Jian Yuan, Kok K. Tan, Gerald C.H. Koh, Arun S. Narayanan, and Tong H. Lee
[1] Product review: Philips lifeline with auto alert, www.theseniorlist.com/2011/10/product-review-philips-lifeline-with-auto-alert. [2] Halo monitoring independence redefined – order page,www.myhalomonitor.com/order. [3] M. Benocci et al., Accelerometer-based fall detection using optimized zigbee data streaming, Microelectronics Journal, 41(11), 2010, 703–710, IEEE International Workshop on Advances in Sensors and Interfaces 2009. [4] P. Ven, A. Bourke, J. Nelson, and H. OBrien, Design andintegration of fall and mobility monitors in health monitoring platforms, Wearable and Autonomous Biomedical Devices and Systems for Smart Environment (Springer Berlin Heidelberg, 2010), 75, 1–29. [5] F. Bagala et al., Evaluation of accelerometer-based fall detection algorithms on real-world falls, PLoS ONE, 7(5), 2012, p.e37062. [6] A. Bourke et al., Assessment of waist-worn tri-axial accelerometer based fall-detection algorithms using continuous unsupervised activities, Engineering in Medicine and Biology Society (EMBC), Annual Int. Conf. of the IEEE, Sept. 2010, 2782–2785. [7] M. Van Wieringen and J.M. Eklund, Real-time signal processing of accelerometer data for wearable medical patient monitoring devices, Engineering in Medicine and Biology Society, 30th Annual Int. Conf. of the IEEE, 2008, 2397–2400. [8] M.S. Lee et al., Unsupervised clustering for abnormality detection based on the tri-axial accelerometer, ICCAS-SICE, 2009, 2009, 134–137. [9] A. Lombardi et al., Wearable wireless accelerometer with embedded fall-detection logic for multi-sensor ambient assisted living applications, Sensors, 2009 IEEE, 2009, 1967–1970. [10] M. Kangas, A. Konttila, P. Lindgren, I. Winblad, and T. Jamsa, Comparison of low-complexity fall detection algorithms for body attached accelerometers, Gait and Posture, 28, 2008, 285–291. [11] Open source accelerometers for phones, http://web.mit.edu/wockets/index.html. [12] D. Malan et al., CodeBlue: an ad hoc sensor network infrastructure for emergency medical care, Proceedings of the MobiSys 2004 Workshop on Applications of Mobile Embedded Systems (WAMES 2004), 2004, 12–14. [13] A. Wood, G. Virone, T. Doan, Q. Cao, L. Selavo, Y. Wu,L. Fang, Z. He, S. Lin, and J. Stankovic, Alarm-net: Wireless sensor networks for assisted-living and residential monitoring, Technical Report, 2006. [14] A.K. Bourke, J.V. O’Brien et al., Evaluation of a threshold-based tri-axial accelerometer fall detection algorithm, 26(2), 2007, 194–199. [15] Q. Li, J. Stankovic, M. Hanson, A. Barth, J. Lach, andG. Zhou, Accurate, fast fall detection using gyroscopes andaccelerometer-derived posture information, Sixth Int. Work-shop on Wearable and Implantable Body Sensor Networks,2009. BSN 2009. June 2009, 138–143. [16] N. Noury et al., Fall detection – principles and methods, Proc. 29th Annual Int. Conf. of the IEEE EMBS, Lyon, France, August 2007, 1663–1666. [17] J. Ning, Fall detection application by using 3-axis accelerometer ADXL345, Application Note AN-1023 from Analog Devices, 2009.
Important Links:
Go Back
