Filter for EMG signals The signal will be filtered using a notch, highpass and lowpass filter. The filtered signal will be compared to a preset threshold and according to the strength of the signal the program will perform an action. In this case it will assign a colour to a led.
Dependencies: HIDScope MODSERIAL mbed
Fork of EMGfilter24 by
main.cpp@5:51a28834cd5b, 2016-10-28 (annotated)
- Committer:
- Nickname
- Date:
- Fri Oct 28 08:08:37 2016 +0000
- Revision:
- 5:51a28834cd5b
- Parent:
- 4:fcada70891c5
- Child:
- 6:d2e6404e1cb8
EMG filter group 24
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
Iknowright | 0:41226c0fd285 | 1 | #include "mbed.h" |
Iknowright | 0:41226c0fd285 | 2 | #include "BiQuad.h" |
Iknowright | 0:41226c0fd285 | 3 | #include "HIDScope.h" |
Iknowright | 0:41226c0fd285 | 4 | #include "MODSERIAL.h" |
Nickname | 3:faed8b7f6542 | 5 | #include <math.h> |
Iknowright | 0:41226c0fd285 | 6 | |
Nickname | 1:6081dc1ecd1f | 7 | MODSERIAL pc(USBTX, USBRX); |
Iknowright | 4:fcada70891c5 | 8 | Ticker sampleTicker;//Ticker that measures the EMG signal every 0,002 seconds and filters it |
Iknowright | 4:fcada70891c5 | 9 | Ticker goTicker; //Ticker that checks if the signal threshold is reached each time a new filtered EMG signal comes in and determines if the motors are going to rotate |
Iknowright | 4:fcada70891c5 | 10 | AnalogIn emgl(A1);//Labels are attached to the olimex shields the left tricep should obviously be connected to the should with an L label on it |
Iknowright | 4:fcada70891c5 | 11 | AnalogIn emgr(A0); |
Nickname | 3:faed8b7f6542 | 12 | DigitalOut ledG(LED_GREEN); |
Nickname | 3:faed8b7f6542 | 13 | DigitalOut ledB(LED_BLUE); |
Nickname | 3:faed8b7f6542 | 14 | DigitalOut ledR(LED_RED); |
Iknowright | 4:fcada70891c5 | 15 | HIDScope scope(2); //scope has two ports for the two EMG signals |
Iknowright | 4:fcada70891c5 | 16 | |
Iknowright | 4:fcada70891c5 | 17 | /*coefficients of each filter |
Iknowright | 4:fcada70891c5 | 18 | lno = left tricep notch filter |
Iknowright | 4:fcada70891c5 | 19 | lhf = left tricep high pass filter |
Iknowright | 4:fcada70891c5 | 20 | llf = left tricep lowpass filter |
Iknowright | 4:fcada70891c5 | 21 | same goes for rno etc. |
Iknowright | 4:fcada70891c5 | 22 | */ |
Iknowright | 4:fcada70891c5 | 23 | double lno_b0 = 0.9911; |
Iknowright | 4:fcada70891c5 | 24 | double lno_b1 = -1.6036; |
Iknowright | 4:fcada70891c5 | 25 | double lno_b2 = 0.9911; |
Iknowright | 4:fcada70891c5 | 26 | double lno_a1 = -1.603; |
Iknowright | 4:fcada70891c5 | 27 | double lno_a2 = 0.9822; |
Iknowright | 4:fcada70891c5 | 28 | |
Iknowright | 4:fcada70891c5 | 29 | double rno_b0 = 0.9911; |
Iknowright | 4:fcada70891c5 | 30 | double rno_b1 = -1.6036; |
Iknowright | 4:fcada70891c5 | 31 | double rno_b2 = 0.9911; |
Iknowright | 4:fcada70891c5 | 32 | double rno_a1 = -1.603; |
Iknowright | 4:fcada70891c5 | 33 | double rno_a2 = 0.9822; |
Nickname | 3:faed8b7f6542 | 34 | |
Iknowright | 4:fcada70891c5 | 35 | |
Iknowright | 4:fcada70891c5 | 36 | double lhf_b0 = 0.9355; |
