AI Article Synopsis
- Smartphones are increasingly used for various purposes beyond calls, such as recognizing human activities for applications in medical diagnosis and support for the elderly.
- The use of inertial sensors like accelerometers and gyroscopes in smartphones makes it possible to analyze walking activities, but creating a reliable app to detect this is challenging due to hardware differences, data noise, and unrelated smartphone movements.
- The study compares two main methods for identifying walking activity—feature extraction from inertial data and analyzing the shape of sensor data time series—using a newly collected dataset from 77 participants, which is publicly available for further research.
Article Abstract
Presently, smartphones are used more and more for purposes that have nothing to do withphone calls or simple data transfers. One example is the recognition of human activity, which isrelevant information for many applications in the domains of medical diagnosis, elderly assistance,indoor localization, and navigation. The information captured by the inertial sensors of the phone(accelerometer, gyroscope, and magnetometer) can be analyzed to determine the activity performedby the person who is carrying the device, in particular in the activity of walking. Nevertheless,the development of a standalone application able to detect the walking activity starting only fromthe data provided by these inertial sensors is a complex task. This complexity lies in the hardwaredisparity, noise on data, and mostly the many movements that the smartphone can experience andwhich have nothing to do with the physical displacement of the owner. In this work, we exploreand compare several approaches for identifying the walking activity. We categorize them into twomain groups: the first one uses features extracted from the inertial data, whereas the second oneanalyzes the characteristic shape of the time series made up of the sensors readings. Due to the lackof public datasets of inertial data from smartphones for the recognition of human activity underno constraints, we collected data from 77 different people who were not connected to this research.Using this dataset, which we published online, we performed an extensive experimental validationand comparison of our proposals.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7071017 | PMC |
| http://dx.doi.org/10.3390/s20041189 | DOI Listing |
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