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Presenter : Yu Chen Advisor : Jian-Jiun Ding, Jian-Hua Wang.

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Presentation on theme: "Presenter : Yu Chen Advisor : Jian-Jiun Ding, Jian-Hua Wang."— Presentation transcript:

1 Presenter : Yu Chen Advisor : Jian-Jiun Ding, Jian-Hua Wang

2  Introduction  3D Accelerometer  Applications about 3D accelerometers  A Real-Time Human Movement Classifier  Analysis of Acceleration Signals using Wavelet Transform  Conclusion  Reference 2

3  Introduction  3D Accelerometer  Applications about 3D accelerometers  A Real-Time Human Movement Classifier  Analysis of Acceleration Signals using Wavelet Transform  Conclusion  Reference 3

4  Accelerometer is a device which can detect and measure acceleration. 4

5  There are a lot of types of accelerometers ◦ Capacitive ◦ Piezoelectric ◦ Piezoresistive ◦ Hall Effect ◦ Magnetoresistive ◦ Heat Transfer 5

6 6

7  Introduction  3D Accelerometer  Applications about 3D accelerometers  A Real-Time Human Movement Classifier  Analysis of Acceleration Signals using Wavelet Transform  Conclusion  Reference 7

8  Basic Principle of Acceleration ◦ Velocity is speed and direction so any time there is a change in either speed or direction there is acceleration. ◦ Earth’s gravity: 1g ◦ Bumps in road: 2g ◦ Space shuttle: 10g ◦ Death or serious injury: 50g 8

9  Basic Accelerometer ◦ Newton’s law ◦ Hooke’s law ◦ F = kΔx = ma 9

10  Piezoelectric Systems 10

11  Electromechanical Systems 11

12  Tilt angle 12

13  Introduction  3D Accelerometer  Applications about 3D accelerometers  A Real-Time Human Movement Classifier  Analysis of Acceleration Signals using Wavelet Transform  Conclusion  Reference 13

14  Calculate the user’s walking state  Analyze the lameness of cattle  Detect walking activity in cardiac rehabilitation  Examine the gesture for cell phone or remote controller for video games 14

15  Introduction  3D Accelerometer  Applications about 3D accelerometers  A Real-Time Human Movement Classifier  Analysis of Acceleration Signals using Wavelet Transform  Conclusion  Reference 15

16 16

17  Human body’s movements are within frequency below 20 Hz (99% of the energy is contained below 15 Hz)  Median filter ◦ remove any abnormal noise spikes  Low pass filter ◦ Gravity ◦ bodily motion 17

18  Activity and Rest ◦ Appropriate threshold value ◦ Above the threshold -> active ◦ Below the threshold -> rest 18

19 Walk Upstair Downstair 19

20  Introduction  3D Accelerometer  Applications about 3D accelerometers  A Real-Time Human Movement Classifier  Analysis of Acceleration Signals using Wavelet Transform  Conclusion  Reference 20

21  Wavelet Transform g[n]g[n] h[n]h[n]  2 g[n] h[n]  2 x LL [n]  2 x LH [n] g[n] h[n]  2 xHL[n]xHL[n] x HH [n] x[n]x[n] xL[n]xL[n] xH[n]xH[n] 21

22  Introduction  3D Accelerometer  Applications about 3D accelerometers  A Real-Time Human Movement Classifier  Analysis of Acceleration Signals using Wavelet Transform  Conclusion  Reference 22

23  Recent Research Direction ◦ Statistical property ◦ Wavelet transform ◦ Signal feature  Future Research Direction ◦ Machine learning ◦ Time frequency analysis 23

24  Introduction  3D Accelerometer  Applications about 3D accelerometers  A Real-Time Human Movement Classifier  Analysis of Acceleration Signals using Wavelet Transform  Conclusion  Reference 24

25  P. Barralon, N. Vuillerme and N. Noury, “Walk Detection With a Kinematic Sensor: Frequency and Wavelet Comparison,” IEEE EMBS Annual International Conference New York City, USA, Aug 30-Sept 3, 2006  M. Sekine, T. Tamura, M. Akay, T. Togawa, Y. Fukui, “Analysis of Acceleration Signals using Wavelet Transform,” Methods of Information in Medicine, F. K. Schattauer Vrlagsgesellschaft mbH (2000)  Elsa Garcia, Hang Ding and Antti Sarela, “Can a mobile phone be used as a pedometer in an outpatient cardiac rehabilitation program?,” IEEE/ICME International Conference on Complex Medical Engineering July 13-15,2010, Gold Coast, Australia 25

26  Niranjan Bidargaddi, Antti Sarela, Lasse Klingbeil and Mohanraj Karunanithi, “Detecting walking activity in cardiac rehabilitation by using accelerometer,”  Masaki Sekine, Toshiyo Tamura, Metin Akay, Toshiro Fujimoto, Tatsuo Togawa, and Yasuhiro Fukui, “Discrimination of Walking Patterns Using Wavelet-Based Fractal Analysis,” IEEE TRANSACTIONS ON NEURAL SYSTEMS AND REHABILITATION ENGINEERING, VOL. 10, NO. 3, SEPTEMBER 2002  “ Accelerometers and How they Work ”  “ Basic Principles of Operation and Applications of the Accelerometer ” Paschal Meehan and Keith Moloney - Limerick Institute of Technology. 26

27  From the lecture slide of “ Time Frequency Analysis and Wavelet Transform” by Jian-Jiun Ding 27

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