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Electromyography (EMG) Applications for Rehabilitation and Prosthesis Dingguo Zhang Associate Professor Institute of Robotics Shanghai Jiao Tong University Shanghai, China Feb. 26, 2016

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Page 1: Electromyography (EMG) Applications for Rehabilitation …blsc-uec.net/wpblsc/wp-content/uploads/EMG-talk-2016.pdf · Electromyography (EMG) Applications for Rehabilitation and Prosthesis

Electromyography (EMG) Applications

for Rehabilitation and Prosthesis

Dingguo Zhang

Associate Professor

Institute of Robotics Shanghai Jiao Tong University

Shanghai, China Feb. 26, 2016

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1. Introduction

2. EMG for paralyzed patients

3. EMG for amputees

4. Ending

Outline

Page 3: Electromyography (EMG) Applications for Rehabilitation …blsc-uec.net/wpblsc/wp-content/uploads/EMG-talk-2016.pdf · Electromyography (EMG) Applications for Rehabilitation and Prosthesis

1. Introduction

2. EMG for paralyzed patients

3. EMG for amputees

4. Ending

Outline

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Human Motor Control

Electromyography (EMG)

Background

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EMG is a kind of Human-Machine Interface (HMI)

Aircraft Control

Computer Device Control

Entertainment

Exoskeleton Control

Background

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Our Targets

Rehabilitation

for Paraplegics

Prosthesis

for Amputees

EMG EMG

(Electromyography) (Electromyography)

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1. Introduction

2. EMG for paralyzed patients

3. EMG for amputees

4. Ending

Outline

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Controlling electrical pulses of low level to stimulate the skeletal muscle in an attempt to restore the motor function and generate the desired motions for paralyzed patients.

An important rehabilitation technique

FES= Functional Electrical Stimulation

Page 9: Electromyography (EMG) Applications for Rehabilitation …blsc-uec.net/wpblsc/wp-content/uploads/EMG-talk-2016.pdf · Electromyography (EMG) Applications for Rehabilitation and Prosthesis

Suitable Conditions for EMG+FES

1) The patient is incompletely paralyzed. He can weakly drive some muscles voluntarily, but the force is not enough to perform movement, or the movement is abnormal and awkward. Then the weak EMG that can be interpreted as a desire for a certain muscle contraction and it is recorded to stimulate the same muscle positively.

Page 10: Electromyography (EMG) Applications for Rehabilitation …blsc-uec.net/wpblsc/wp-content/uploads/EMG-talk-2016.pdf · Electromyography (EMG) Applications for Rehabilitation and Prosthesis

Suitable Conditions for EMG+FES

2) EMG from some normal muscles can be

used to stimulate the paralyzed muscles (not symmetric ones) in the ipsilateral side of a limb. For example, the EMG of proximal muscles of upper limb is employed to stimulate the distal muscles to perform grasping via FES; the EMG from the wrist extensor muscles has been used to control the stimulation of the finger and thumb flexors in order to obtain a stronger tenodesis; the EMG of biceps is used to modulate the stimulation for triceps.

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Suitable Conditions for EMG+FES

3) The patient is hemiplegic. The EMG

information from one side of human limbs can be used to control the paralyzed symmetric muscles of the contralateral side via FES.

Case Study 1

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Suitable Conditions for EMG+FES

4) Master slave control. The EMG information from healthy persons of master side, which remotely controlled the patients of slave side.

Case Study 2

Page 13: Electromyography (EMG) Applications for Rehabilitation …blsc-uec.net/wpblsc/wp-content/uploads/EMG-talk-2016.pdf · Electromyography (EMG) Applications for Rehabilitation and Prosthesis

EMG in FES rehabilitation system for

hemiplegic patients

Case Study 1

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General Idea

EMG from normal side FES for the paralyzed side

Controller Controller

Serve for Hemiplegic Patients!

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Hierarchical FES Control System

The current work only realizes the feedforward components (circled by red lines).

Our focus: EMG based Recognition

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EMG Measurement

Mega EMG System (ME6000)

EMG Electrodes Location in Left Leg.

Six targeted muscles:

rectus femoris, vastus group, biceps femoris,

Semimembranosus, gastrocnemius, soleus

Page 17: Electromyography (EMG) Applications for Rehabilitation …blsc-uec.net/wpblsc/wp-content/uploads/EMG-talk-2016.pdf · Electromyography (EMG) Applications for Rehabilitation and Prosthesis

States of Motion in Lower Limb

Four types of motions to be classified.

Walking

Standing Still

Standing Up

Sitting Down

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Protocol

• Three healthy subjects took part in the EMG measurement.

• Six channels of EMG signals are acquired from six muscle groups on one leg.

• The subjects perform four types of movements: sitting down, standing up, stillness (standing quietly and keeping body balance), and walking in sequence.

• Every type of motion will be performed 60 times. The EMG signal acquired during the first 30 times will be used as training data, and that of the last 30 times as testing data.

