Dan August
/
EMGtovelocity
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EMGStdevV3
by 
Dan August
main.cpp
- Committer:
- DanAuhust
- Date:
- 2013-11-04
- Revision:
- 3:e609cd999fd2
- Parent:
- 1:1ffb9e3ae00f
- Child:
- 4:117c0bb09513
File content as of revision 3:e609cd999fd2:
#include "mbed.h"
#include "MODSERIAL.h"
//Define objects
AnalogIn emg_biceps(PTB0);
AnalogIn emg_triceps(PTB1);
AnalogIn emg_flexoren(PTB2);
AnalogIn emg_extensoren(PTB3); //Analog input
PwmOut red(LED_RED); //PWM output
Ticker timer;
MODSERIAL pc(USBTX,USBRX,64,1024);
#define offset_biceps 0 // offset ruwe invoer met adapter motoren, waar toepassen?
//high pass filter constantes 15Hz cutoff 4e orde, Fs = 312,5Hz (geeft een wat mooiere waarde voor periode en is geen veelvoud van 50Hz)
#define NUM0 0.6731 // constante
#define NUM1 -2.6925 // z^-1
#define NUM2 4.0388 // z^-2etc.
#define NUM3 -2.6925
#define NUM4 0.6731
#define DEN0 1 // constante
#define DEN1 -3.2133
#define DEN2 3.9348
#define DEN3 -2.1689
#define DEN4 0.4531
//lowpass filter constantes 4Hz 4e orde, Fs = 312,5 Hz
#define NUM0_3 0.00000236 // constante
#define NUM1_3 0.00000944 // z^-1
#define NUM2_3 0.00001415 // z^-2etc.
#define NUM3_3 0.00000944
#define NUM4_3 0.00000236
#define DEN0_3 1 // constante
#define DEN1_3 -3.7899
#define DEN2_3 5.3914
#define DEN3_3 -3.4119
#define DEN4_3 0.8104
float std_dev (float input, int sig_number){
// define variables
static int startcount=0;
float sum;
int size = 20;
float sig_out;
float mean;
static int count_biceps=0;
static int count_triceps=0;
static int count_flexoren=0;
static int count_extensoren=0;
static float keeper_biceps[20];
static float keeper_triceps[20];
static float keeper_flexoren[20];
static float keeper_extensoren[20];
if (startcount >= size)
{//ja, dan gewoon std dev nemen, want keeper is al vol
switch(sig_number){
case 1:
keeper_biceps[count_biceps]=input;
count_biceps++;
if(count_biceps >= size)
count_biceps=0;
//sizeof(keeper_biceps)/sizeof(float);
for(int i=0; i < size; i++)
{sum+=keeper_biceps[i];
}
mean=sum/size;
sum=0;
for(int i=0; i < size; i++)
{sum+=(keeper_biceps[i]-mean)*(keeper_biceps[i]-mean);
}
sig_out=sqrt(sum/size);
sum=0;
break;
case 2:
keeper_triceps[count_triceps]=input;
count_triceps++;
if(count_triceps==size)
count_triceps=0;
//sizeof(keeper_triceps) / sizeof(float);
for(int i=0; i < size; i++){
sum+=keeper_triceps[i];
}
mean=sum/size;
sum=0;
for(int i=0; i < size; i++){
sum+=(keeper_triceps[i]-mean)*(keeper_triceps[i]-mean);
}
sig_out=sqrt(sum/size);
sum=0;
break;
case 3:
keeper_flexoren[count_flexoren]=input;
count_flexoren++;
if(count_flexoren==size) count_flexoren=0;
//size=sizeof(keeper_flexoren)/sizeof(float);
for(int i=0; i < size; i++){
sum+=keeper_flexoren[i];
}
mean=sum/size;
sum=0;
for(int i=0; i < size; i++){
sum+=(keeper_flexoren[i]-mean)*(keeper_flexoren[i]-mean);
}
sig_out=sqrt(sum/size);
sum=0;
break;
case 4:
keeper_extensoren[count_extensoren]=input;
count_extensoren++;
if(count_extensoren==size) count_extensoren=0;
//size=sizeof(keeper_extensoren)/sizeof(float);
for(int i=0; i < size; i++){
sum+=keeper_extensoren[i];
}
mean=sum/size;
sum=0;
for(int i=0; i < size; i++){
sum+=(keeper_extensoren[i]-mean)*(keeper_extensoren[i]-mean);
}
sig_out=sqrt(sum/size);
sum=0;
break;
} // einde switch
return sig_out;
} // einde if startcount ...
