In speech emotion recognition (SER), using predefined features without considering their practical importance may lead to high dimensional datasets, including redundant and irrelevant information. Consequently, high-dimensional learning often results in decreasing model accuracy while increasing computational complexity. Our work underlines the importance of carefully considering and analyzing features in order to build efficient SER systems. We present a new supervised SER method based on an efficient feature engineering approach. We pay particular attention to the explainability of results to evaluate feature relevance and refine feature sets. This is performed iteratively through feature evaluation loop, using Shapley values to boost feature selection and improve overall framework performance. Our approach allows thus to balance the benefits between model performance and transparency. The proposed method outperforms human-level performance (HLP) and state-of-the-art machine learning methods in emotion recognition on the TESS dataset.

翻译：在语音情感识别（SER）中，直接使用预定义特征而不考虑其实际重要性可能导致高维数据集，其中包含冗余和无关信息。因此，高维学习往往会在增加计算复杂度的同时降低模型准确性。本研究强调仔细考虑和分析特征对于构建高效SER系统的重要性。我们提出了一种基于高效特征工程方法的新型监督式SER方法。我们特别关注结果的可解释性，以评估特征相关性并优化特征集。这是通过特征评估循环迭代执行的，利用沙普利值来增强特征选择并提升整体框架性能。因此，我们的方法能够平衡模型性能与透明度之间的优势。所提出的方法在TESS数据集的情感识别任务中超越了人类水平性能（HLP）以及最先进的机器学习方法。