met printstatements 1
Dependencies: HIDScope MODSERIAL PID QEI biquadFilter mbed
Fork of EMG_5 by
Diff: main.cpp
- Revision:
- 23:e5db011bd410
- Parent:
- 22:68ab712b62b2
- Child:
- 24:26659f1de039
diff -r 68ab712b62b2 -r e5db011bd410 main.cpp --- a/main.cpp Wed Nov 02 12:55:41 2016 +0000 +++ b/main.cpp Thu Nov 03 12:17:16 2016 +0000 @@ -4,68 +4,185 @@ #include "MODSERIAL.h" //Define objects -AnalogIn emg1_in( A0 ); -AnalogIn emg2_in( A1 ); + AnalogIn emg1_in( A0 ); + AnalogIn emg2_in( A1 ); + AnalogIn emg3_in( A2 ); + DigitalIn max_reader1( SW2 ); + DigitalIn max_reader3( SW3 ); + -Ticker sample_timer; -HIDScope scope( 3 ); -DigitalOut red(LED_RED); -DigitalOut blue(LED_BLUE); -DigitalOut green(LED_GREEN); -DigitalOut emg1_out( D8 ); -DigitalOut emg2_out( D9 ); -MODSERIAL pc(USBTX, USBRX); + Ticker main_timer; + Ticker max_read1; + Ticker max_read3; + HIDScope scope( 5 ); + DigitalOut red(LED_RED); + DigitalOut blue(LED_BLUE); + DigitalOut green(LED_GREEN); + MODSERIAL pc(USBTX, USBRX); // EMG variables -double emg1; -double emg1highfilter; -double emg1notchfilter; -double emg1abs; -double emg1lowfilter; -double emgpeak; - -double emg2; -double emg2highfilter; -double emg2notchfilter; -double emg2abs; -double emg2lowfilter; + //Right Biceps + double emg1; + double emg1highfilter; + double emg1notchfilter; + double emg1abs; + double emg1lowfilter; + double emg1peak; + // Left Biceps + double emg2; + double emg2highfilter; + double emg2notchfilter; + double emg2abs; + double emg2lowfilter; + double emg2peak; + double max1; + double maxpart1; + // Left Lower Arm OR Triceps + double emg3; + double emg3highfilter; + double emg3notchfilter; + double emg3abs; + double emg3lowfilter; + double emg3peak; + double max3; + double maxpart3; // Filter settings -BiQuad filterhigh(9.704e-01,-1.9408,9.704e-01,-1.9389,9.427e-01); -BiQuad filternotch(9.495e-01,-1.8062,9.495e-01,-1.8062,8.992e-01); -BiQuad filterlow(1.439e-02,2.794e-02,1.397e-02,-1.7229,7.788e-01); -BiQuad filterpeak(1.0878,-1.950,8.771e-01,-1.95032,9.5499e-01); - -// Filtering -void filter() { - emg1 = emg1_in.read(); - emg1highfilter = filterhigh.step(emg1); - emg1notchfilter = filternotch.step(emg1highfilter); - emg1abs = fabs(emg1notchfilter); - emg1lowfilter = filterlow.step(emg1abs); - emgpeak = filterpeak.step(emg1lowfilter); + // Right Biceps + BiQuad filterhigh1(9.704e-01,-1.9408,9.704e-01,-1.9389,9.427e-01); /* Filter at 10 Hz */ + BiQuad filternotch1(9.495e-01,-1.8062,9.495e-01,-1.8062,8.992e-01); /* Filter at 50 Hz */ + BiQuad filterlow1(2.119e-03,4.238e-03,2.119e-03,-1.9016,9.101e-01); /* Filter at 15 Hz */ + BiQuad filterpeak1(1.0123,-1.983,9.761e-01,-1.9838,9.8855e-01); /* Gain peak at 11 Hz */ + // Left Biceps + BiQuad filterhigh2(9.704e-01,-1.9408,9.704e-01,-1.9389,9.427e-01); + BiQuad filternotch2(9.495e-01,-1.8062,9.495e-01,-1.8062,8.992e-01); + BiQuad filterlow3(2.119e-03,4.238e-03,2.119e-03,-1.9016,9.101e-01); + BiQuad filterpeak2(1.0123,-1.983,9.761e-01,-1.9838,9.8855e-01); + // Left Lower Arm OR Triceps + BiQuad filterhigh3(9.704e-01,-1.9408,9.704e-01,-1.9389,9.427e-01); + BiQuad filternotch3(9.495e-01,-1.8062,9.495e-01,-1.8062,8.992e-01); + BiQuad filterlow3(2.119e-03,4.238e-03,2.119e-03,-1.9016,9.101e-01); + BiQuad filterpeak3(1.0123,-1.983,9.761e-01,-1.9838,9.8855e-01); + // - emg2 = emg2_in.read(); - emg2highfilter = filterhigh.step(emg2); - emg2notchfilter = filternotch.step(emg2highfilter); - emg2abs = fabs(emg2notchfilter); - emg2lowfilter = filterlow.step(emg2abs); +// Finding max values for correct motor switch +void get_max1(){ + if (max_reader1==0){ + green = !green; + red = 1; + blue = 1; + for(int n=0;n<2000;n++){ + + emg1 = emg1_in.read(); + emg1highfilter = filterhigh1.step(emg1); + emg1notchfilter = filternotch1.step(emg1highfilter); + emg1abs = fabs(emg1notchfilter); + emg1lowfilter = filterlow1.step(emg1abs); + emg1peak = filterpeak1.step(emg1lowfilter); + + if (max1<emg1peak){ + max1 = emg1peak; + } + wait(0.001f); + } + wait(0.2f); + green = 1; + } + maxpart1 = 0.35*max1; +} - /* Set the sampled emg values in channel 0 (the first channel) and 1 (the second channel) in the 'HIDScope' instance named 'scope' */ - scope.set(0, emg1_in.read() ); - scope.set(1, emg1lowfilter ); - scope.set(2, emgpeak ); - /* Finally, send all channels to the PC at once */ - scope.send(); - /* To indicate that the function is working, the LED is toggled */ - green = !green; +void get_max3(){ + if (max_reader3==0){ + green = 1; + blue = 1; + red = !red; + for(int n=0;n<2000;n++){ + + emg3 = emg3_in.read(); + emg3highfilter = filterhigh3.step(emg3); + emg3notchfilter = filternotch3.step(emg3highfilter); + emg3abs = fabs(emg3notchfilter); + emg3lowfilter = filterlow3.step(emg3abs); + emg3peak = filterpeak3.step(emg3lowfilter); + + if (max3<emg3peak){ + max3 = emg3peak; + } + wait(0.001f); + } + wait(0.2f); + red = 1; + } + maxpart3 = 0.3*max3; } -int main() -{ +// Filtering & Scope +void filter() { + // Right Biceps + emg1 = emg1_in.read(); + emg1highfilter = filterhigh1.step(emg1); + emg1notchfilter = filternotch1.step(emg1highfilter); + emg1abs = fabs(emg1notchfilter); + emg1lowfilter = filterlow1.step(emg1abs); + emg1peak = filterpeak1.step(emg1lowfilter); + // Left Biceps + emg2 = emg2_in.read(); + emg2highfilter = filterhigh2.step(emg2); + emg2notchfilter = filternotch2.step(emg2highfilter); + emg2abs = fabs(emg2notchfilter); + emg2lowfilter = filterlow2.step(emg2abs); + emg2peak = filterpeak2.step(emg2lowfilter); + // Left Lower Arm OR Triceps + emg3 = emg3_in.read(); + emg3highfilter = filterhigh3.step(emg3); + emg3notchfilter = filternotch3.step(emg3highfilter); + emg3abs = fabs(emg3notchfilter); + emg3lowfilter = filterlow3.step(emg3abs); + emg3peak = filterpeak3.step(emg3lowfilter); + + + /* Compare measurement to the calibrated value to decide actions */ + if (maxpart1<emg1peak){ + red = 0; + blue = 1; + green = 1; + } + else { + if (maxpart1<emg2peak){ + red = 1; + blue = 0; + green = 1; + } + + else { + if (maxpart3<emg2peak){ + red = 1; + blue = 1; + green = 0; + } + + else { + red = 1; + blue = 1; + green = 1; + } + } + } + /* Set the sampled emg values in channel 0 (the first channel) and 1 (the second channel) in the 'HIDScope' instance named 'scope' */ + scope.set(0, emg1peak ); + scope.set(1, emg2peak ); + scope.set(2, maxpart1 ); + scope.set(3, emg3peak ); + scope.set(4, maxpart3 ); + + scope.send(); +} - sample_timer.attach(&filter, 0.001); +int main(){ + main_timer.attach(&filter, 0.001); + max_read1.attach(&get_max1, 2); + max_read3.attach(&get_max3, 2); while(1) {} } \ No newline at end of file