Iknowright | 4:fcada70891c5 | 37 | double lhf_b1 = -1.8711; |
Iknowright | 4:fcada70891c5 | 38 | double lhf_b2 = 0.9355; |
Iknowright | 4:fcada70891c5 | 39 | double lhf_a1 = -1.8669; |
Iknowright | 4:fcada70891c5 | 40 | double lhf_a2 = 0.8752; |
Nickname | 1:6081dc1ecd1f | 41 | |
Iknowright | 4:fcada70891c5 | 42 | double rhf_b0 = 0.9355; |
Iknowright | 4:fcada70891c5 | 43 | double rhf_b1 = -1.8711; |
Iknowright | 4:fcada70891c5 | 44 | double rhf_b2 = 0.9355; |
Iknowright | 4:fcada70891c5 | 45 | double rhf_a1 = -1.8669; |
Iknowright | 4:fcada70891c5 | 46 | double rhf_a2 = 0.8752; |
Iknowright | 4:fcada70891c5 | 47 | |
Iknowright | 4:fcada70891c5 | 48 | |
Iknowright | 4:fcada70891c5 | 49 | double llf_b0 = 8.7656e-5; |
Iknowright | 4:fcada70891c5 | 50 | double llf_b1 = 1.17531e-4; |
Iknowright | 4:fcada70891c5 | 51 | double llf_b2 = 8.7656e-5; |
Iknowright | 4:fcada70891c5 | 52 | double llf_a1 = -1.9733; |
Iknowright | 4:fcada70891c5 | 53 | double llf_a2 = 0.9737; |
Iknowright | 0:41226c0fd285 | 54 | |
Iknowright | 4:fcada70891c5 | 55 | double rlf_b0 = 8.7656e-5; |
Iknowright | 4:fcada70891c5 | 56 | double rlf_b1 = 1.17531e-4; |
Iknowright | 4:fcada70891c5 | 57 | double rlf_b2 = 8.7656e-5; |
Iknowright | 4:fcada70891c5 | 58 | double rlf_a1 = -1.9733; |
Iknowright | 4:fcada70891c5 | 59 | double rlf_a2 = 0.9737; |
Iknowright | 4:fcada70891c5 | 60 | |
Iknowright | 4:fcada70891c5 | 61 | |
Iknowright | 4:fcada70891c5 | 62 | //starting values of the biquads of the corresponding filters |
Iknowright | 4:fcada70891c5 | 63 | double lno_v1 = 0, lno_v2 = 0; |
Iknowright | 4:fcada70891c5 | 64 | double lhf_v1 = 0, lhf_v2 = 0; |
Iknowright | 4:fcada70891c5 | 65 | double llf_v1 = 0, llf_v2 = 0; |
Iknowright | 4:fcada70891c5 | 66 | |
Iknowright | 4:fcada70891c5 | 67 | double rno_v1 = 0, rno_v2 = 0; |
Iknowright | 4:fcada70891c5 | 68 | double rhf_v1 = 0, rhf_v2 = 0; |
Iknowright | 4:fcada70891c5 | 69 | double rlf_v1 = 0, rlf_v2 = 0; |
Nickname | 1:6081dc1ecd1f | 70 | |
Iknowright | 4:fcada70891c5 | 71 | /* declaration of the outputs of each biquad. |
Iknowright | 4:fcada70891c5 | 72 | the output of the previous biquad is the input for the next biquad. |
Iknowright | 4:fcada70891c5 | 73 | so lno_y goes into lhf_y etc. |
Iknowright | 4:fcada70891c5 | 74 | */ |
Iknowright | 4:fcada70891c5 | 75 | double lno_y; |
Iknowright | 4:fcada70891c5 | 76 | double lhf_y; |
Iknowright | 4:fcada70891c5 | 77 | double llf_y; |
Iknowright | 4:fcada70891c5 | 78 | double lrect_y; |
Iknowright | 4:fcada70891c5 | 79 | double rno_y; |
Iknowright | 4:fcada70891c5 | 80 | double rhf_y; |
Iknowright | 4:fcada70891c5 | 81 | double rlf_y; |
Iknowright | 4:fcada70891c5 | 82 | double rrect_y; |
Iknowright | 0:41226c0fd285 | 83 | |
Iknowright | 4:fcada70891c5 | 84 | // set the threshold value for the filtered signal |
Iknowright | 4:fcada70891c5 | 85 | //if the signal exceeds this value the motors will start to rotate |
Iknowright | 4:fcada70891c5 | 86 | const double threshold_value = 0.05; |
