Mechatronics
Dydaktyka
Dependencies: FastPWM mbed-src
Fork of
2015_04_17_quadro_bez_sterowania
by 
Quadrocopter
main.cpp
- Committer:
- Michu90
- Date:
- 2015-01-29
- Revision:
- 9:4e94a16ca90c
- Parent:
- 8:dc48ce79ad59
- Child:
- 10:605b0bfadc2e
File content as of revision 9:4e94a16ca90c:
#include "mbed.h"
#include "FastPWM.h"
#include "kalman.h"
#include "Offsets.h"
#include "stdio.h"
#include "IMU.h"
#define PWM_period 2500
#define M_PI 3.141592
#define M_PI2 1.570796
#define dt 0.005
#define filtrWymiar 5
#define filtrSygnal roll
#define filtr2Wymiar 5
#define filtr2Sygnal pitch
#define filtr3Wymiar 100
#define filtr3Sygnal d[5]
//kalman
// Structs for containing filter data
kalman_data pitch_data;
kalman_data roll_data;
kalman_data pitch_data2;
kalman_data roll_data2;
DigitalOut myled(PTA2);
DigitalOut myled2(PTA1);
Serial pc(USBTX, USBRX);
Serial bluetooth(D1, D0);
IMU imu(PTE25,PTE24);
Offsets off;
InterruptIn event(PTB23);
FastPWM M1(D10);
FastPWM M2(D11);
FastPWM M3(D12);
FastPWM M4(D13);
Ticker triger1; //przerwanie filtracji
Ticker triger2; //kalibracja accelero
Ticker triger3; //kalibracja zyro
Ticker tachometer;
float d[9];
double D[9];
float o[3];
float O[3];
char buff[160];
float r,katx,katy;
float rbut,katxbut,katybut;
float pitch, roll;
float pitch2, roll2;
float pitchE, rollE;
double i;
float offsetGyro[3];
char odczyt[20];
char znak;
char znak2;
float Kp1,Td1,Kd1,Kp2,Td2,Kd2,Kp3,Td3,Kd3,Ti1,Ki1,Ti2,Ki2,Ti3,Ki3,T;
float U1,U2,U3;
float Om1,Om2,Om3,Om4;
float wyp1,wyp2,wyp3,wyp4;
int impulsA;
double PWM1zad;
double PWM2zad;
double PWM3zad;
double PWM4zad;
double valPWM1;
double valPWM2;
double valPWM3;
double valPWM4;
float T1zad,T2zad,T3zad,T4zad;
//zmienne tymczasowe
float katxzyro,katyzyro,katzzyro;
float fkompl;
float xmin, ymin, zmin;
float xmax, ymax, zmax;
float filtrBufor[filtrWymiar];
int filtrZmienna=0;
float filtrSuma=0;
float filtrWynik;
float filtr2Bufor[filtrWymiar];
int filtr2Zmienna=0;
float filtr2Suma=0;
float filtr2Wynik;
float filtr3Bufor[filtrWymiar];
int filtr3Zmienna=0;
float filtr3Suma=0;
float filtr3Wynik;
float kalmanpitchzyro;
float kalmanpitchzyrobut;
float kalmanrollzyro;
float kalmanrollzyrobut;
float kalmanpitchdryf;
int RPMtach;
float PWM4zadBuf[5];
float PWM4zadPoprz;
float PWM4zadWyn;
float RPMtachBuf[5];
int RPMtachPoprz;
int RPMtachAktualny;
float RPMtachWyn;
int RPMtachWynPoprz;
int iTach;
bool TachFlaga;
void rise(void)
{
//myled = !myled;
