부산대학교 도서관

This article designs a multisensor odor detection system for lung cancer detection, which can be used to collect exhaled gas and noninvasive predict lung cancer diseases. In response to the widespread drift problem in multisensor odor detection systems in the medical context, we have added constraints that can represent interclass differences in the improved differential empirical distance and proposed a new formulation. Inspired by the principles of machine learning, we consider the source-domain data as nondrift data, while the target-domain data as cross-domain data. The derived enhanced category discrepancy domain adaption (ECDDA) framework considers the consistency between statistical and geometric distributions. Thereby improving the compensation performance of sensor drift by combining domain adaptation to reduce category distribution differences and Bayesian probability to extract category information, establish an unsupervised cross-domain category difference maximization model for drift compensation, overcome inter-board differences on different machines, and increase the sample size to a certain extent when used for medical data consolidation. The results show the effectiveness of the proposed design.