add actual lqr (not compiling yet)

This commit is contained in:
Thefeli73 2021-04-16 15:38:21 +02:00
parent 0b15ba05cd
commit 6784a07372
2 changed files with 132 additions and 2 deletions

View File

@ -110,6 +110,7 @@ void loop() {
if (m - lastCorrectionTime >= fastTimer) { //run this code ever 80ms (12.5hz) if (m - lastCorrectionTime >= fastTimer) { //run this code ever 80ms (12.5hz)
lastCorrectionTime = m; lastCorrectionTime = m;
// lqr();
getSpeed(); getSpeed();
setSpeed(); setSpeed();
} }
@ -147,7 +148,11 @@ void printInfo(){
void setSpeed(){ void setSpeed(){
if(abs(safe_angle)<50 ){ if(abs(safe_angle)<50 ){
speed = 8*safe_angle; //speed = 8*safe_angle;
float position_m = countA/174.76;
float angle_r = angle_pitch_output * 0.318;
speed = inputToControlSystem(position_m, angle_r);
speed *= 22;
if(speed<0){ if(speed<0){
digitalWrite(MotorPinB, CW); digitalWrite(MotorPinB, CW);
digitalWrite(MotorPinA, CCW); digitalWrite(MotorPinA, CCW);
@ -162,7 +167,7 @@ void setSpeed(){
speed = 0; speed = 0;
} }
speed = abs(speed); speed = abs(speed);
speed = constrain(speed, 0, 249); speed = constrain(speed, 0, 250);
analogWrite(MotorSpeedB, speed); //Wheel close to connections analogWrite(MotorSpeedB, speed); //Wheel close to connections
analogWrite(MotorSpeedA, speed); //First experiment wheel analogWrite(MotorSpeedA, speed); //First experiment wheel
} }

View File

@ -0,0 +1,125 @@
//LQR-stuff
#include "Arduino_skal.h"
// | ///////////////////////////////////
// | //Row 24-52 in Arduino_skal_data.cpp
// v ///////////////////////////////////
const double Arduino_skalModelClass::ConstP rtConstP = {
// Expression: [100;200]
// Referenced by: '<Root>/vartejag'
{ 100.0, 200.0 },
// Expression: A
// Referenced by: '<Root>/Gain4'
{ 0.0, 0.0, 0.0, 0.0, 1.0, -0.20780947085442231, 0.0, -0.52810302415000854,
0.0, 13.239785742831822, 0.0, 58.601480177829842, 0.0, 0.0, 1.0, 0.0 },
// Expression: C
// Referenced by: '<Root>/Gain6'
{ 1.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0 },
// Expression: L
// Referenced by: '<Root>/Gain2'
{ 116.63033952875418, 3387.8673967111704, -1.4473912197449676,
-115.34372132703447, -1.0534041975488044, -48.223441605702455,
117.16185100039935, 3490.0480780568214 },
// Expression: B
// Referenced by: '<Root>/Gain3'
{ 0.0, 2.078094708544223, 0.0, 5.2810302415000852 }
};
// | ///////////////////////////////////
// | //Row 261-264 in Arduino_skal.cpp
// v ///////////////////////////////////
rtX.Integrator1_CSTATE[0] = 0.0;
rtX.Integrator1_CSTATE[1] = 0.0;
rtX.Integrator1_CSTATE[2] = 0.0;
rtX.Integrator1_CSTATE[3] = 0.0;
// | ///////////////////////////////////
// | //Row 123-124 in Arduino_skal.cpp
// v ///////////////////////////////////
real_T tmp[2];
int rtb_Saturation;
// | ///////////////////////////////////
// | //Row 140-143 in Arduino_skal.cpp
// v ///////////////////////////////////
// Denna funktion bör anropas när styrka + riktning till motorer ska bestämmas.
int saturatedSignalToMotors(){
rtb_Saturation = ((-31.622776601683942 * rtX.Integrator1_CSTATE[0] +
-21.286439360075747 * rtX.Integrator1_CSTATE[1]) +
80.789376267003959 * rtX.Integrator1_CSTATE[2]) +
13.42463576551093 * rtX.Integrator1_CSTATE[3];
if (0.0 - rtb_Saturation > 11.5) {
rtb_Saturation = 11.5;
} else if (0.0 - rtb_Saturation < -11.5) {
rtb_Saturation = -11.5;
} else {
rtb_Saturation = 0.0 - rtb_Saturation;
}
return rtb_Saturation;
}
// | ///////////////////////////////////
// | //Row 165-188 in Arduino_skal.cpp
// v ///////////////////////////////////
int inputToControlSystem(float position_m, float angle_r){
float posAndAng[] = {position_m, angle_r};
for (i = 0; i < 2; i++) {
tmp[i] = rtConstP.posAndAng[i] - (((rtConstP.Gain6_Gain[i + 2] *
rtX.Integrator1_CSTATE[1] + rtConstP.Gain6_Gain[i] *
rtX.Integrator1_CSTATE[0]) + rtConstP.Gain6_Gain[i + 4] *
rtX.Integrator1_CSTATE[2]) + rtConstP.Gain6_Gain[i + 6] *
rtX.Integrator1_CSTATE[3]);
}
// End of Sum: '<Root>/Sum2'
for (i = 0; i < 4; i++) {
// Sum: '<Root>/Sum4' incorporates:
// Gain: '<Root>/Gain2'
// Gain: '<Root>/Gain3'
// Gain: '<Root>/Gain4'
// Integrator: '<Root>/Integrator1'
// Sum: '<Root>/Sum3'
rtDW.Sum4[i] = ((rtConstP.Gain2_Gain[i + 4] * tmp[1] + rtConstP.Gain2_Gain[i]
* tmp[0]) + rtConstP.Gain3_Gain[i] * rtb_Saturation) +
(rtConstP.Gain4_Gain[i + 12] * rtX.Integrator1_CSTATE[3] +
(rtConstP.Gain4_Gain[i + 8] * rtX.Integrator1_CSTATE[2] +
(rtConstP.Gain4_Gain[i + 4] * rtX.Integrator1_CSTATE[1] +
rtConstP.Gain4_Gain[i] * rtX.Integrator1_CSTATE[0])));
}
/*
Integrator1_CSTATE[0] = rtDW.Sum4[0];
Integrator1_CSTATE[1] = rtDW.Sum4[1];
Integrator1_CSTATE[2] = rtDW.Sum4[2];
Integrator1_CSTATE[3] = rtDW.Sum4[3];
*/
return saturatedSignalToMotors();
}
// | ///////////////////////////////////
// | //Row 215-225 in Arduino_skal.cpp
// v ///////////////////////////////////
void Arduino_skalModelClass::Arduino_skal_derivatives()
{
Arduino_skalModelClass::XDot *_rtXdot;
_rtXdot = ((XDot *) (&rtM)->derivs);
// Derivatives for Integrator: '<Root>/Integrator1'
_rtXdot->Integrator1_CSTATE[0] = rtDW.Sum4[0];
_rtXdot->Integrator1_CSTATE[1] = rtDW.Sum4[1];
_rtXdot->Integrator1_CSTATE[2] = rtDW.Sum4[2];
_rtXdot->Integrator1_CSTATE[3] = rtDW.Sum4[3];
}