if(TachFlaga==1)impulsA++;
}
void task1()
{
//myled = !myled;
imu.readData(d);
imu.filterData(d, D);
off.offsetData(d,offsetGyro,o);
off.offsetData2(D,offsetGyro,O);
r = sqrt(pow(d[3],2) + pow(d[4],2) + pow(d[5],2));
katx = acos(d[4]/r)-M_PI2;
katy = acos(d[3]/r)-M_PI2;
/*rbut = sqrt(pow(D[3],2) + pow(D[4],2) + pow(D[5],2));
katxbut = acos(D[4]/rbut)-M_PI2;
katybut = acos(D[3]/rbut)-M_PI2;*/
//katxzyro = katxzyro + o[0]*dt;
//fkompl = katyzyro*0.95+ (-katy)*0.05;
//Filtr Kalmana
kalman_innovate(&pitch_data, katx, o[0]);
kalman_innovate(&roll_data, -katy, o[1]);
pitch = -pitch_data.x1;
kalmanpitchzyro = pitch_data.x2;
roll = roll_data.x1;
kalmanrollzyro = roll_data.x2;
/*
//Filtr Kalmana butterworth 2nd
kalman_innovate(&pitch_data2, katxbut, O[0]);
kalman_innovate(&roll_data2, -katybut, O[1]);
pitch2 = pitch_data2.x1;
kalmanpitchzyrobut = pitch_data2.x2;
roll2 = roll_data2.x1;
kalmanrollzyrobut = roll_data2.x2;*/
if (filtrZmienna < 0) {
filtrWynik = filtrSygnal;
filtrBufor[filtrZmienna + filtrWymiar] = filtrSygnal;
filtrSuma = filtrSuma + filtrBufor[filtrZmienna + filtrWymiar];
} else {
if (filtrZmienna == filtrWymiar - 1) {
filtrSuma = filtrSuma - filtrBufor[filtrZmienna];
filtrBufor[filtrZmienna] = filtrSygnal;
filtrSuma = filtrSuma + filtrBufor[filtrZmienna];
filtrWynik = filtrSuma / filtrWymiar;
} else {
filtrSuma = filtrSuma - filtrBufor[filtrZmienna];
filtrBufor[filtrZmienna] = filtrSygnal;
filtrSuma = filtrSuma + filtrBufor[filtrZmienna];
filtrWynik = filtrSuma / filtrWymiar;
}
}
filtrZmienna++;
if (filtrZmienna == filtrWymiar) {
filtrZmienna = 0;
}
roll = filtrWynik;
if (filtr2Zmienna < 0) {
filtr2Wynik = filtr2Sygnal;
filtr2Bufor[filtr2Zmienna + filtr2Wymiar] = filtr2Sygnal;
filtr2Suma = filtr2Suma + filtr2Bufor[filtr2Zmienna + filtr2Wymiar];
} else {
if (filtr2Zmienna == filtr2Wymiar - 1) {
filtr2Suma = filtr2Suma - filtr2Bufor[filtr2Zmienna];
filtr2Bufor[filtr2Zmienna] = filtr2Sygnal;
filtr2Suma = filtr2Suma + filtr2Bufor[filtr2Zmienna];
filtr2Wynik = filtr2Suma / filtr2Wymiar;
} else {
filtr2Suma = filtr2Suma - filtr2Bufor[filtr2Zmienna];
filtr2Bufor[filtr2Zmienna] = filtr2Sygnal;
filtr2Suma = filtr2Suma + filtr2Bufor[filtr2Zmienna];
filtr2Wynik = filtr2Suma / filtr2Wymiar;
}
}
filtr2Zmienna++;
if (filtr2Zmienna == filtr2Wymiar) {
filtr2Zmienna = 0;
}
pitch=filtr2Wynik;
//U1 = 0.0173*(Kp1*(-pitch2)+Kd1*(0-O[0]));
//U2 = 0.0169*(Kp2*((-20*M_PI/180)-roll2)+Kd2*(0-O[1]));
