取得了显著进展,但其决策过程的"黑箱"特性限制了在关键场景中的应用,且现有自动调制分类模型的优化多依赖于人工经验或"黑箱"探索,缺乏可信依据来指导模型决策和优化.为此,本文提出一种融合归因分析与注意力机制的自动调制分类可信优化方法.具体而言,首先,通过集成梯度和DeepLIFT对模型进行特征归因,量化输入信号幅度/相位及同相/正交通道特征对模型输出的贡献,从而识别对分类结果具有判决力的特征区域,并结合调制信号物理特征验证归因结果的可信性.随后,将可信的归因特征作为注意力权重对原始信号进行加权优化,以提升模型对具有判决力特征区域的响应能力,实现分类性能和可解释性的同步增强.优化过程依托可信归因特征,保证物理特征与模型决策的一致,从而实现模型的可信优化.所设计的优化模块无需改变原有网络结构,保证了方法的通用性与工程可实施性.最后,本文提出了基于信号星座图的可解释性度量指标,通过归因特征与物理特征的对齐分析量化模型的解释能力.实验结果表明,该方法在不改变网络结构的情况下,使卷积神经网络与长短期记忆网络模型的分类准确率分别提升约12%和7%,并实现了关键特征与模型决策的可量化对应.
In complex channel environments,automatic modulation classification in wireless communication places high demand on model performance and reliability.Although deep learning methods have achieved significant progress in this task,their decision-making processes remain"black boxes,"limiting their applicability in critical scenarios.Moreover,existing automatic modulation classification(AMC)model optimization largely relies on human expertise or"black-box"exploration,lacking reliable evidence to guide model decisions and enhancements.To address this,this pa-per proposes a trustworthy optimization method for integrating AMC attribution analysis and an attention mechanism.Specifically,feature attributions were first obtained using integrated gradients and DeepLIFT,quantifying the contribu-tions of input signal amplitude/phase and in-phase/quadrature channel features to the model output.This allows identifi-cation of feature regions that are decisive for classification results.The credibility of these attributions is verified against the physical characteristics of modulated signals.Subsequently,trustworthy attributed features are used as attention weights to optimize the original signals and enhance the model's responsiveness to decisive feature regions,thereby si-multaneously improving classification performance and interpretability.This optimization process relies on trustworthy attributions to ensure consistency between physical signal characteristics and model decisions,thereby enabling credible model optimization.The designed optimization module does not alter the original network structure,ensuring method generality and engineering feasibility.Finally,a signal constellation-based interpretability metric is proposed,to quan-tify the model's interpretability through an alignment analysis between attribution and physical features.The experimen-tal results demonstrate that,without changing the network structure,this method improves the classification accuracy of convolutional neural network and long short-term memory models by approximately 12%and 7%,respectively,while achieving a quantifiable correspondence between key features and model decisions.
王硕;张骁议;唐浩;徐博
海南大学信息与通信工程学院,海南 海口 570228海南大学信息与通信工程学院,海南 海口 570228海南大学信息与通信工程学院,海南 海口 570228海南大学信息与通信工程学院,海南 海口 570228
信息技术与安全科学
自动调制分类归因分析注意力机制可解释人工智能
automatic modulation classificationattribution analysisattention mechanismexplainable artificial intelligence
《信号处理》 2026 (4)
544-556,13
国家自然科学基金(62563007,62563008)The National Natural Science Foundation of China(62563007,62563008)
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