2 research outputs found
HUMAN ACTIVITY RECOGNITION IN SMART-HOME ENVIRONMENTS FOR HEALTH-CARE APPLICATIONS
With a growing population of elderly people, the number of subjects at risk of cognitive
disorders is rapidly increasing. Many research groups are studying pervasive solutions to
continuously and unobtrusively monitor fragile subjects in their homes, reducing health-care
costs and supporting the medical diagnosis.
Clinicians are interested in monitoring several behavioral aspects for a wide variety of
applications: early diagnosis, emergency monitoring, assessment of cognitive disorders,
etcetera. Among the several behavioral aspects of interest, anomalous behaviors while
performing activities of daily living (ADLs) are of great importance. Indeed, these anomalies
can be indicators of serious cognitive diseases like Mild Cognitive Impairment. The
recognition of such abnormal behaviors relies on robust and accurate ADLs recognition
systems. Moreover, in order to enable unobtrusive and privacy-aware monitoring,
environmental sensors in charge of unobtrusively capturing the interaction of the subject with
the home infrastructure should be preferred.
This thesis presents several contributions on this topic. The major ones are two novel hybrid
ADLs recognition algorithms. The former is supervised while the latter is unsupervised.
Preliminary results, which still need to be confirmed, show that the recognition rate of the
unsupervised method is comparable to the one obtained by the supervised one, with the
great advantage of not requiring the acquisition of an annotated dataset.
Beyond ADLs recognition, other contributions on smart sensing and anomaly recognition are
presented. Regarding unobtrusive sensing, we propose a machine learning technique to
detect fine-grained manipulations performed by the inhabitant on household objects
instrumented with tiny accelerometer sensors.
Finally, a novel rule-based framework for the recognition of fine-grained abnormal behaviors
is presented. Experimental results on several datasets show the effectiveness of all the
proposed techniques
Human Activity Recognition in Smart-Home Environments for Health-Care Applications
With a growing population of elderly people, the number of subjects at risk of cognitive disorders is rapidly increasing. Many research groups are studying pervasive solutions to continuously and unobtrusively monitor fragile subjects in their homes. Clinicians are interested in monitoring several behavioral aspects for a wide variety of applications: early diagnosis, emergency monitoring, assessment of cognitive disorders, etcetera. Among the several behavioral aspects of interest, anomalous behaviors while performing activities of daily living (ADLs) are of great importance. Indeed, these anomalies can be indicators of cognitive decline. The recognition of such abnormal behaviors relies on robust and accurate ADLs recognition systems. Moreover, in order to enable unobtrusive and privacy-aware monitoring, environmental sensors in charge of unobtrusively capturing the interaction of the subject with the home infrastructure should be preferred. This talk presents our latest research efforts on these topics. In particular, the talk will cover: a) novel unobtrusive sensing solutions, b) hybrid ADLs recognition methods and c) techniques to detect abnormal behaviors at a fine granularity. We will discuss those challenges reporting our experience and identifying critical aspects which still need to be investigated