//U3 = 0.0333*(/*Kp3*((105*M_PI/180)-fYaw)+*/Kd3*(0-O[2])*180/M_PI);
//Om1 = 0.00576066*pow((PWM1zad-10000),2) - U2/0.000024768 + U3/0.000132 ; //kwadraty
//Om2 = 0.00576066*pow((PWM2zad-10000),2) + U1/0.000024768 - U3/0.000132 ;
//Om3 = 0.00576066*pow((PWM3zad-10000),2) + U2/0.000024768 + U3/0.000132 ;
//Om4 = 0.00576066*pow((PWM4zad-10000),2) - U1/0.000024768 - U3/0.000132 ;
/*wyp1 = sqrt(Om1)*13.17523+10000;
wyp2 = sqrt(Om2)*13.17523+10000;
wyp3 = sqrt(Om3)*13.17523+10000;
wyp4 = sqrt(Om4)*13.17523+10000;*/
// *********************** DISCRETE PID CONTROLLER **********************
// U1=Ixx*(Kp1*(katzad-kat)+Kd1*(omegazad-omega)+Ki1*sumauchyb)
// U2=Iyy*(Kp2*(katzad-kat)+Kd2*(omegazad-omega)+Ki2*sumauchyb)
// U3=Izz*(Kp3*(katzad-kat)+Kd3*(omegazad-omega)+Ki3*sumauchyb)
//omega1^2=(B1/b1*PWM1zad+C1/b1)-U2/2b1l+U3/4d
//omega2^2=(B2/b2*PWM2zad+C2/b2)+U1/2b2l-U3/4d
//omega3^2=(B3/b3*PWM3zad+C3/b3)+U2/2b3l+U3/4d
//omega4^2=(B4/b4*PWM4zad+C4/b4)-U1/2b4l-U3/4d
//wyp1=b/B1*omega1^2-C1/B1
//wyp2=b/B*omega2^2-C/B
//wyp3=b/B3*omega3^2-C3/B3
//wyp4=b/B*omega4^2-C/B
//b=0.000015
//B1=0.000776646
//C1=-0.334958973
//l=0.3
//d=0.000033
//2b1l=0.0000092780
//4d=0.000132
//B1/b1=50.22498189
//C1/b1=-21611.4954
//b1/B1=0.01991041
//C1/B1=-431.2892625
//1/B1=1287.588322
//2b2l=0.000009424
//B2/b2=51.130533
//C2/b2=-30717.00651
//b2/B2=0.019557786
//C2/B2=-600.7566265
//2b3l=0.000009139
//B3/b3=50.66613192
//C3/b3=-26072.99576
//b3/B3=0.01973705
//C3/B3=-514.6040317
//2b4l=0.000009276
//B4/b4=50.95680893
//C4/b4=-28979.76588
//b4/B4=0.019624463
//C4/B4=-568.7123367
//B*PWMzad+C=T
//PWMzad=1/B*T-C/B
/*
PWMzad1=1287.588322*T1zad-(-431.2892625);
PWMzad2=1245.207965*T2zad-(-600.7566265);
PWMzad3=1295.740776*T3zad-(-514.6040317);
PWMzad4=1269.412072*T4zad-(-568.7123367);*/
pitchE=pitchE+(0-pitch);
if(pitchE>3) pitchE=3;
if(pitchE<-3) pitchE=-3;
//Kd1=Kp1*Td1/T;
//if(Ti1==0){Ki1=0;}else Ki1=Kp1*T/Ti1;
rollE=rollE+(0-roll2);
if(rollE>5) rollE=5;
if(rollE<-5) rollE=-5;
//Kd2=Kp2*Td2/T;
//if(Ti2==0){Ki2=0;}else Ki2=Kp2*T/Ti2;
/* yawE=yawE+(0-roll2);
if(yawE>3) yawE=3;*/
Kd3=Kp3*Td3/T;
//if(Ti3==0){Ki3=0;}else Ki3=Kp3*T/Ti3;
U1 = 0.0173*(Kp1*(0-pitch)+Kd1*(0+kalmanpitchzyro)+Ki1*pitchE);
U2 = 0.0169*(Kp2*(0-roll)+Kd2*(0-o[1])+Ki2*rollE);
U3 = 0.0333*(/*Kp3*((105*M_PI/180)-fYaw)+*/Kd3*(0-o[2]));//+Ki3*rollE);
//U1 = 0.0346*(Kp1*(0-pitch)+Kd1*(0-(-kalmanpitchzyro))+Ki1*pitchE);
//U2 = 0.0338*(Kp2*(0-roll)+Kd2*(0-o[1])+Ki2*rollE);