else
{startcount+=1;
switch(sig_number){
case 1:
keeper_biceps[count_biceps]=input;
count_biceps++;
if(count_biceps >= size)
count_biceps=0;
break;
case 2:
keeper_triceps[count_triceps]=input;
count_triceps++;
if(count_triceps >= size)
count_triceps=0;
break;
case 3:
keeper_flexoren[count_flexoren]=input;
count_flexoren++;
if(count_flexoren >= size)
count_flexoren=0;
break;
case 4:
keeper_extensoren[count_extensoren]=input;
count_extensoren++;
if(count_extensoren >= size)
count_extensoren=0;
break;
} // einde switch
} // einde else
} // einde std_dev
float filter(int sig_number){
float sig_out;
// eerst variabelen definieren
//biceps
//filter 1
float in0_biceps =0;
static float in1_biceps =0, in2_biceps = 0, in3_biceps = 0, in4_biceps = 0;
static float out0_biceps = 0, out1_biceps = 0 , out2_biceps = 0, out3_biceps = 0, out4_biceps = 0;
//filter 3
float in0_3_biceps =0;
static float in1_3_biceps =0, in2_3_biceps = 0, in3_3_biceps = 0, in4_3_biceps = 0;
static float out0_3_biceps = 0, out1_3_biceps = 0 , out2_3_biceps = 0, out3_3_biceps = 0, out4_3_biceps = 0;
//triceps
//filter 1
float in0_triceps =0;
static float in1_triceps =0, in2_triceps = 0, in3_triceps = 0, in4_triceps = 0;
static float out0_triceps = 0, out1_triceps = 0 , out2_triceps = 0, out3_triceps = 0, out4_triceps = 0;
//filter 3
float in0_3_triceps =0;
static float in1_3_triceps =0, in2_3_triceps = 0, in3_3_triceps = 0, in4_3_triceps = 0;
static float out0_3_triceps = 0, out1_3_triceps = 0 , out2_3_triceps = 0, out3_3_triceps = 0, out4_3_triceps = 0;
//flexoren
//filter 1
float in0_flexoren =0;
static float in1_flexoren =0, in2_flexoren = 0, in3_flexoren = 0, in4_flexoren = 0;
static float out0_flexoren = 0, out1_flexoren = 0 , out2_flexoren = 0, out3_flexoren = 0, out4_flexoren = 0;
//filter 3
float in0_3_flexoren =0;
static float in1_3_flexoren =0, in2_3_flexoren = 0, in3_3_flexoren = 0, in4_3_flexoren = 0;
static float out0_3_flexoren = 0, out1_3_flexoren = 0 , out2_3_flexoren = 0, out3_3_flexoren = 0, out4_3_flexoren = 0;
//extensoren
//filter 1
float in0_extensoren =0;
static float in1_extensoren =0, in2_extensoren = 0, in3_extensoren = 0, in4_extensoren = 0;
static float out0_extensoren = 0, out1_extensoren = 0 , out2_extensoren = 0, out3_extensoren = 0, out4_extensoren = 0;
//filter 3
float in0_3_extensoren =0;
static float in1_3_extensoren =0, in2_3_extensoren = 0, in3_3_extensoren = 0, in4_3_extensoren = 0;
static float out0_3_extensoren = 0, out1_3_extensoren = 0 , out2_3_extensoren = 0, out3_3_extensoren = 0, out4_3_extensoren = 0;
switch(sig_number){
case 1:
// signaal filteren op 15 Hz HIGHPASS
in4_biceps = in3_biceps; in3_biceps = in2_biceps; in2_biceps = in1_biceps; in1_biceps = in0_biceps;
in0_biceps = emg_biceps.read() - offset_biceps;
out4_biceps = out3_biceps; out3_biceps = out2_biceps; out2_biceps = out1_biceps; out1_biceps = out0_biceps;
out0_biceps = (NUM0*in0_biceps + NUM1*in1_biceps + NUM2*in2_biceps + NUM3*in3_biceps + NUM4*in4_biceps - DEN1*out1_biceps - DEN2*out2_biceps - DEN3*out3_biceps - DEN4*out4_biceps ) / DEN0;
