Daniqe Kottelenberg
/
Wubs_demo
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Dependencies: HIDScope MODSERIAL QEI biquadFilter mbed
Fork of
a_pid_kal_end_def
by 
Floor Couwenberg
Diff: main.cpp
- Revision:
- 23:123d65f76236
- Parent:
- 22:eb8411807cca
- Child:
- 24:bfc240e381b4
diff -r eb8411807cca -r 123d65f76236 main.cpp
--- a/main.cpp Tue Oct 25 13:40:55 2016 +0000
+++ b/main.cpp Tue Oct 25 14:29:09 2016 +0000
@@ -2,24 +2,33 @@
#include "mbed.h"
#include "HIDScope.h"
#include "BiQuad.h"
+#include "MODSERIAL.h"
//Define objects
AnalogIn emg_biceps_right_in( A0 ); //analog in to get EMG biceps (r) in to c++
AnalogIn emg_triceps_right_in(A1); //analog in to get EMG triceps (r) in to c++
-//AnalogIn emg_biceps_left_in (A2); //analog in to get EMG biceps (l) in to c++
+AnalogIn emg_biceps_left_in (A2); //analog in to get EMG biceps (l) in to c++
Ticker sample_timer; //ticker
-HIDScope scope(6); //open 3 channels in hidscope
-DigitalOut richting_motor1(D4); //motor1 direction output
-PwmOut pwm_motor1(D5); //motor1 velocity output
+Ticker switch_function; //ticker
+HIDScope scope(5); //open 3 channels in hidscope
+MODSERIAL pc(USBTX, USBRX); //pc connection
+
+//motors
+DigitalOut richting_motor1(D4);
+PwmOut pwm_motor1(D5);
+DigitalOut richting_motor2(D7);
+PwmOut pwm_motor2(D6);
DigitalOut led(LED_GREEN); //led included to check where code is
//define variables
//other
int onoffsignal_rightarm=0; // on/off signal: 1; biceps activation, 0: nothing, -1, triceps activation
+int switch_signal_leftarm=0; // switching between motors.
double cut_off_value_biceps =0.06; //gespecificeerd door floortje
double cut_off_value_triceps=-0.03; //gespecificeerd door floortje
double signal_right_arm;
-
+int n = 0; //start van de teller wordt op nul gesteld
+
//biceps arm 1, right arm
double emg_biceps_right;
double emg_filtered_high_biceps_right;
@@ -36,19 +45,46 @@
double emg_filtered_high_notch_1_triceps_right;
double emg_filtered_high_notch_1_2_triceps_right;
+//biceps arm 1, left arm
+double emg_biceps_left;
+double emg_filtered_high_biceps_left;
+double emg_abs_biceps_left;
+double emg_filtered_biceps_left;
+double emg_filtered_high_notch_1_biceps_left;
+double emg_filtered_high_notch_1_2_biceps_left;
+
//before abs filtering
+
+//b1 = biceps right arm
BiQuad filterhigh_b1(9.5654e-01,-1.9131e+00,9.5654e-01,-1.9112e+00,9.1498e-01);
BiQuad filternotch1_b1 (9.9115e-01, -1.8853e+00, 9.9115e-01 ,-1.8909e+00 , 9.9103e-01);
BiQuad filternotch2_b1(1.0000e+00, -1.9022e+00, 1.0000e+00, -1.8965e+00 , 9.9127e-01);
+
+//t1= triceps right arm
BiQuad filterhigh_t1(9.5654e-01,-1.9131e+00,9.5654e-01,-1.9112e+00,9.1498e-01);
BiQuad filternotch1_t1 (9.9115e-01, -1.8853e+00, 9.9115e-01 ,-1.8909e+00 , 9.9103e-01);
BiQuad filternotch2_t1(1.0000e+00, -1.9022e+00, 1.0000e+00, -1.8965e+00 , 9.9127e-01);
+//b2= biceps left arm
+BiQuad filterhigh_b2(9.5654e-01,-1.9131e+00,9.5654e-01,-1.9112e+00,9.1498e-01);
+BiQuad filternotch1_b2 (9.9115e-01, -1.8853e+00, 9.9115e-01 ,-1.8909e+00 , 9.9103e-01);
+BiQuad filternotch2_b2(1.0000e+00, -1.9022e+00, 1.0000e+00, -1.8965e+00 , 9.9127e-01);
+
//after abs filtering
BiQuad filterlow_b1 (6.2942e-06, 1.2588e-05,6.2942e-06,-1.9929e+00,9.9292e-01);
BiQuad filterlow_t1 (6.2942e-06, 1.2588e-05,6.2942e-06,-1.9929e+00,9.9292e-01);
+BiQuad filterlow_b2 (6.2942e-06, 1.2588e-05,6.2942e-06,-1.9929e+00,9.9292e-01);
+//function teller
+void SwitchN() { // maakt simpele functie die 1 bij n optelt
+ if(switch_signal_leftarm==1)
+ {
+ n++;
+ }
+ }
+
//functions which are called in ticker to sample the analog signal
+
void filter(){
//biceps right arm read+filtering
emg_biceps_right=emg_biceps_right_in.read(); //read the emg value from the elektrodes
@@ -66,10 +102,18 @@
emg_abs_triceps_right=fabs(emg_filtered_high_notch_1_2_triceps_right); //fabs because float
emg_filtered_triceps_right=filterlow_t1.step(emg_abs_triceps_right);
+ //biceps left arm read+filtering
+ emg_biceps_left=emg_biceps_left_in.read(); //read the emg value from the elektrodes
+ emg_filtered_high_biceps_left= filterhigh_b2.step(emg_biceps_left);
+ emg_filtered_high_notch_1_biceps_left=filternotch1_b2.step(emg_filtered_high_biceps_left);
+ emg_filtered_high_notch_1_2_biceps_left=filternotch2_b2.step(emg_filtered_high_notch_1_biceps_left);
+ emg_abs_biceps_left=fabs(emg_filtered_high_notch_1_2_biceps_left); //fabs because float
+ emg_filtered_biceps_left=filterlow_b2.step(emg_abs_biceps_left);
+
//signal substraction of filter biceps and triceps. Biceps +,triceps -
signal_right_arm=emg_filtered_biceps_right-emg_filtered_triceps_right;
- //creating of on/off signal with the created on/off signals, with if statement
+ //creating of on/off signal with the created on/off signals, with if statement for right arm!