//U3 = 0.0666*(/*Kp3*((105*M_PI/180)-fYaw)+*/Kd3*(0-O[2]));//+Ki3*rollE);
Om1 = 50.22498189*PWM1zad+(-21611.4954)-U2/0.0000092780 + U3/0.000132 ; //kwadraty
Om2 = 51.130533*PWM2zad+(-30717.00651)+U1/0.000009424 - U3/0.000132 ;
Om3 = 50.66613192*PWM3zad+(-26072.99576)+U2/0.000009139 + U3/0.000132 ;
Om4 = 50.95680893*PWM4zad+(-28979.76588)-U1/0.000009276 - U3/0.000132 ;
wyp1=0.01991041*Om1-(-431.2892625);
wyp2=0.019557786*Om2-(-600.7566265);
wyp3=0.01973705*Om3-(-514.6040317);
wyp4=0.019624463*Om4-(-568.7123367);
if(wyp1<=10001 || wyp1>40001) valPWM1=10000;
if(wyp1>=20000 && wyp1<40000) valPWM1=20000;
if(wyp1>10001 && wyp1<20000) valPWM1=(int)wyp1;
if(wyp2<=10001 || wyp2>40001) valPWM2=10000;
if(wyp2>=20000 && wyp2<40000) valPWM2=20000;
if(wyp2>10001 && wyp2<20000) valPWM2=(int)wyp2;
if(wyp3<=10001 || wyp3>40001) valPWM3=10000;
if(wyp3>=20000 && wyp3<40000) valPWM3=20000;
if(wyp3>10001 && wyp3<20000) valPWM3=(int)wyp3;
if(wyp4<=10001 || wyp4>40001) valPWM4=10000;
if(wyp4>=20000 && wyp4<40000) valPWM4=20000;
if(wyp4>10001 && wyp4<20000) valPWM4=(int)wyp4;
//sprintf(buff, "%f,%f,%f,%f\n\r", -katy*180/M_PI, roll*180/M_PI, -katybut*180/M_PI, roll2*180/M_PI);
//pc.printf(buff);
//sprintf(buff, "%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f\n\r", -katy, roll, -katybut, roll2, (d[0]*180/M_PI),(D[0]*180/M_PI),(d[1]*180/M_PI),(D[1]*180/M_PI),(o[0]*180/M_PI),(O[0]*180/M_PI),(o[1]*180/M_PI),(O[1]*180/M_PI));
//pc.printf(buff);
//sprintf(buff, "%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f\n\r", offsetGyro[0]*180/M_PI, offsetGyro[1]*180/M_PI, offsetGyro[2]*180/M_PI, roll2, (d[0]*180/M_PI),(D[0]*180/M_PI),(d[1]*180/M_PI),(D[1]*180/M_PI),(o[0]*180/M_PI),(O[0]*180/M_PI),(o[1]*180/M_PI),(O[1]*180/M_PI));
//pc.printf(buff);
//sprintf(buff, "%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f\n\r", -katy, roll, -katybut, roll2, (d[0]*180/M_PI),(D[0]*180/M_PI),(d[1]*180/M_PI),(D[1]*180/M_PI),(o[0]*180/M_PI),(O[0]*180/M_PI),(o[1]*180/M_PI),(O[1]*180/M_PI));
//pc.printf(buff);
M1.pulsewidth_us(valPWM1);
M2.pulsewidth_us(valPWM2);
M3.pulsewidth_us(valPWM3);
M4.pulsewidth_us(valPWM4);
//myled = !myled;
}
/*
void task2()
{
sprintf(buff, "%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f\n\r", -katy*180/M_PI, roll*180/M_PI, -katybut*180/M_PI, roll2*180/M_PI, katx*180/M_PI, pitch*180/M_PI, katxbut*180/M_PI, pitch2*180/M_PI,(o[0]*180/M_PI),(O[0]*180/M_PI),(o[1]*180/M_PI),(O[1]*180/M_PI));