/*
//signaal filteren op 5Hz LOWPASS
in4_3_biceps = in3_3_biceps; in3_3_biceps = in2_3_biceps; in2_3_biceps = in1_3_biceps; in1_3_biceps = in0_3_biceps;
in0_3_biceps = abs(out0_biceps); // ruw - offset -> filter 1 -> stdev (-> filter 3)
out4_3_biceps = out3_3_biceps; out3_3_biceps = out2_3_biceps; out2_3_biceps = out1_3_biceps; out1_3_biceps = out0_3_biceps;
out0_3_biceps = (NUM0_3*in0_3_biceps + NUM1_3*in1_3_biceps + NUM2_3*in2_3_biceps + NUM3_3*in3_3_biceps + NUM4_3*in4_3_biceps - DEN1_3*out1_3_biceps - DEN2_3*out2_3_biceps - DEN3_3*out3_3_biceps - DEN4_3*out4_3_biceps ) / DEN0_3;
*/
sig_out = out0_biceps;
break;
case 2:
// signaal filteren op 15 Hz HIGHPASS
in4_triceps = in3_triceps; in3_triceps = in2_triceps; in2_triceps = in1_triceps; in1_triceps = in0_triceps;
in0_triceps = emg_triceps.read() - offset_biceps;
out4_triceps = out3_triceps; out3_triceps = out2_triceps; out2_triceps = out1_triceps; out1_triceps = out0_triceps;
out0_triceps = (NUM0*in0_triceps + NUM1*in1_triceps + NUM2*in2_triceps + NUM3*in3_triceps + NUM4*in4_triceps - DEN1*out1_triceps - DEN2*out2_triceps - DEN3*out3_triceps - DEN4*out4_triceps ) / DEN0;
//signaal filteren op 5Hz LOWPASS
/*in4_3_triceps = in3_3_triceps; in3_3_triceps = in2_3_triceps; in2_3_triceps = in1_3_triceps; in1_3_triceps = in0_3_triceps;
in0_3_triceps = abs(out0_triceps);
out4_3_triceps = out3_3_triceps; out3_3_triceps = out2_3_triceps; out2_3_triceps = out1_3_triceps; out1_3_triceps = out0_3_triceps;
out0_3_triceps = (NUM0_3*in0_3_triceps + NUM1_3*in1_3_triceps + NUM2_3*in2_3_triceps + NUM3_3*in3_3_triceps + NUM4_3*in4_3_triceps - DEN1_3*out1_3_triceps - DEN2_3*out2_3_triceps - DEN3_3*out3_3_triceps - DEN4_3*out4_3_triceps ) / DEN0_3;
*/
sig_out = out0_triceps;
break;
case 3:
// signaal filteren op 15 Hz HIGHPASS
in4_flexoren = in3_flexoren; in3_flexoren = in2_flexoren; in2_flexoren = in1_flexoren; in1_flexoren = in0_flexoren;
in0_flexoren = emg_flexoren.read();
out4_flexoren = out3_flexoren; out3_flexoren = out2_flexoren; out2_flexoren = out1_flexoren; out1_flexoren = out0_flexoren;
out0_flexoren = (NUM0*in0_flexoren + NUM1*in1_flexoren + NUM2*in2_flexoren + NUM3*in3_flexoren + NUM4*in4_flexoren - DEN1*out1_flexoren - DEN2*out2_flexoren - DEN3*out3_flexoren - DEN4*out4_flexoren ) / DEN0;
/*
//signaal filteren op 5Hz LOWPASS
in4_3_flexoren = in3_3_flexoren; in3_3_flexoren = in2_3_flexoren; in2_3_flexoren = in1_3_flexoren; in1_3_flexoren = in0_3_flexoren;
in0_3_flexoren = abs(out0_2_flexoren);
out4_3_flexoren = out3_3_flexoren; out3_3_flexoren = out2_3_flexoren; out2_3_flexoren = out1_3_flexoren; out1_3_flexoren = out0_3_flexoren;
out0_3_flexoren = (NUM0_3*in0_3_flexoren + NUM1_3*in1_3_flexoren + NUM2_3*in2_3_flexoren + NUM3_3*in3_3_flexoren + NUM4_3*in4_3_flexoren - DEN1_3*out1_3_flexoren - DEN2_3*out2_3_flexoren - DEN3_3*out3_3_flexoren - DEN4_3*out4_3_flexoren ) / DEN0_3;
*/
sig_out = out0_flexoren;
break;
case 4:
// signaal filteren op 15 Hz HIGHPASS