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EMG Processing

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EMG Processing

100 ms 200 ms

Increment Analysis window

EMG

Segmentation:

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EMG Feature Extraction I

Time Domain Statistics (TDS) Features

Mean Absolute Value

Slope Sign Changes

Zero Crossing

Waveform Length

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EMG Feature Extraction II

Fourier Cepstral (FC) Features

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Classification

Note:

Classifiers:

Linear Discriminant Analysis (LDA)

Quadratic Discriminant Analysis (QDA)

Fisher linear discriminant (FLD) is adopted to reduce the dimension before QDA classification in this work.

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Results

Average Classification Accuracy of Three Subjects

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Average Classification Accuracy of Four Types of Movements

Results

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Offline EMG data Driven FES for Walking

Demonstration

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EMG in Master-Slave Gesture

Learning System using FES

Case Study 2

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General Idea

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Master Side

Features: Time Domain Statistics (TDS) Classifier: Support Vector Machine

EMG Signal Acquisition and Processing

EMG Armlet

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Slave Side Functional Electrical Stimulation (FES)

Stimulation Electrode Array

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Master Side

Demonstration

Slave Side

Page 32: Electromyography (EMG) Applications for Rehabilitation …blsc-uec.net/wpblsc/wp-content/uploads/EMG-talk-2016.pdf · Electromyography (EMG) Applications for Rehabilitation and Prosthesis

1. Introduction

2. EMG for paralyzed patients

3. EMG for amputees

4. Ending

Outline

Page 33: Electromyography (EMG) Applications for Rehabilitation …blsc-uec.net/wpblsc/wp-content/uploads/EMG-talk-2016.pdf · Electromyography (EMG) Applications for Rehabilitation and Prosthesis

Handwriting Recognition using EMG

EMG for Amputees

Case Study 3

Case Study 4

EMG Controlled Prosthetic Hand

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Handwriting Recognition using EMG

Case Study 3

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Objective

• Allow a person (maybe disabled) to communicate or control the computer and mobile phones without keyboard or other input devices.

• Provide a natural, low-cost input way for HMI (Human-Machine Interface) based on EMG.

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Method

1. Preprocessing

2. Onset and Offset Detecting

3. Template making

4. Template matching

Page 37: Electromyography (EMG) Applications for Rehabilitation …blsc-uec.net/wpblsc/wp-content/uploads/EMG-talk-2016.pdf · Electromyography (EMG) Applications for Rehabilitation and Prosthesis

Preprocessing

• Notch filter of 50Hz (power frequency), and bandpass filter for 10-200Hz

Blue (removed), Red (left)

Page 38: Electromyography (EMG) Applications for Rehabilitation …blsc-uec.net/wpblsc/wp-content/uploads/EMG-talk-2016.pdf · Electromyography (EMG) Applications for Rehabilitation and Prosthesis

• Detecting technique plays an important role for recognition.

• We set the threshold based on the energy and

its slope of the EMG signal.

Onset and Offset Detecting

Page 39: Electromyography (EMG) Applications for Rehabilitation …blsc-uec.net/wpblsc/wp-content/uploads/EMG-talk-2016.pdf · Electromyography (EMG) Applications for Rehabilitation and Prosthesis

Template Making

Dynamic Time Warping (DTW) algorithm

Six-channel EMG

DTW

Conventional Processing

Initial Template

Final Template Minimize the cumulative distance

between points m & n

Page 40: Electromyography (EMG) Applications for Rehabilitation …blsc-uec.net/wpblsc/wp-content/uploads/EMG-talk-2016.pdf · Electromyography (EMG) Applications for Rehabilitation and Prosthesis

Template Matching

Compared with all the templates by DTW method, system recognize the character corresponding to the smallest distance.

Raw EMG Template Matching

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Results

Performance on three character sets: • digit characters from ‘0’ to ‘9’

• Chinese characters from ‘一’(one) to ‘十’(ten)

• capital letters from ‘A’ to ‘Z’

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Combined with AEVIOUS Visible HCI=AEVIOUS Input:

6 slide directions in a hexagon unit

Online EMG collection DTW Human-Computer Interface

Chinese character=>phonetic symbol (Pin Yin)

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Demonstration

Experiments on an amputee

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Continuous Work

• improve EMG acquisition instrument • apply on disabled with hand deficiency • control mobile phone with Bluetooth

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EMG Controlled Prosthetic Hand

Case Study 4

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Block diagram of EMG controlled prosthetic hand

Basic Theory

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Our Recent Work

EMG Signal Processing based on Pattern Recognition

EMG

Measurement Feature Extraction

Classification Prosthetic Hand

Algorithm

DBS

DFC

iDFT

SELDA

SEQDA

Delsys Mega Biometrics Self-

designed

SJT-3

SJT-4

SJT-5

SJT-6

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Our EMG Equipments

Delsys Mega

Biometrics Self-designed EMG armlet

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Discriminant Bispectrum (DBS)