pc.printf(buff);
myled2 = !myled2;
imu.readData(d);
if (filtrZmienna < 0) {
filtrWynik = filtrSygnal;
filtrBufor[filtrZmienna + filtrWymiar] = filtrSygnal;
filtrSuma = filtrSuma + filtrBufor[filtrZmienna + filtrWymiar];
} else {
if (filtrZmienna == filtrWymiar - 1) {
filtrSuma = filtrSuma - filtrBufor[filtrZmienna];
filtrBufor[filtrZmienna] = filtrSygnal;
filtrSuma = filtrSuma + filtrBufor[filtrZmienna];
filtrWynik = filtrSuma / filtrWymiar;
} else {
filtrSuma = filtrSuma - filtrBufor[filtrZmienna];
filtrBufor[filtrZmienna] = filtrSygnal;
filtrSuma = filtrSuma + filtrBufor[filtrZmienna];
filtrWynik = filtrSuma / filtrWymiar;
}
}
filtrZmienna++;
if (filtrZmienna == filtrWymiar) {
filtrZmienna = 0;
}
if (filtrWynik < xmin) xmin=filtrWynik;
if (filtrWynik > xmax) xmax=filtrWynik;
if (filtr2Zmienna < 0) {
filtr2Wynik = filtr2Sygnal;
filtr2Bufor[filtr2Zmienna + filtr2Wymiar] = filtr2Sygnal;
filtr2Suma = filtr2Suma + filtr2Bufor[filtr2Zmienna + filtr2Wymiar];
} else {
if (filtr2Zmienna == filtr2Wymiar - 1) {
filtr2Suma = filtr2Suma - filtr2Bufor[filtr2Zmienna];
filtr2Bufor[filtr2Zmienna] = filtr2Sygnal;
filtr2Suma = filtr2Suma + filtr2Bufor[filtr2Zmienna];
filtr2Wynik = filtr2Suma / filtr2Wymiar;
} else {
filtr2Suma = filtr2Suma - filtr2Bufor[filtr2Zmienna];
filtr2Bufor[filtr2Zmienna] = filtr2Sygnal;
filtr2Suma = filtr2Suma + filtr2Bufor[filtr2Zmienna];
filtr2Wynik = filtr2Suma / filtr2Wymiar;
}
}
filtr2Zmienna++;
if (filtr2Zmienna == filtr2Wymiar) {
filtr2Zmienna = 0;
}
if (filtr2Wynik < ymin) ymin=filtr2Wynik;
if (filtr2Wynik > ymax) ymax=filtr2Wynik;
if (filtr3Zmienna < 0) {
filtr3Wynik = filtr3Sygnal;
filtr3Bufor[filtr3Zmienna + filtr3Wymiar] = filtr3Sygnal;
filtr3Suma = filtr3Suma + filtr3Bufor[filtr3Zmienna + filtr3Wymiar];
} else {
if (filtr3Zmienna == filtr3Wymiar - 1) {
filtr3Suma = filtr3Suma - filtr3Bufor[filtr3Zmienna];
filtr3Bufor[filtr3Zmienna] = filtr3Sygnal;
filtr3Suma = filtr3Suma + filtr3Bufor[filtr3Zmienna];
filtr3Wynik = filtr3Suma / filtr3Wymiar;
} else {
filtr3Suma = filtr3Suma - filtr3Bufor[filtr3Zmienna];
filtr3Bufor[filtr3Zmienna] = filtr3Sygnal;
filtr3Suma = filtr3Suma + filtr3Bufor[filtr3Zmienna];
filtr3Wynik = filtr3Suma / filtr3Wymiar;
}
}
filtr3Zmienna++;
if (filtr3Zmienna == filtr3Wymiar) {
filtr3Zmienna = 0;
}
if (filtr3Wynik < zmin) zmin=filtr3Wynik;
if (filtr3Wynik > zmax) zmax=filtr3Wynik;
//sprintf(buff, "%f,%f,%f,%f\n\r", d[4],filtrWynik,ymin,ymax);