Iknowright | 4:fcada70891c5 | 87 | |
Iknowright | 4:fcada70891c5 | 88 | /* declaration of each biquad |
Iknowright | 4:fcada70891c5 | 89 | The coefficients will be filled in later on in void scopeSend |
Iknowright | 4:fcada70891c5 | 90 | As said before the input of each biquad is the output of the previous one |
Iknowright | 4:fcada70891c5 | 91 | The input of the first biquad is the raw EMG signal and the output of the last biquad is the filtered signal. |
Iknowright | 4:fcada70891c5 | 92 | This is done for both left and right so this makes two chains of 3 biquads */ |
Iknowright | 4:fcada70891c5 | 93 | |
Iknowright | 4:fcada70891c5 | 94 | double biquad_lno(double u, double&v1 , double&v2 , const double a1 , const double a2 , const double b0 , |
Nickname | 3:faed8b7f6542 | 95 | const double b1 , const double b2 ) |
Nickname | 1:6081dc1ecd1f | 96 | { |
Nickname | 3:faed8b7f6542 | 97 | double v = u - a1*v1 - a2*v2; |
Nickname | 3:faed8b7f6542 | 98 | double y = b0*v + b1*v1 + b2*v2; |
Nickname | 3:faed8b7f6542 | 99 | v2 = v1; |
Nickname | 3:faed8b7f6542 | 100 | v1 = v; |
Nickname | 3:faed8b7f6542 | 101 | return y; |
Nickname | 3:faed8b7f6542 | 102 | } |
Nickname | 3:faed8b7f6542 | 103 | |
Iknowright | 4:fcada70891c5 | 104 | double biquad_lhf(double u, double&v1 , double&v2 , const double a1 , const double a2 , const double b0 , |
Nickname | 3:faed8b7f6542 | 105 | const double b1 , const double b2 ) |
Nickname | 3:faed8b7f6542 | 106 | { |
Nickname | 3:faed8b7f6542 | 107 | double v = u - a1*v1 - a2*v2; |
Nickname | 3:faed8b7f6542 | 108 | double y = b0*v + b1*v1 + b2*v2; |
Nickname | 3:faed8b7f6542 | 109 | v2 = v1; |
Nickname | 3:faed8b7f6542 | 110 | v1 = v; |
Nickname | 3:faed8b7f6542 | 111 | return y; |
Nickname | 1:6081dc1ecd1f | 112 | } |
Iknowright | 0:41226c0fd285 | 113 | |
Iknowright | 4:fcada70891c5 | 114 | double biquad_llf(double u, double&v1 , double&v2 , const double a1 , const double a2 , const double b0 , |
Iknowright | 4:fcada70891c5 | 115 | const double b1 , const double b2 ) |
Iknowright | 4:fcada70891c5 | 116 | { |
Iknowright | 4:fcada70891c5 | 117 | double v = u - a1*v1 - a2*v2; |
Iknowright | 4:fcada70891c5 | 118 | double y = b0*v + b1*v1 + b2*v2; |
Iknowright | 4:fcada70891c5 | 119 | v2 = v1; |
Iknowright | 4:fcada70891c5 | 120 | v1 = v; |
Iknowright | 4:fcada70891c5 | 121 | return y; |
Iknowright | 4:fcada70891c5 | 122 | } |
Iknowright | 4:fcada70891c5 | 123 | double biquad_rno(double u, double&v1 , double&v2 , const double a1 , const double a2 , const double b0 , |
Iknowright | 4:fcada70891c5 | 124 | const double b1 , const double b2 ) |
Iknowright | 4:fcada70891c5 | 125 | { |
Iknowright | 4:fcada70891c5 | 126 | double v = u - a1*v1 - a2*v2; |
Iknowright | 4:fcada70891c5 | 127 | double y = b0*v + b1*v1 + b2*v2; |
Iknowright | 4:fcada70891c5 | 128 | v2 = v1; |
Iknowright | 4:fcada70891c5 | 129 | v1 = v; |
Iknowright | 4:fcada70891c5 | 130 | return y; |
Iknowright | 4:fcada70891c5 | 131 | } |
Iknowright | 4:fcada70891c5 | 132 | |