• N-th order cumulant function of a non-Gaussian stationary random signal x(k):

• Bispectrum B(w1,w2) is defined as 2-dimensional Fourier transform of the 3rd order cumulant function:

• Direct estimation of bispectrum of K segments

• Estimation of bispectrum in the k-th segment

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Bispectrum Integration

2-D Bispectrum Matrix is transformed to 1-D integral feature

Dimension Reduction

1-dimentional integration

Fisher linear discriminant

[Chen XP, Zhu XY, Zhang DG, Medical Engineering & Physics, 2010]

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51

Time Consuming:

DBS - 40ms AR -28ms PSD - 38ms TDS - 2ms RMS - 0.5ms

Results of DBS

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Fourier Cepstrum (FC)

• Energy spectrum is achieved via discrete Fourier transform

• FC coefficient

is achieved from the nonlinear magnitude of Fourier-spectrum transform directly using discrete cosine transform (DCT).

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Discriminant Fourier Cepstrum (DFC)

DFC 特征提取的特点:

通过FFT变换直接提取信号的频谱特征

采用DCT压缩并去耦频谱信息

借助FFT +DCT快速算法,设计高速特征提取方法

FC coefficients (FFT + DCT):

Fisher ratio feature selection:

DFC feature

[Chen XP, Zhu XY, Zhang DG, Physiological Measurement, 2009]

Page 54: Electromyography (EMG) Applications for Rehabilitation …blsc-uec.net/wpblsc/wp-content/uploads/EMG-talk-2016.pdf · Electromyography (EMG) Applications for Rehabilitation and Prosthesis

Less mistakes

Raw EMG

Command Output

54

Time Cost:

AR -28ms TDS - 2ms DFC - 4ms

Results of DFC

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Expected Performance

1. At least 8 classes of motions can be recognized. 2. The recognition accuracy should be above 90%. 3. The computation time of algorithms should less than 300ms.

Versatile functions

Accurate control

Fast response

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Adaptive Classifier

Self-enhancing adaptive classifier

Increasing the training data set

Information in testing data is used to update parameters of classifier.

LDA and QDA is improved to self-enhancing classifiers.

[Chen XP, Zhang DG*, Zhu XY, J. NeuroEngineering & Rehabilitation, 2013]

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Adaptive Classifier

Label: Unsupervised

mean vector and covariance matrix

Page 58: Electromyography (EMG) Applications for Rehabilitation …blsc-uec.net/wpblsc/wp-content/uploads/EMG-talk-2016.pdf · Electromyography (EMG) Applications for Rehabilitation and Prosthesis

Conventional Classifiers

Note:

Linear Discriminant Analysis (LDA)

Quadratic Discriminant Analysis (QDA)

Fisher linear discriminant (FLD) is adopted to reduce the dimension before QDA classification in this work.

Page 59: Electromyography (EMG) Applications for Rehabilitation …blsc-uec.net/wpblsc/wp-content/uploads/EMG-talk-2016.pdf · Electromyography (EMG) Applications for Rehabilitation and Prosthesis

Adaptive Classifier

where z is the new EMG feature

Page 60: Electromyography (EMG) Applications for Rehabilitation …blsc-uec.net/wpblsc/wp-content/uploads/EMG-talk-2016.pdf · Electromyography (EMG) Applications for Rehabilitation and Prosthesis

Protocols

Conventional (short-term) Protocol

Long-term Protocol

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Short-term Performance

Experiment results (unsupervised method)

SEQDA(red) vs QDA(black) SELDA(yellow) vs LDA(green)

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Long-term Performance

Experiment results (unsupervised method)

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Prototypes of Prosthetic Hands

SJT-2~SJT-5 Hands

SJT-6 Hand

Page 64: Electromyography (EMG) Applications for Rehabilitation …blsc-uec.net/wpblsc/wp-content/uploads/EMG-talk-2016.pdf · Electromyography (EMG) Applications for Rehabilitation and Prosthesis

Experiment on Amputees

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Placement of Electrodes

Anterior View

Posterior View

Page 66: Electromyography (EMG) Applications for Rehabilitation …blsc-uec.net/wpblsc/wp-content/uploads/EMG-talk-2016.pdf · Electromyography (EMG) Applications for Rehabilitation and Prosthesis

Demonstration

SJT-6 Prosthetic Hand Controlled by SJT-iMYO EMG Armlet

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Prof.

Xiangyang Zhu

Acknowledgements

Dr. Gan Huang

Dr. Xinpu Chen

Shunchong Li Jianjun Meng Lin Yao Lizhi Pan Jiayuan He Jianwei Liu Fei Xu Peng Yao Qing Zhang Weichao Guo Kaida Chen Ying Wang Lei Hua Chengzhang Li

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Biomechatronics & BioRobotics Lab

Welcome!

http://bbl.sjtu.edu.cn

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The END

Thank you for your attention!

Contact: [email protected]