//pc.printf(buff);
}
void task3()
{
imu.readData(d);
off.offsetData(d,offsetGyro,o);
katxzyro = katxzyro + o[0]*dt;
katyzyro = katyzyro + o[1]*dt;
katzzyro = katzzyro + o[2]*dt;
r = sqrt(pow(d[3],2) + pow(d[4],2) + pow(d[5],2));
katx = acos(d[4]/r)-M_PI2;
katy = acos(d[3]/r)-M_PI2;
kalman_innovate(&pitch_data, katx, o[0]);
kalman_innovate(&roll_data, -katy, o[1]);
pitch = pitch_data.x1;
kalmanpitchzyro = pitch_data.x2;
kalmanpitchdryf = pitch_data.x3;
roll = roll_data.x1;
}
*/
void task_tachometer()
{
TachFlaga=0;
//PWM4zad+=100;
//M4.pulsewidth_us(PWM4zad);
wait(1.5f);
TachFlaga=1;
//myled2=!myled2;
RPMtach=impulsA*10; // dla T=3s
//RPMtach=impulsA*6; //dla T=5s
//RPMtach=impulsA*3; //dla T=10s
//RPMtachAktualny=impulsA*3;
/*
if (TachFlaga==1){
RPMtachBuf[iTach]=RPMtachAktualny;
iTach++;
if (iTach>3){
RPMtachWyn=(RPMtachBuf[iTach-1]+RPMtachBuf[iTach-2]+RPMtachBuf[iTach-3])/3;
RPMtachWynPoprz=RPMtachWyn;
PWM4zadWyn=PWM4zad;
TachFlaga=0;
iTach=0;
RPMtach=RPMtachAktualny;
}
}else{
if(abs(PWM4zadPoprz-PWM4zad)>0 && abs(RPMtachAktualny-RPMtachWynPoprz)>20){
TachFlaga=1;
}
//RPMtach=RPMtachAktualny;
PWM4zadPoprz=PWM4zad;
PWM4zad+=1;
M4.pulsewidth_us(PWM4zad);
//if(PWM4zad>14000)PWM4zad=10000;
}
sprintf(buff, "%f,%i,%f,%f\n\r", PWM4zad,RPMtachAktualny,PWM4zadWyn,RPMtachWyn);
pc.printf(buff);
*/
sprintf(buff, "%f,%i\n\r", PWM4zad,RPMtach);
pc.printf(buff);
//iTach++;
//if(iTach%2>0)PWM4zad+=1;
//M4.pulsewidth_us(PWM4zad);
//RPMtachWyn=0;
//PWM4zadWyn=0;
impulsA=0;
}
int main() {
pc.baud(115200);
bluetooth.baud(19200);
imu.init();
kalman_init(&pitch_data);
kalman_init(&roll_data);
kalman_init(&pitch_data2);
kalman_init(&roll_data2);
event.rise(&rise);
event.mode(PullUp);
event.enable_irq();
sprintf(buff, "Hello: \n\r");
pc.printf(buff);
//off.setOffsets(offsetGyro, bluetooth, imu);
//triger1.attach(&task1, 0.005);
//triger2.attach(&task2, 0.005);
//triger3.attach(&task3, 0.005);
tachometer.attach(&task_tachometer, 4.5);
i=1000;
PWM1zad=10000;
PWM2zad=10000;
PWM3zad=10000;
PWM4zad=10000;
M1.period_us(PWM_period);
M1.pulsewidth_us(PWM1zad);
M2.period_us(PWM_period);
M2.pulsewidth_us(PWM2zad);
M3.period_us(PWM_period);
M3.pulsewidth_us(PWM3zad);
M4.period_us(PWM_period);
M4.pulsewidth_us(PWM4zad);
/*Kp1=10;
Kp2=8;
Kp3=0;
Kd1=8;
Kd2=16;
Kd3=5000;
Ki1=0.1;
Ki2=0.2;
Ki3=0;
Td1=0;
Td2=0;
Td3=0;
Ti1=0;
Ti2=0;
Ti3=0;
T=0.005;*/
Kp1=0;
Kp2=0;
Kp3=0;
Kd1=0;
Kd2=0;
Kd3=0;
Ki1=0;
Ki2=0;
Ki3=0;
