@Article{e20030190,
AUTHOR = {Afghah, Fatemeh and Razi, Abolfazl and Soroushmehr, Reza and Ghanbari, Hamid and Najarian, Kayvan},
TITLE = {Game Theoretic Approach for Systematic Feature Selection; Application in False Alarm Detection in Intensive Care Units},
JOURNAL = {Entropy},
VOLUME = {20},
YEAR = {2018},
NUMBER = {3},
ARTICLE-NUMBER = {190},
URL = {http://www.mdpi.com/1099-4300/20/3/190},
ISSN = {1099-4300},
ABSTRACT = {Intensive Care Units (ICUs) are equipped with many sophisticated sensors and monitoring devices to provide the highest quality of care for critically ill patients. However, these devices might generate false alarms that reduce standard of care and result in desensitization of caregivers to alarms. Therefore, reducing the number of false alarms is of great importance. Many approaches such as signal processing and machine learning, and designing more accurate sensors have been developed for this purpose. However, the significant intrinsic correlation among the extracted features from different sensors has been mostly overlooked. A majority of current data mining techniques fail to capture such correlation among the collected signals from different sensors that limits their alarm recognition capabilities. Here, we propose a novel information-theoretic predictive modeling technique based on the idea of coalition game theory to enhance the accuracy of false alarm detection in ICUs by accounting for the synergistic power of signal attributes in the feature selection stage. This approach brings together techniques from information theory and game theory to account for inter-features mutual information in determining the most correlated predictors with respect to false alarm by calculating Banzhaf power of each feature. The numerical results show that the proposed method can enhance classification accuracy and improve the area under the ROC (receiver operating characteristic) curve compared to other feature selection techniques, when integrated in classifiers such as Bayes-Net that consider inter-features dependencies.},
DOI = {10.3390/e20030190}
}