Dominique Clevers
the slap
Dependencies: Encoder HIDScope MODSERIAL TextLCD mbed-dsp mbed
Fork of
The_SLAP_5_1
by 
Daan
main.cpp
- Committer:
- Daanmk
- Date:
- 2014-10-23
- Revision:
- 2:3bf615031d7a
- Parent:
- 1:96cd4c9c5465
- Child:
- 3:81a6009303a9
File content as of revision 2:3bf615031d7a:
/***************************************/
/* */
/* BRONCODE GROEP 5, MODULE 9, 2014 */
/* *****-THE SLAP-****** */
/* */
/* -Dominique Clevers */
/* -Rianne van Dommelen */
/* -Daan de Muinck Keizer */
/* -David den Houting */
/* -Marjolein Thijssen */
/***************************************/
#include "mbed.h"
#include "HIDScope.h"
#include "arm_math.h"
#include "encoder.h"
#include "MODSERIAL.h"
#include "TextLCD.h"
#define M2_PWM PTC8 //blauw
#define M2_DIR PTC9 //groen
#define M1_PWM PTA5 //kleine motor
#define M1_DIR PTA4 //kleine motor
#define TSAMP 0.005 // Sampletijd, 200Hz
TextLCD lcd(PTE5, PTE3, PTE2, PTB11, PTB10, PTB9, TextLCD::LCD16x2, NC, NC, TextLCD::HD44780); // rs, e, d4-d7 CONTROLEREN!! (Pinnen wel vrij :) )! //TextLCD lcd(p15, p16, p17, p18, p19, p20, TextLCD::LCD16x4); // rs, e, d4-d7 ok
Encoder motor2(PTD2,PTD0); //geel,wit kleine mtor
Encoder motor1(PTD5,PTA13);//geel,wit
PwmOut pwm_motor1(M1_PWM);
PwmOut pwm_motor2(M2_PWM);
DigitalOut motordir2(M2_DIR);
DigitalOut motordir1(M1_DIR);
AnalogIn emg0(PTB0); //Biceps
AnalogIn emg1(PTB1); //Triceps
HIDScope scope(6);
MODSERIAL pc(USBTX,USBRX,64,1024);
float emg0_value_f32,filtered_emg0_notch,filtered_emg0_notch_highpass,filtered_emg0_notch_highpass_lowpass,filtered_emg0_eindsignaal_abs,envelop_emg0; //variable to store value in for biceps
float emg1_value_f32,filtered_emg1_notch,filtered_emg1_notch_highpass,filtered_emg1_notch_highpass_lowpass,filtered_emg1_eindsignaal_abs,envelop_emg1; //variable to store value in for triceps
arm_biquad_casd_df1_inst_f32 notch_biceps;
arm_biquad_casd_df1_inst_f32 notch_triceps;
float notch_const[] = {0.9695312529087462, -0.0, 0.9695312529087462, 0.0, -0.9390625058174924}; //constants for 50Hz notch
float notch_biceps_states[4]; //state values
float notch_triceps_states[4];
arm_biquad_casd_df1_inst_f32 highpass_biceps;
arm_biquad_casd_df1_inst_f32 highpass_triceps;
//constants for 20Hz highpass
float highpass_const[] = {0.638945525159022, -1.277891050318045, 0.638945525159022, 1.142980502539901, -0.412801598096189};
//state values
float highpass_biceps_states[4];
float highpass_triceps_states[4];
//constants for 80Hz lowpass
arm_biquad_casd_df1_inst_f32 lowpass_biceps;
arm_biquad_casd_df1_inst_f32 lowpass_triceps;
float lowpass_const[] = {0.638945525159022, 1.277891050318045, 0.638945525159022, -1.142980502539901, -0.412801598096189};
//state values
float lowpass_biceps_states[4];
float lowpass_triceps_states[4];
arm_biquad_casd_df1_inst_f32 envelop_biceps;
