..

Dependencies:   HIDScope MODSERIAL biquadFilter mbed

Revision:
14:fa09dae67390
Parent:
13:a3d4b4daf5b4
Child:
15:be67b090b64a
diff -r a3d4b4daf5b4 -r fa09dae67390 main.cpp
--- a/main.cpp	Mon Oct 22 08:35:21 2018 +0000
+++ b/main.cpp	Mon Oct 22 09:19:09 2018 +0000
@@ -8,8 +8,8 @@
 AnalogIn emg1_in            (A1);
 AnalogIn emg2_in            (A2);
 
-DigitalIn   button1         (D10);                  //Let op, is deze niet bezet? En 11? Even checken, als er een error komt, kan het hier zitten.
-DigitalIn   button2         (D11);
+InterruptIn button1         (SW2);                  //Let op, is deze niet bezet? En 11? Even checken, als er een error komt, kan het hier zitten.
+InterruptIn button2         (SW3);
 InterruptIn encoderA        (D9);
 InterruptIn encoderB        (D8);
 
@@ -32,17 +32,17 @@
 
 //EMG filter
 double emgfilter0, emgfilter1, emgfilter2;                                                       //Filtered EMG data 0, 1 and 2
-double windowsize = 150;                                                                         //Size of the array over which the moving average (MovAg) is calculated
+const int windowsize = 150;                                                                         //Size of the array over which the moving average (MovAg) is calculated
 double sum, sum1, sum2, sum3;                                                                    //variables used to sum elements in array
-double StoreArray0[sizeMovAg] = [], StoreArray1[sizeMoveAg] = [], StoreArray2[sizeMoveAg] = [];  //Empty arrays to calculate MoveAg
+double StoreArray0[windowsize], StoreArray1[windowsize], StoreArray2[windowsize];  //Empty arrays to calculate MoveAg
 double movAg0,movAg1,movAg2;                                                                     //outcome of MovAg
 
 //calibration
 int x = 0;
 int emg_cal = 0;
 const int sizeCal = 2000;
-double storeCal0[sizeCal] = [], storeCal1[sizeCal] = [], storeCal2[sizeCal] = [];
-double meanCal0,meanCal1,meanCal2;
+double StoreCal0[sizeCal], StoreCal1[sizeCal], StoreCal2[sizeCal];
+double Mean0,Mean1,Mean2;
 double Threshold0 = 1, Threshold1 = 1, Threshold2 = 1;
 
 
@@ -63,6 +63,8 @@
 BiQuad emg2band3( 1.00000e+00, -1.99999e+00, 9.99994e-01, -1.93552e+00, 9.39358e-01 );
 
 BiQuad notch1( 9.91104e-01, -1.60364e+00, 9.91104e-01, -1.60364e+00, 9.82207e-01 );                //Notch filter
+BiQuad notch2( 9.91104e-01, -1.60364e+00, 9.91104e-01, -1.60364e+00, 9.82207e-01 );                //Notch filter
+BiQuad notch3( 9.91104e-01, -1.60364e+00, 9.91104e-01, -1.60364e+00, 9.82207e-01 );                //Notch filter
 
 
 //Tickers
@@ -83,7 +85,7 @@
     double emg1          = emg1_in.read();
     double bandpass1     = emg1band.step(emg1);
     double absolute1     = fabs(bandpass1);
-    double notch1        = notch1.step(absolute1);
+    double notch1        = notch2.step(absolute1);
 }
 
 void EMGFilter2()
@@ -91,7 +93,7 @@
     double emg2          = emg2_in.read();
     double bandpass2     = emg2band.step(emg2);
     double absolute2     = fabs(bandpass2);
-    double notch2        = notch1.step(absolute2);
+    double notch2        = notch3.step(absolute2);
 }
 
 void MovAg()                                        //Calculate moving average (MovAg)
@@ -120,7 +122,7 @@
     
     movAg0 = sum1/windowsize;                        //calculates an average in the array
     movAg1 = sum2/windowsize;
-    movAg2 = sum3/sizeMovAg;
+    movAg2 = sum3/windowsize;
 }
 
 void emg_filtered()             //Call all filter functions
@@ -324,7 +326,7 @@
         {
                pwmpin2 = 0;
         }
-        if(emgfilter2>Thresheld2)
+        if(emgfilter2>Threshold2)
         {
                pwmpin1 = 1;
                pwmpin2 = 2;