Indian Journal of Science and Technology

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Smart Phone Based Fall Detection using Auto Regression Modeling in a Non-Restrictive Setting


Affiliations
1 Department of Software Engineering, Telecommunication Engineering, Electronic Engineering, Institute of Information and Communication Technologies (IICT), Mehran University of Engineering and Technology, Pakistan
 

Fall detection is an important aspect of the field of accident prevention, ambient assisted living as well as care of the elderly. To address this issue, researchers have employed several approaches including vision based systems, setups that require deployment in a special environment and inertial sensors. Inertial sensors have the advantage of being deployable in mobile systems such as wearable devices and smart phones. An important consideration in using inertial sensors for fall detection is the need to develop techniques that would work without enforcing positional requirements of the sensor device. This paper presents a method for the detection of falls using inertial sensors readings of the smart phone, a tri-axial accelerometer, tri-axial gyroscope and orientation data. We consider inertial sensor data for two falls and three activities of daily living. Using Auto-Regressive (AR) modeling to characterize the measurements from the sensors, we compare Support Vector Machines (SVM) and Neural Networks for use in classifying between these five events. Results indicate that the Neural Network provides better classification accuracy compared to SVM for the purpose of differentiating between falls and the activities of daily living.

Keywords

Fall Detection, Inertial Sensor, Machine Learning, Mobifall.
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  • Smart Phone Based Fall Detection using Auto Regression Modeling in a Non-Restrictive Setting

Abstract Views: 166  |  PDF Views: 0

Authors

Maria Panhwar
Department of Software Engineering, Telecommunication Engineering, Electronic Engineering, Institute of Information and Communication Technologies (IICT), Mehran University of Engineering and Technology, Pakistan
Syed M. Shehram Shah
Department of Software Engineering, Telecommunication Engineering, Electronic Engineering, Institute of Information and Communication Technologies (IICT), Mehran University of Engineering and Technology, Pakistan
Syed M. Zafi S. Shah
Department of Software Engineering, Telecommunication Engineering, Electronic Engineering, Institute of Information and Communication Technologies (IICT), Mehran University of Engineering and Technology, Pakistan
Syed M. Z. Abbas Shah
Department of Software Engineering, Telecommunication Engineering, Electronic Engineering, Institute of Information and Communication Technologies (IICT), Mehran University of Engineering and Technology, Pakistan
Bhawani Shankar Chowdhry
Department of Software Engineering, Telecommunication Engineering, Electronic Engineering, Institute of Information and Communication Technologies (IICT), Mehran University of Engineering and Technology, Pakistan

Abstract


Fall detection is an important aspect of the field of accident prevention, ambient assisted living as well as care of the elderly. To address this issue, researchers have employed several approaches including vision based systems, setups that require deployment in a special environment and inertial sensors. Inertial sensors have the advantage of being deployable in mobile systems such as wearable devices and smart phones. An important consideration in using inertial sensors for fall detection is the need to develop techniques that would work without enforcing positional requirements of the sensor device. This paper presents a method for the detection of falls using inertial sensors readings of the smart phone, a tri-axial accelerometer, tri-axial gyroscope and orientation data. We consider inertial sensor data for two falls and three activities of daily living. Using Auto-Regressive (AR) modeling to characterize the measurements from the sensors, we compare Support Vector Machines (SVM) and Neural Networks for use in classifying between these five events. Results indicate that the Neural Network provides better classification accuracy compared to SVM for the purpose of differentiating between falls and the activities of daily living.

Keywords


Fall Detection, Inertial Sensor, Machine Learning, Mobifall.



DOI: https://doi.org/10.17485/ijst%2F2017%2Fv10i5%2F150117