if (signal_right_arm>cut_off_value_biceps)
{onoffsignal_rightarm=1;}
@@ -81,13 +125,25 @@
else
{onoffsignal_rightarm=0;}
+ //creating on/off signal for switch (left arm)
+
+ if (emg_filtered_biceps_left>cut_off_value_biceps)
+ {
+ switch_signal_leftarm=1;
+ }
+
+ else
+ {
+ switch_signal_leftarm=0;
+ }
+
//send signals to scope
scope.set(0, emg_filtered_biceps_right); //set emg signal to scope in channel 0
scope.set(1, emg_filtered_triceps_right); // set emg signal to scope in channel 1
- scope.set(2, signal_right_arm); // set emg signal to scope in channel 2
+ scope.set(2, emg_filtered_biceps_left); // set emg signal to scope in channel 2
scope.set(3, onoffsignal_rightarm); // set emg signal to scope in channel 3
- scope.set(4, emg_biceps_right);
- scope.set(5, emg_triceps_right);
+ scope.set(4, switch_signal_leftarm);
+
scope.send(); //send all the signals to the scope
}
@@ -95,31 +151,59 @@
int main()
{
+pc.baud(115200);
sample_timer.attach(&filter, 0.001); //continously execute the EMG reader and filter, it ensures that filter and sampling is executed every 1/frequency seconds
-
+switch_function.attach(&SwitchN,0.001);
//endless loop
- while(1)
- {
- if (onoffsignal_rightarm==1)
- {
- richting_motor1 = -1; //motordirection (ccw)
- pwm_motor1 = 1; //motorspeed 1
-
- }
- else if(onoffsignal_rightarm==-1)
- {
- richting_motor1 = 1; //motordirection (cw)
- pwm_motor1 = 1; //motorspeed 1
- }
-
- else if(onoffsignal_rightarm==0)
- {
- richting_motor1 = -1; //motordirection (ccw)
- pwm_motor1 = 0; //motorspeed 0
-
- }
-
- }
+ while (true) { // zorgt er voor dat de code oneindig doorgelopen wordt
+
+ if (onoffsignal_rightarm==-1) // als s ingedrukt wordt gebeurd het volgende
+ {
+ if (n%2==0) // als s ingedrukt wordt en het getal is even gebeurd het onderstaande
+ {
+ pc.printf("n is even \n\r"); // print lijn "n is even"
+ pc.printf("up \n\r"); // print lijn "up"
+ richting_motor1 = 1;
+ pwm_motor1 = 1;
+
+ }
+
+ else // als s is ingedrukt maar het getal is niet even (dus oneven) gebeurdt het onderstaande
+ {
+ pc.printf("n is odd \n\r"); // print lijn "n is odd"
+ pc.printf("left \n\r"); // print lijn "left"
+ richting_motor2 = 1;
+ pwm_motor2 = 1;
+
+ }
+
+ }
+ else if (onoffsignal_rightarm==1) // als d ingedrukt wordt gebeurd het volgende
+ {
+ if (n%2==0) // als d is ingedrukt en n is even dan gebeurd het volgende
+ {
+ pc.printf("n is even \n\r"); // print lijn "n is even"
+ pc.printf("down \n\r"); // print lijn "down"
+ richting_motor1 = -1;
+ pwm_motor1 = 1;
+
+ }
+ else // als d is ingedrukt maar het getal is niet even (dus oneven) gebeurdt het onderstaande
+ {
+ pc.printf("n is odd \n\r"); // print lijn "n is odd"
+ pc.printf("right \n\r"); // print lijn "right"
+ richting_motor2 = -1;
+ pwm_motor2 = 1;
+
+ }
+ }
+ else{
+ pc.printf("motor staat stil \n\r");
+ pwm_motor2=0;
+ pwm_motor1=0;
+ }
+
+}
}
\ No newline at end of file