Td1=0;
Td2=0;
Td3=0;
Ti1=0;
Ti2=0;
Ti3=0;
T=0.005;
rollE=0;
katxzyro = 0;
katyzyro = 0;
katzzyro = 0;
iTach=0;
TachFlaga=0;
while(1) {
//myled2 = !myled2;
//sprintf(buff, "%f,%f,%f,0,%f,%f,%f,%f,%f,%f,\n\r", -katybut*180/M_PI, roll2*180/M_PI, (O[1]*180/M_PI),valPWM1,valPWM3,Kp2,Kd2,Ki2,rollE);
//pc.printf(buff);
//sprintf(buff, "%f,%f,%f,%f,%f,%f,%f\n\r", -katybut*180/M_PI, roll2*180/M_PI, (O[1]*180/M_PI), -katy*180/M_PI, roll*180/M_PI, o[1]*180/M_PI,valPWM3);
//pc.printf(buff);
//sprintf(buff, "%f,%f,%f,%f,%f\n\r", -katy*180/M_PI, roll*180/M_PI, katzyro*180/M_PI, fkompl*180/M_PI,roll2*180/M_PI);
//pc.printf(buff);
//sprintf(buff, "%f,%f,%f,%f,%f,%f,%f,%f,%f\n\r", d[3],d[4],d[5],xmin,xmax,ymin,ymax,zmin,zmax);
//pc.printf(buff);
//sprintf(buff, "%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f,%f\n\r", d[3],filtrWynik,d[4],filtr2Wynik,d[5],filtr3Wynik,xmin,xmax,ymin,ymax,zmin,zmax);
//pc.printf(buff);
//sprintf(buff, "%f,%f,%f\n\r", d[0],d[1],d[2]);
//pc.printf(buff);
//sprintf(buff, "0,%f,%f,%f,%f,%f,%f,\n\r", -katy*180/M_PI,roll*180/M_PI,-katybut*180/M_PI,roll2*180/M_PI,kalmanrollzyro*180/M_PI,kalmanrollzyrobut*180/M_PI);
//pc.printf(buff);
//sprintf(buff, "0,%f,%f,%f,%f,%f,%f,%f,%f,%f\n\r", pitch*180/M_PI,pitch2*180/M_PI,o[0]*180/M_PI,valPWM2,valPWM4,Kp1,Kd1,Ki1,pitchE*180/M_PI);
//pc.printf(buff);
//sprintf(buff, "0,%f,%f,%f,%f,%f,%f,%f\n\r", katx*180/M_PI,pitch*180/M_PI,o[0]*180/M_PI,PWM2zad,valPWM2,PWM4zad,valPWM4);
//pc.printf(buff);
//sprintf(buff, "0,%f,%f,%f,%f,%f,%f,%f,%f,%f\n\r", pitch*180/M_PI, -kalmanpitchzyro*180/M_PI,Kd1,Kp1,Ki1);
//pc.printf(buff);
//sprintf(buff, "%f,%f,%f,%f,%f\n\r", valPWM4,RPMtach,valPWM3,valPWM2,valPWM1);
//pc.printf(buff);
//sprintf(buff, "%f,%f,%f,%f,%f,%f\n\r", katx*180/M_PI,pitch*180/M_PI,katxzyro*180/M_PI,o[0]*180/M_PI,kalmanpitchzyro*180/M_PI,kalmanpitchdryf*180/M_PI);
//pc.printf(buff);
//myled2 = !myled2;
if(pc.readable()){
znak=pc.getc();
switch (znak){
case 'r':
sprintf(buff, "Resetuje zmienne %c\n\r",znak);
pc.printf(buff);
xmin=0;
ymin=0;
zmin=0;
xmax=0;
ymax=0;
zmax=0;
break;
case 't':
PWM4zad++;
M4.pulsewidth_us(PWM4zad);
break;
case 'g':
PWM4zad--;
M4.pulsewidth_us(PWM4zad);
break;
case 'y':
PWM4zad+=10;
M4.pulsewidth_us(PWM4zad);
break;
case 'h':
PWM4zad-=10;
M4.pulsewidth_us(PWM4zad);
break;
case 'u':
PWM4zad+=100;
M4.pulsewidth_us(PWM4zad);
break;
case 'j':
PWM4zad-=100;
M4.pulsewidth_us(PWM4zad);
break;
case 's':
PWM4zad=10000;
