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http://dx.doi.org/10.17703/IJACT.2017.5.2.63

User's static and dynamic posture determination method using smartphone acceleration sensor

Lee, Seok-Woo (Department of Information System Kwangwoon University GraduateSchool of Information Contents)
Lee, Jong-Yong (Ingenium College of liberal arts, Kwangwoon University)
Jung, Kye-Dong (Ingenium College of liberal arts, Kwangwoon University)

Publication Information

International Journal of Advanced Culture Technology / v.5, no.2, 2017 , pp. 63-73 More about this Journal

Abstract

In this paper, we propose algorithm for determining the static and dynamic posture using the acceleration sensor of smartphone. The measured acceleration values are then analyzed according to a preprocessing to the respective axis (X, Y, Z) and posture (standing, sitting, lying) presents static posture determination criterion. The proposed static posture determination condition is used for static posture determination and dynamic posture determination. The dynamic posture is determined by using regression linear equations. In addition, transition state can be grasped by SVM change in dynamic posture determination. Experimental results are presented using data and app. Experiments were performed using data collected from 10 adults.

Keywords

Smartphone; Acceleration sensor; Normalization; SVM; Posture determination;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
Cited By KSCI

1	Lara, Oscar D.,, Miguel A. Labrador. "A survey on human activity recognition using wearable sensors." Communications Surveys & Tutorials, IEEE 15.3 (2013): 1192-1209. DOI
2	Lotfi, Ahmad, et al. "Smart homes for the elderly dementia sufferers: identification and prediction of abnormal behaviour." Journal of Ambient Intelligence and Humanized Computing 3.3 (2012): 205-218. DOI
3	Bae, Soo Jeong, et al. "Multi-Camera Based 3D Human Behavior Recognition Study." Korean Information Science Society 2008 Fall Conference Volume 35 Issue 2 (C) 35.2C (2008): 395-399.
4	X. Stella, R. Gross and J. Shi, "Concurrent object recognition and segmentation by graph partitioning." Proc, Neural Information Processing Systems(NIPS'02), pp.1380-1390, 2002
5	Y. BoyKov, and M. Jolly, "Iterative graph cuts for optimal boundary and region segmentation of objects in N-D Images," Proceeding IEEE 8th International Conference On Computer Vision(ICCV), Vol 1, pp.105-112, 2001
6	A,Utsumi, H. Yang, and J. Ohya, "Adaptive human motion tracking using non-symchromous multiple viewpoint observations", Proc. IEEE 15th International Conference on Pattern Recognition, vol. 4, pp.607-610, 2000
7	Seong-Hyun Kim, Jin Park, Dong-Wook KIm and Nam-Gyun Kim "The Study of Realtime Fall Detection System with Accelerometer and Tilt Sensor," in Journal of the Korean Society for Precision Engineering Vol. 28, No. 11, pp. 1330-1338
8	Gupta, Puneet, Tim Dallas. "Feature selection and activity recognition system using a single triaxial accelerometer." Biomedical Engineering, IEEE Transactions on 61.6 (2014): 1780-1786. DOI