Bandpass, notch, abs en laagdoorlaat 3H
Dependencies: HIDScope MODSERIAL TextLCD mbed-dsp mbed
Fork of EMGmeten by
Diff: EMGmeten.cpp
- Revision:
- 4:7150ed6ce984
- Parent:
- 3:c82170d8b6c8
- Child:
- 5:f93b7068c202
diff -r c82170d8b6c8 -r 7150ed6ce984 EMGmeten.cpp --- a/EMGmeten.cpp Wed Oct 29 08:57:43 2014 +0000 +++ b/EMGmeten.cpp Wed Oct 29 16:12:34 2014 +0000 @@ -2,28 +2,46 @@ #include "HIDScope.h" #include "arm_math.h" #include "MODSERIAL.h" +#include "TextLCD.h" + +#define EMG_treshhold 0,05 //MODSERIAL pc(USBTX,USBRX); AnalogIn emg(PTB1); //Analog input -HIDScope scope(2); +HIDScope scope(2); // Twee kanalen op de HIDScope +DigitalIn knop(PTD4); /*Digital input pin (knop) definieren*/ +TextLCD lcd(PTD2, PTA12, PTB2, PTB3, PTC2, PTA13, TextLCD::LCD16x2); -arm_biquad_casd_df1_inst_f32 lowpass_1; //99Hz -arm_biquad_casd_df1_inst_f32 lowpass_2; //3Hz -arm_biquad_casd_df1_inst_f32 highpass; //20Hz -arm_biquad_casd_df1_inst_f32 notch; //50Hz +arm_biquad_casd_df1_inst_f32 lowpass_1; //2e orde lowpass biquad butterworthfilter 99Hz +arm_biquad_casd_df1_inst_f32 lowpass_2; //2e orde lowpass biquad butterworthfilter 3Hz +arm_biquad_casd_df1_inst_f32 highpass; //2e orde highpass biquad butterworthfilter 20Hz +arm_biquad_casd_df1_inst_f32 notch; //2e orde lowpass biquad butterworthfilter 50Hz float lowpass_1_const[] = {0.978030479206560 , 1.956060958413119 , 0.978030479206560 , -1.955578240315036 , -0.956543676511203}; float lowpass_1_states[4]; -float lowpass_2_const[] = {0.002080567135492 , 0.004161134270985 , 0.002080567135492 , 1.866892279711715 , -0.875214548253684}; +float lowpass_2_const[] = {0.002080567135492 , 0.004161134270985 , 0.002080567135492 , 1.866892279711715 , -0.875214548253684}; //3Hz + //{0.0009446914586925257 , 0.0018893829173850514 , 0.0009446914586925257 , 1.911196288237583 , -0.914975054072353};//2Hz + //{0.00024135899874854145 , 0.0004827179974970829 , 0.00024135899874854145 , 1.9555778328194147 , -0.9565432688144089}; 1Hz float lowpass_2_states[4]; float highpass_const[] = {0.638945525159022 , -1.277891050318045 , 0.638945525159022 , 1.142980502539901 , -0.412801598096189}; float highpass_states[4]; float notch_const[] = {0.978048948305681 , 0.000000000000000 , 0.978048948305681 , 0.000000000000000 , -0.956097896611362}; float notch_states[4]; +float filtered_emg; +float EMG_max = 0.16; +float EMG_treshhold_laag = 0.3*EMG_max; +float EMG_treshhold_hoog = 0.7*EMG_max; + +bool aanspan; +int aantal_pieken; + +void looper(); +void pieken_tellen(); +//char *lcd_r1 = new char[16]; +//char *lcd_r2 = new char[16]; void looper() { uint16_t emg_value; - float filtered_emg; float emg_value_f32; emg_value = emg.read_u16(); // read direct ADC result, converted to 16 bit integer (0..2^16 = 0..65536 = 0..3.3V) emg_value_f32 = emg.read(); @@ -34,6 +52,19 @@ filtered_emg = fabs(filtered_emg); //emg_value_f32 = fabs(emg_value_f32); arm_biquad_cascade_df1_f32(&lowpass_2, &filtered_emg, &filtered_emg, 1 ); + + void pieken_tellen(); + { + if (filtered_emg>=EMG_treshhold_hoog) + { + aanspan=true; //maak een variabele waarin je opslaat dat het signaal hoog is. + } + if (aanspan==true && filtered_emg<=EMG_treshhold_laag)//== ipv =, anders wordt aanspan true gemaakt + { + aanspan=false; + aantal_pieken++; + } + } scope.set(0,emg_value); //uint value scope.set(1,filtered_emg); //processed float @@ -53,10 +84,12 @@ while(1) //Loop { + lcd.cls(); + lcd.printf("Aantal pieken =\n%d", aantal_pieken); + wait(0.02); /*Empty!*/ /*Everything is handled by the interrupt routine now!*/ //pc.baud(9600); - //pc.printf("filtered_emg=%f\n\r",filtered_emg); } } \ No newline at end of file