M4.pulsewidth_us(PWM4zad);
break;
case 'b':
PWM4zad=10000;
M4.pulsewidth_us(PWM4zad);
break;
/*case 'u':
PWM1zad+=10;
M1.pulsewidth_us(PWM1zad);
break;
case 'j':
PWM1zad-=10;
M1.pulsewidth_us(PWM1zad);
break;*/
}
znak=0;
}
if(bluetooth.readable()){
znak2=bluetooth.getc();
switch (znak2){
case 'a':
/*T1zad-=0.05;
T2zad-=0.05;
T3zad-=0.05;
T4zad-=0.05;
PWM1zad=1287.588322*T1zad-(-431.2892625)+10000;
PWM2zad=1245.207965*T2zad-(-600.7566265)+10000;
PWM3zad=1295.740776*T3zad-(-514.6040317)+10000;
PWM4zad=1269.412072*T4zad-(-568.7123367)+10000;*/
//PWM3zad-=50;
PWM4zad-=50;
//PWM2zad=1.045*(PWM4zad-10000)+10000;
//PWM1zad=1.026*(PWM3zad-10000)+10000;
//PWM1zad=1.026*(PWM3zad-10000)+10000;
//PWM1zad-=50;
if(PWM1zad<10000){
PWM1zad=10000;
PWM2zad=10000;
PWM3zad=10000;
PWM4zad=10000;
}
//ustawianie
M1.pulsewidth_us(PWM1zad);
M2.pulsewidth_us(PWM2zad);
M3.pulsewidth_us(PWM3zad);
M4.pulsewidth_us(PWM4zad);
znak2=0;
break;
case 'b':
/*T1zad+=0.05;
T2zad+=0.05;
T3zad+=0.05;
T4zad+=0.05;
PWM1zad=1287.588322*T1zad-(-431.2892625)+10000;
PWM2zad=1245.207965*T2zad-(-600.7566265)+10000;
PWM3zad=1295.740776*T3zad-(-514.6040317)+10000;
PWM4zad=1269.412072*T4zad-(-568.7123367)+10000;*/
//PWM3zad+=50;
PWM4zad+=50;
//PWM2zad=1.045*(PWM4zad-10000)+10000;
//PWM3zad+=50;
//PWM1zad=1.026*(PWM3zad-10000)+10000;
//PWM1zad+=50;
if(PWM1zad>=20000){
PWM1zad=20000;
PWM2zad=20000;
PWM3zad=20000;
PWM4zad=20000;
}
//ustawianie
M1.pulsewidth_us(PWM1zad);
M2.pulsewidth_us(PWM2zad);
M3.pulsewidth_us(PWM3zad);
M4.pulsewidth_us(PWM4zad);
znak2=0;
break;
case 'x':
//sprintf(buff,"Nastawy: %f,%f\n\r",Kp2,Kd2);
//pc.printf(buff);
//wait(1.0f);
PWM1zad=10000;
PWM2zad=10000;
PWM3zad=10000;
PWM4zad=10000;
M1.pulsewidth_us(PWM1zad);
M2.pulsewidth_us(PWM2zad);
M3.pulsewidth_us(PWM3zad);
M4.pulsewidth_us(PWM4zad);
sprintf(buff,"Odlacz silniki\n\r");
pc.printf(buff);
wait(1.0f);
sprintf(buff,"5 \n\r");
pc.printf(buff);
wait(1.0f);
sprintf(buff,"4 \n\r");
pc.printf(buff);
wait(1.0f);
sprintf(buff,"3 \n\r");
pc.printf(buff);
wait(1.0f);
sprintf(buff,"2 \n\r");
pc.printf(buff);
wait(1.0f);
sprintf(buff,"1 \n\r");
pc.printf(buff);
wait(1.0f);
sprintf(buff,"GO! \n\r");
pc.printf(buff);
break;
case 'c':
Kd1-=0.5;
Kd2-=0.5;
break;
case 'd':
Kd1+=0.5;
Kd2+=0.5;
break;
case 'e':
Kp1-=0.5;
Kp2-=0.5;
break;
case 'f':
Kp1+=0.5;
Kp2+=0.5;
break;
case 'g':
Ki1-=0.1;
Ki2-=0.1;
break;
case 'h':
Ki1+=0.1;
Ki2+=0.1;
break;
}
}
//myled2 = !myled2;
}
}