Iknowright | 4:fcada70891c5 | 133 | double biquad_rhf(double u, double&v1 , double&v2 , const double a1 , const double a2 , const double b0 , |
Iknowright | 4:fcada70891c5 | 134 | const double b1 , const double b2 ) |
Iknowright | 4:fcada70891c5 | 135 | { |
Iknowright | 4:fcada70891c5 | 136 | double v = u - a1*v1 - a2*v2; |
Iknowright | 4:fcada70891c5 | 137 | double y = b0*v + b1*v1 + b2*v2; |
Iknowright | 4:fcada70891c5 | 138 | v2 = v1; |
Iknowright | 4:fcada70891c5 | 139 | v1 = v; |
Iknowright | 4:fcada70891c5 | 140 | return y; |
Iknowright | 4:fcada70891c5 | 141 | } |
Iknowright | 4:fcada70891c5 | 142 | |
Iknowright | 4:fcada70891c5 | 143 | double biquad_rlf(double u, double&v1 , double&v2 , const double a1 , const double a2 , const double b0 , |
Nickname | 3:faed8b7f6542 | 144 | const double b1 , const double b2 ) |
Nickname | 3:faed8b7f6542 | 145 | { |
Nickname | 3:faed8b7f6542 | 146 | double v = u - a1*v1 - a2*v2; |
Nickname | 3:faed8b7f6542 | 147 | double y = b0*v + b1*v1 + b2*v2; |
Nickname | 3:faed8b7f6542 | 148 | v2 = v1; |
Nickname | 3:faed8b7f6542 | 149 | v1 = v; |
Nickname | 3:faed8b7f6542 | 150 | return y; |
Nickname | 3:faed8b7f6542 | 151 | } |
Nickname | 3:faed8b7f6542 | 152 | |
Iknowright | 4:fcada70891c5 | 153 | /* function that calculates the filtered EMG signal from the raw EMG signal. |
Iknowright | 4:fcada70891c5 | 154 | So 2 chains of 3 biquads each are calculating the left and the right filtered EMG signal. |
Iknowright | 4:fcada70891c5 | 155 | After this is calculated, the signals are sent to HIDscope (scope.send) to see what they look like. |
Iknowright | 4:fcada70891c5 | 156 | The filtered left signal (llf_y) is shown in channel 1, the filtered right signal (rlf_y)is shown in channel 0 (scope.set)*/ |
Nickname | 3:faed8b7f6542 | 157 | void scopeSend(void){ |
Iknowright | 4:fcada70891c5 | 158 | lno_y = biquad_lno(emgl.read(), lno_v1, lno_v2, lno_a1, lno_a2, lno_b0, lno_b1, lno_b2); |
Iknowright | 4:fcada70891c5 | 159 | lhf_y = biquad_lhf(lno_y, lhf_v1, lhf_v2, lhf_a1, lhf_a2, lhf_b0, lhf_b1, lhf_b2); |
Iknowright | 4:fcada70891c5 | 160 | lrect_y = fabs(lhf_y); |
Iknowright | 4:fcada70891c5 | 161 | llf_y = biquad_llf(lrect_y, llf_v1, llf_v2, llf_a1, llf_a2, llf_b0, llf_b1, llf_b2)/0.2; |
Iknowright | 4:fcada70891c5 | 162 | rno_y = biquad_rno(emgr.read(), rno_v1, rno_v2, rno_a1, rno_a2, rno_b0, rno_b1, rno_b2); |
Iknowright | 4:fcada70891c5 | 163 | rhf_y = biquad_rhf(rno_y, rhf_v1, rhf_v2, rhf_a1, rhf_a2, rhf_b0, rhf_b1, rhf_b2); |
Iknowright | 4:fcada70891c5 | 164 | rrect_y = fabs(rhf_y); |
Iknowright | 4:fcada70891c5 | 165 | rlf_y = biquad_rlf(rrect_y, rlf_v1, rlf_v2, rlf_a1, rlf_a2, rlf_b0, rlf_b1, rlf_b2)/0.2; |
Iknowright | 4:fcada70891c5 | 166 | scope.set(1, llf_y); |
Iknowright | 4:fcada70891c5 | 167 | scope.set(0, rlf_y); |
Nickname | 3:faed8b7f6542 | 168 | scope.send(); |
Nickname | 3:faed8b7f6542 | 169 | |
Nickname | 3:faed8b7f6542 | 170 | } |
Iknowright | 4:fcada70891c5 | 171 | |
