臺灣博碩士論文加值系統

這篇論文主要是利用感測器來實現手臂的連續動作辨識。為了達到這個目的，我們使用了IMU並且實作出sensor校正，去除重力，資料平滑化，分割資料以及辨識的方法。我們事先定義了多種的基本手勢。透過這些基本手勢我們得以組合成不同的複合手勢。利用組合的方式也讓我們系統能比較容易的加入新的手勢，讓系統的擴展性更好。實驗說明了我們提出的方法可以有效且準確的辨識出不同的連續手勢。

This thesis proposes a sensing and recognition system for continuous arm gestures. The arm motion is picked up by inertial sensors and processed in stages of calibration, gravity removal, smoothing, segmentation, and recognition. To make it scalable, we define basic gestures in terms of which complex gestures can be defined. Experimental results show our approach to be efficient, accurate, and scalable to a large number of continuous gestures without requiring unnatural pausing.

Contents ……………………………………………………………i
Acknowledgments ……………………………………………………v
1 Introduction ………………………………………………………1
1.1 Motivation………………………………………………………1
1.2 Problem Statement………………………………………………2
1.3 Contribution…………………………………………………………2
1.4 Thesis Organization …………………………………………………2
2 Related Work ………………………………………………………3
2.1 Vision-based Model……………………………………………………3
2.2 Sensor-based Models…………………………………………………4
3 Background Theory ……………………………………………………5
3.1 Sensor Calibration…………………………………………………5
3.1.1 Gyroscope Calibration ……………………………………………5
3.1.2 Accelerometer Calibration ………………………………………5
3.1.3 Magnetometer Calibration ………………………………………7
3.2 The Attitude……………………………………………………………8
3.2.1 Rotations ……………………………………………………………9
3.2.2 Quaternion ………………………………………………………10
3.2.3 AHRS Algorithm ………………………………………………12
3.3 Pattern Recognition ………………………………………………15
3.3.1 SMA Low-Pass Filter……………………………………………15
3.3.2 Pattern Matching …………………………………………………16
4 Technical Approach …………………………………………………18
4.1 CPCP…………………………………………………………………18
4.2 Startup phase …………………………………………………………18
4.2.1 Magnetic Declination ………………………………………………19
4.2.2 Gyroscope Calibration Parameter …………………………………19
4.2.3 Calculate Euler Angle ………………………………………………19
4.2.4 Removing Gravity …………………………………………………20
4.2.5 Preprocessing ………………………………………………………20
4.2.6 Stopping Threshold …………………………………………………21
4.3 Recognition Phase ……………………………………………………21
4.3.1 Stopping Detection …………………………………………………22
4.3.2 Segmentation ………………………………………………………22
4.3.3 Gesture Recognition ………………………………………………23
5 System Architecture and Implementation ………………………………29
5.1 Node Subsystem………………………………………………………29
5.2 The Host and System Architecture ……………………………………30
6 Evaluation ……………………………………………………………32
6.1 Experimental Environment …………………………………………32
6.2 Experimental Data…………………………………………………………32
6.3 Base Gesture ……………………………………………………………………33
6.4 Complex Gestures……………………………………………………34
6.5 Time Complexity ……………………………………………………36
6.6 Limitation………………………………………………………………39
7 Conclusions and Future Work …………………………………………40
7.1 Conclusions………………………………………………………………40
7.2 Future Work ………………………………………………………………41