%0 Journal Article %1 SADRI201792 %A Sadri, Amin %A Ren, Yongli %A Salim, Flora D. %D 2017 %J Pervasive and Mobile Computing %K igts %P 92 - 109 %R https://doi.org/10.1016/j.pmcj.2017.01.003 %T Information gain-based metric for recognizing transitions in human activities %U http://www.sciencedirect.com/science/article/pii/S1574119217300081 %V 38 %X This paper aims to observe and recognize transition times, when human activities change. No generic method has been proposed for extracting transition times at different levels of activity granularity. Existing work in human behavior analysis and activity recognition has mainly used predefined sliding windows or fixed segments, either at low-level, such as standing or walking, or high-level, such as dining or commuting to work. We present an Information Gain-based Temporal Segmentation method (IGTS), an unsupervised segmentation technique, to find the transition times in human activities and daily routines, from heterogeneous sensor data. The proposed IGTS method is applicable for low-level activities, where each segment captures a single activity, such as walking, that is going to be recognized or predicted, and also for high-level activities. The heterogeneity of sensor data is dealt with a data transformation stage. The generic method has been thoroughly evaluated on a variety of labeled and unlabeled activity recognition and routine datasets from smartphones and device-free infrastructures. The experiment results demonstrate the robustness of the method, as all segments of low- and high-level activities can be captured from different datasets with minimum error and high computational efficiency.

@article{SADRI201792, abstract = {This paper aims to observe and recognize transition times, when human activities change. No generic method has been proposed for extracting transition times at different levels of activity granularity. Existing work in human behavior analysis and activity recognition has mainly used predefined sliding windows or fixed segments, either at low-level, such as standing or walking, or high-level, such as dining or commuting to work. We present an Information Gain-based Temporal Segmentation method (IGTS), an unsupervised segmentation technique, to find the transition times in human activities and daily routines, from heterogeneous sensor data. The proposed IGTS method is applicable for low-level activities, where each segment captures a single activity, such as walking, that is going to be recognized or predicted, and also for high-level activities. The heterogeneity of sensor data is dealt with a data transformation stage. The generic method has been thoroughly evaluated on a variety of labeled and unlabeled activity recognition and routine datasets from smartphones and device-free infrastructures. The experiment results demonstrate the robustness of the method, as all segments of low- and high-level activities can be captured from different datasets with minimum error and high computational efficiency.}, added-at = {2020-02-25T11:19:38.000+0100}, author = {Sadri, Amin and Ren, Yongli and Salim, Flora D.}, biburl = {https://www.bibsonomy.org/bibtex/224302eebec044a59e79a2ac9cf236938/annakrause}, doi = {https://doi.org/10.1016/j.pmcj.2017.01.003}, interhash = {39174391d024c906931ed4e201b926d3}, intrahash = {24302eebec044a59e79a2ac9cf236938}, issn = {1574-1192}, journal = {Pervasive and Mobile Computing}, keywords = {igts}, pages = {92 - 109}, timestamp = {2020-02-25T11:19:38.000+0100}, title = {Information gain-based metric for recognizing transitions in human activities}, url = {http://www.sciencedirect.com/science/article/pii/S1574119217300081}, volume = 38, year = 2017 }