Iknowright | 4:fcada70891c5 | 172 | //function that compares the filtered EMG signal to the set threshold and determines what colour the led should be |
Iknowright | 4:fcada70891c5 | 173 | //This led is for feedback purposes only and should obviously be replaced by the motors |
Iknowright | 4:fcada70891c5 | 174 | void threshold(){ |
Iknowright | 4:fcada70891c5 | 175 | //If the right signal exceeds the threshold, the led should turn blue |
Iknowright | 4:fcada70891c5 | 176 | if (rlf_y > threshold_value){ |
Iknowright | 4:fcada70891c5 | 177 | ledB = 0; |
Iknowright | 4:fcada70891c5 | 178 | ledR = 1; |
Iknowright | 4:fcada70891c5 | 179 | ledG = 1; |
Nickname | 5:51a28834cd5b | 180 | //If right already exceeds the threshold, and you also exceed the threshold with your left tricep the motors will be turned off. |
Nickname | 5:51a28834cd5b | 181 | //This works both ways. |
Nickname | 5:51a28834cd5b | 182 | if (llf_y > threshold_value){ |
Nickname | 5:51a28834cd5b | 183 | ledB = 1; |
Nickname | 5:51a28834cd5b | 184 | ledR = 1; |
Nickname | 5:51a28834cd5b | 185 | ledG = 0; |
Nickname | 5:51a28834cd5b | 186 | } |
Nickname | 3:faed8b7f6542 | 187 | } |
Iknowright | 4:fcada70891c5 | 188 | //If the left signal exceeds the threshold, the led should turn red |
Iknowright | 4:fcada70891c5 | 189 | else if (llf_y > threshold_value){ |
Iknowright | 4:fcada70891c5 | 190 | ledB = 1; |
Iknowright | 4:fcada70891c5 | 191 | ledR = 0; |
Iknowright | 4:fcada70891c5 | 192 | ledG = 1; |
Nickname | 5:51a28834cd5b | 193 | |
Nickname | 3:faed8b7f6542 | 194 | } |
Nickname | 5:51a28834cd5b | 195 | |
Nickname | 5:51a28834cd5b | 196 | |
Iknowright | 4:fcada70891c5 | 197 | //If no signal exceeds the threshold, the led should be off |
Iknowright | 4:fcada70891c5 | 198 | else { |
Iknowright | 4:fcada70891c5 | 199 | ledB=1; |
Iknowright | 4:fcada70891c5 | 200 | ledG=1; |
Iknowright | 4:fcada70891c5 | 201 | ledR=1; |
Nickname | 3:faed8b7f6542 | 202 | } |
Iknowright | 4:fcada70891c5 | 203 | } |
Iknowright | 4:fcada70891c5 | 204 | |
Iknowright | 0:41226c0fd285 | 205 | |
Iknowright | 0:41226c0fd285 | 206 | int main(){ |
Iknowright | 4:fcada70891c5 | 207 | |
Iknowright | 4:fcada70891c5 | 208 | |
Nickname | 1:6081dc1ecd1f | 209 | |
Iknowright | 4:fcada70891c5 | 210 | /*Attach the 'sample' function to the timer 'sample_timer'. |
Iknowright | 4:fcada70891c5 | 211 | this ensures that 'sample' is executed every... 0.002 seconds = 500 Hz |
Iknowright | 4:fcada70891c5 | 212 | emgSampleTicker.attach(&sample, 0.002); |
Iknowright | 4:fcada70891c5 | 213 | empty loop, sample() is executed periodically |
Iknowright | 4:fcada70891c5 | 214 | The same goes for the goTicker. It checks if the threshold is reached at the same rate new a new EMG signal comes in*/ |
Nickname | 3:faed8b7f6542 | 215 | sampleTicker.attach(scopeSend,0.002); |
Nickname | 3:faed8b7f6542 | 216 | goTicker.attach(threshold,0.002); |
Nickname | 1:6081dc1ecd1f | 217 | |
Nickname | 3:faed8b7f6542 | 218 | while(1) { |
Iknowright | 4:fcada70891c5 | 219 | |
Iknowright | 4:fcada70891c5 | 220 | } |
Nickname | 3:faed8b7f6542 | 221 | } |