arm_biquad_casd_df1_inst_f32 envelop_triceps;
float envelop_const[] = {0.005542711916075981, 0.011085423832151962, 0.005542711916075981, 1.7786300789392977, -0.8008009266036016};
float envelop_biceps_states[4];
float envelop_triceps_states[4];
enum slapstates {RUST,KALIBRATIE,RICHTEN,SLAAN};
uint8_t state=RUST;
void emgmeten(){
/*put raw emg value in emg_value*/
emg0_value_f32 = emg0.read();
emg1_value_f32 = emg1.read();
//process emg biceps
arm_biquad_cascade_df1_f32(¬ch_biceps, &emg0_value_f32, &filtered_emg0_notch, 1 );
arm_biquad_cascade_df1_f32(&highpass_biceps, &filtered_emg0_notch, &filtered_emg0_notch_highpass, 1 );
arm_biquad_cascade_df1_f32(&lowpass_biceps, &filtered_emg0_notch_highpass, &filtered_emg0_notch_highpass_lowpass, 1 );
filtered_emg0_eindsignaal_abs = fabs(filtered_emg0_notch_highpass_lowpass); //gelijkrichter
arm_biquad_cascade_df1_f32(&envelop_biceps, &filtered_emg0_eindsignaal_abs, &envelop_emg0, 1 );
//process emg triceps
arm_biquad_cascade_df1_f32(¬ch_triceps, &emg1_value_f32, &filtered_emg1_notch, 1 );
arm_biquad_cascade_df1_f32(&highpass_triceps, &filtered_emg1_notch, &filtered_emg1_notch_highpass, 1 );
arm_biquad_cascade_df1_f32(&lowpass_triceps, &filtered_emg1_notch_highpass, &filtered_emg1_notch_highpass_lowpass, 1 );
filtered_emg1_eindsignaal_abs = fabs(filtered_emg1_notch_highpass_lowpass); //gelijkrichter
arm_biquad_cascade_df1_f32(&envelop_triceps, &filtered_emg1_eindsignaal_abs, &envelop_emg1, 1 );
}
int main()
{
while(1) {
pc.baud(38400); //PC baud rate is 38400 bits/seconde
Ticker emg_timer;
emg_timer.attach(emgmeten, TSAMP);
arm_biquad_cascade_df1_init_f32(¬ch_biceps,1 , notch_const, notch_biceps_states);
arm_biquad_cascade_df1_init_f32(&highpass_biceps,1 ,highpass_const,highpass_biceps_states);
arm_biquad_cascade_df1_init_f32(&lowpass_biceps,1 ,lowpass_const,lowpass_biceps_states);
arm_biquad_cascade_df1_init_f32(¬ch_triceps,1 , notch_const, notch_triceps_states);
arm_biquad_cascade_df1_init_f32(&highpass_triceps,1 ,highpass_const,highpass_triceps_states);
arm_biquad_cascade_df1_init_f32(&lowpass_triceps,1 ,lowpass_const,lowpass_triceps_states);
arm_biquad_cascade_df1_init_f32(&envelop_triceps,1 ,envelop_const,envelop_triceps_states);
arm_biquad_cascade_df1_init_f32(&envelop_biceps,1 ,envelop_const,envelop_biceps_states);
switch(state) {
case RUST: { //Aanzetten
state = KALIBRATIE;
break;
}
case KALIBRATIE: {
lc.cls();
lcd.locate(0,0);
lcd.printf("Kalibratie"); //regel 1 LCD scherm
lcd.locate(0,1);
lcd.printf(""); //regel 2 LCD scherm
wait(1);
state = RICHTEN;
break;
}
case RICHTEN: { //Batje richten
lcd.printf("Richten");
wait(1);
state = SLAAN;
break;
}
case SLAAN: { //Balletje slaan
lcd.printf("Slaan!");
wait(1);
state = RICHTEN;
break;
}
default: {
state = RUST;
}
}
}
}