in4_extensoren = in3_extensoren; in3_extensoren = in2_extensoren; in2_extensoren = in1_extensoren; in1_extensoren = in0_extensoren;
in0_extensoren = emg_extensoren.read();
out4_extensoren = out3_extensoren; out3_extensoren = out2_extensoren; out2_extensoren = out1_extensoren; out1_extensoren = out0_extensoren;
out0_extensoren = (NUM0*in0_extensoren + NUM1*in1_extensoren + NUM2*in2_extensoren + NUM3*in3_extensoren + NUM4*in4_extensoren - DEN1*out1_extensoren - DEN2*out2_extensoren - DEN3*out3_extensoren - DEN4*out4_extensoren ) / DEN0;
/*
//signaal filteren op 5Hz LOWPASS
in4_3_extensoren = in3_3_extensoren; in3_3_extensoren = in2_3_extensoren; in2_3_extensoren = in1_3_extensoren; in1_3_extensoren = in0_3_extensoren;
in0_3_extensoren = abs(out0_2_extensoren);
out4_3_extensoren = out3_3_extensoren; out3_3_extensoren = out2_3_extensoren; out2_3_extensoren = out1_3_extensoren; out1_3_extensoren = out0_3_extensoren;
out0_3_extensoren = (NUM0_3*in0_3_extensoren + NUM1_3*in1_3_extensoren + NUM2_3*in2_3_extensoren + NUM3_3*in3_3_extensoren + NUM4_3*in4_3_extensoren - DEN1_3*out1_3_extensoren - DEN2_3*out2_3_extensoren - DEN3_3*out3_3_extensoren - DEN4_3*out4_3_extensoren ) / DEN0_3;
*/
sig_out = out0_extensoren;
break;
}
return sig_out;
}
void looper()
{ float emg_value_biceps;
float emg_value_triceps;
float emg_value_flexoren;
float emg_value_extensoren;
float dy;
//static int sig_count = 1;
emg_value_biceps=std_dev(filter(1),1);
emg_value_triceps=std_dev(filter(2),2);
/*emg_value_flexoren = (100*filter(3)-44);
emg_value_extensoren = (100*filter(4)-44);*/
if(emg_value_biceps < 4.5)
emg_value_biceps=0;
else if (emg_value_biceps > 13)
emg_value_biceps = 13;
//emg_value_biceps = emg_value_biceps;
if(emg_value_triceps < 2.5)
emg_value_biceps=0;
else if (emg_value_biceps > 10)
emg_value_biceps = 10;
//emg_value_triceps = emg_value_triceps;
if(emg_value_flexoren < 2)
emg_value_flexoren=0;
else if (emg_value_flexoren > 8)
emg_value_flexoren = 8;
emg_value_flexoren = 2*emg_value_flexoren;
if(emg_value_extensoren < 5)
emg_value_extensoren=0;
else if (emg_value_extensoren > 13)
emg_value_extensoren = 13;
dy = emg_value_biceps - emg_value_triceps;
dx = 2*(emg_value_flexoren - emg_value_extensoren);
if(pc.rxBufferGetSize(0)-pc.rxBufferGetCount() > 30)
pc.printf("%.6f, %.6f, %.6f\n",emg_value_biceps, emg_value_triceps, dy);
/**When not using the LED, the above could also have been done this way:
* pc.printf("%.6\n", emg0.read());
*/
}
int main()
{
/*setup baudrate. Choose the same in your program on PC side*/
pc.baud(115200);
/*set the period for the PWM to the red LED*/
red.period_ms(2);
/**Here you attach the 'void looper(void)' function to the Ticker object
* The looper() function will be called every 1/Fs seconds.
* Please mind that the parentheses after looper are omitted when using attach.
*/
timer.attach(looper,0.0032); //invullen in seconde. .0032 is niet eens afgerond, dus vandaar die frequentie.
while(1) //Loop
{
/*Empty!*/
/*Everything is handled by the interrupt routine now!*/
}
}