參考文獻 |
[ 1 ]Penedo, Frank J., and Jason R. Dahn. "Exercise and well-being: a review of mental and physical health benefits associated with physical activity." Current opinion in psychiatry 18.2 (2005): 189-193.
[ 2 ]G. O′Donovan, A. J. Blazevich, C. Boreham, A. R. Cooper, H. Crank, U. Ekelund, K. R. Fox, P. Gately, B. Giles-Corti, J. M. R. Gill, and et al. The abc of physical activity for health: a consensus statement from the british association of sport and exercise sciences. Journal of Sports Sciences, 28(6):573{591, 2010.
[ 3 ]E. Corlett, S. MADELEY, and I. J. E. Manenica, "Posture targeting: a technique for recording working postures," vol. 22, no. 3, pp. 357-366, 1979
[ 4 ]V. Z. J. H. F. Priel, "A numerical definition of posture," vol. 16, no. 6, pp. 576-584,
1974.
[ 5 ]P. J. A. e. Holzmann, "ARBAN—A new method for analysis of ergonomic effort," vol. 13, no. 2, pp. 82-86, 1982
[ 6 ]C. Wiktorin, M. Mortimer, L. Ekenvall, Å. Kilbom, E. W. J. S. j. o. w. Hjelm, environment, and health, "HARBO, a simple computer-aided observation method for recording work postures," pp. 440-449, 1995
[ 7 ]Casale, P., Pujol, O., Radeva, P, "Human Activity Recognition from Accelerometer Data Using a Wearable Device," In: Vitrià, J., Sanches, J.M., Hernández, M. (eds) Pattern Recognition and Image Analysis. IbPRIA 2011. Lecture Notes in Computer Science, vol 6669, pp.289-296, 2011.
[ 8 ]Y. P. Chang, T. C. Wang, Y. J. Lee, C. C. Lin, Y. C. Chen, and C. Y. Wang, “A Smart Single-Sensor Device for Instantaneously Monitoring Lower Limb Exercises,” IEEE International System-on-Chip Conference, 2019
[ 9 ]F. Wahjudi and F. J. Lin, “IMU-based Walking Workouts Recognition,” IEEE World Forum on Internet of Things, 2019, pp. 251-256
[ 10 ]T. C. Wang, Y. P. Chang, C. J. Chen, Y. J. Lee, C. C. Lin, Y. C. Chen, and C. Y. Wang, “A Smart Knee Pad for Stride Count and Walking Distance Measurement via Knee Angle Calculation,” IEEE International Symposium on Quality Electronic Design, 2020.
[ 11 ]A SWOT analysis of the field of virtual reality rehabilitation and therapy
Presence Teleoperators Virtual Environ, 14 (2) (2005), pp. 119-146
[ 12 ]C. Li, M. Fei, H. Hu, and Z. Qi, "Free weight exercises recognition based on dynamic time warping of acceleration data," Intelligent Computing for Sustainable Energy and Environment Communications in Computer and Information Science, pp. 178-185, 2013
[ 13 ]M. Wen, Z. Luo, W. Wang, and S. Liu, "A characterization of the performance of MEMS vibratory gyroscope in different fields," in 2014 15th International Conference on Electronic Packaging Technology, 2014, pp. 1547-1551: IEEE.
[ 14 ] N. White and M. Kraft, MEMS for Automotive and Aerospace Applications. Woodhead Publishing, 2013
[ 15 ]Kose, Yunus Terzioglu, Kivanc Azgin and Tayfun Akin, "A single-mass selfresonating closed-loop capacitive MEMS accelerometer," in 2016 IEEE SENSORS, Orlando, FL, USA, 2016.
[ 16 ]康健雜誌(2020)https://www.commonhealth.com.tw/search?keyword=%E6%B7%B1%E8%B9%B2&tab=all
[ 17 ] Aristidou, A. & Lasenby, J. (2011), ‘FABRIK: A fast, iterative solver for the inverse kinematics problem’, Graph. Models 73(5), 243–260.
[ 18 ] Yang W T, Luo Z Q, Chen I-M, Yeo S H. 2010. A Method for Comparing Human Postures from Motion Capture Data. In: Proc 18th CISMIFToMM Symposium Robot Design, Dynamics and Control (ROMANSY), Udine, Italy
[ 19 ]Gaurav, T., and Schaal, S., 2000, "Inverse kinematics for humanoid robots.", Robotics and Automation, 2000. Proceedings of ICRA′00. IEEE International Conference on Robotics and Automation. Vol. 1. IEEE
[ 20 ] M.-b. JIANG, X.-d. YAN, and G.-w. J. J. o. H. U. o. T. XU, "The Application of Hall Effect and Hall Effect Sensors in Measuring of Physical Quantity [J]," vol. 2, 2011
[ 21 ] https://www.easyatm.com.tw/wik
[ 22 ] Andreas Aristidou,Yiorgos Chrysanthou,Joan Lasenby “Extending FABRIK with model constraints” vol. 4, 2015 |