EENX15/EENX15_LQR/LQR.ino

//LQR.ino

const double matrix_A [16] = { 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 };

const double matrix_C [8] = { 1.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0 };

const double matrix_L [8] = { 56.7847, 799.5294, -1.4914, -57.4160, 
  -1.0363, -16.1071, 57.0075, 870.8172 };
const double matrix_L_old [8] = { 116.63033952875418, 3387.8673967111704, -1.4473912197449676,
    -115.34372132703447, -1.0534041975488044, -48.223441605702455,
    117.16185100039935, 3490.0480780568214 };

const double matrix_B [4] = { 0.0, 2.078094708544223, 0.0, 5.2810302415000852 };


const double matrix_K_old [4] = {-31.622776601683942,   -21.286439360075747,   80.789376267003959,    13.42463576551093};
const double matrix_K [4] = {-0.0316,   -0.3938,   22.9455,    3.0629};

double Integrator1_CSTATE [4] = {0.0, 0.0, 0.0, 0.0};
double Sum3[4];
double Sum4[4];

double tmp[2];
double rtb_Saturation = 0.0;
double saturatedSignalToMotors(){
  rtb_Saturation = ((matrix_K[0] * Integrator1_CSTATE[0] +
             matrix_K[1] * Integrator1_CSTATE[1]) +
             matrix_K[2] * Integrator1_CSTATE[2]) +
             matrix_K[3] * Integrator1_CSTATE[3];
  
  if (0.0 - rtb_Saturation > 11.5) {
    rtb_Saturation = 3.0;
  } else if (0.0 - rtb_Saturation < -11.5) {
    rtb_Saturation = -3.0;
  } else {
    rtb_Saturation = 0.0 - rtb_Saturation;
  }
  Serial.print("Saturation  = "); Serial.println(rtb_Saturation);
  return rtb_Saturation;
}
double inputToControlSystem(float position_m, float angle_r){
  float posAndAng[] = {position_m, angle_r};
  for (int i = 0; i < 2; i++) {
    tmp[i] = posAndAng[i] - (((matrix_C[i + 2] *
      Integrator1_CSTATE[1] + matrix_C[i] *
      Integrator1_CSTATE[0]) + matrix_C[i + 4] *
      Integrator1_CSTATE[2]) + matrix_C[i + 6] *
      Integrator1_CSTATE[3]);
  }
  for (int i = 0; i < 4; i++) {
  
  
    Sum3[i] = ((matrix_L[i + 4] * tmp[1] + matrix_L[i]
            * tmp[0]) + matrix_B[i] * rtb_Saturation);
      
    Sum4[i] = Sum3[i] +
            (matrix_A[i + 12] * Integrator1_CSTATE[3] +
            (matrix_A[i + 8] * Integrator1_CSTATE[2] +
            (matrix_A[i + 4] * Integrator1_CSTATE[1] +
            matrix_A[i] * Integrator1_CSTATE[0])));
  }
  Serial.print("Sum3 0 = "); Serial.println(Sum3[0]);
  Serial.print("Sum3 1 = "); Serial.println(Sum3[1]);
  Serial.print("Sum3 2 = "); Serial.println(Sum3[2]);
  Serial.print("Sum3 3 = "); Serial.println(Sum3[3]);
  
  Serial.print("Sum4 0 = "); Serial.println(Sum4[0]);
  Serial.print("Sum4 1 = "); Serial.println(Sum4[1]);
  Serial.print("Sum4 2 = "); Serial.println(Sum4[2]);
  Serial.print("Sum4 3 = "); Serial.println(Sum4[3]);
  
  Arduino_skal_derivatives();
  return saturatedSignalToMotors();
}
void Arduino_skal_derivatives()
{
  for (int i = 0; i < 4; i++) {
    Integrator1_CSTATE[i] = Sum4[i] * fastTimer/1000.0;
    Serial.print("Integrator: "); Serial.println(Integrator1_CSTATE[i]);
  }
}
clean garbage 2021-05-13 11:38:40 +02:00			`//LQR.ino`
add actual lqr (not compiling yet) 2021-04-16 15:38:21 +02:00
refactor gain to matrix names, break out sum3 out of sum4 2021-04-19 17:21:58 +02:00			`const double matrix_A [16] = { 0.0, 0.0, 0.0, 0.0,`
testa bös 2021-04-19 17:14:25 +02:00			`1.0, -0.20780947085442231, 0.0, -0.52810302415000854,`
			`0.0, 13.239785742831822, 0.0, 58.601480177829842,`
			`0.0, 0.0, 1.0, 0.0 };`

refactor gain to matrix names, break out sum3 out of sum4 2021-04-19 17:21:58 +02:00			`const double matrix_C [8] = { 1.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0 };`
add actual lqr (not compiling yet) 2021-04-16 15:38:21 +02:00
add k matrix as matrix, try some stuff, add time var 2021-04-20 13:28:01 +02:00			`const double matrix_L [8] = { 56.7847, 799.5294, -1.4914, -57.4160,`
			`-1.0363, -16.1071, 57.0075, 870.8172 };`
			`const double matrix_L_old [8] = { 116.63033952875418, 3387.8673967111704, -1.4473912197449676,`
add actual lqr (not compiling yet) 2021-04-16 15:38:21 +02:00			`-115.34372132703447, -1.0534041975488044, -48.223441605702455,`
able to compile. change variable names, stop using some constructs, change types etc 2021-04-17 13:22:12 +02:00			`117.16185100039935, 3490.0480780568214 };`
add actual lqr (not compiling yet) 2021-04-16 15:38:21 +02:00
refactor gain to matrix names, break out sum3 out of sum4 2021-04-19 17:21:58 +02:00			`const double matrix_B [4] = { 0.0, 2.078094708544223, 0.0, 5.2810302415000852 };`
able to compile. change variable names, stop using some constructs, change types etc 2021-04-17 13:22:12 +02:00
add actual lqr (not compiling yet) 2021-04-16 15:38:21 +02:00
add k matrix as matrix, try some stuff, add time var 2021-04-20 13:28:01 +02:00			`const double matrix_K_old [4] = {-31.622776601683942, -21.286439360075747, 80.789376267003959, 13.42463576551093};`
			`const double matrix_K [4] = {-0.0316, -0.3938, 22.9455, 3.0629};`

able to compile. change variable names, stop using some constructs, change types etc 2021-04-17 13:22:12 +02:00			`double Integrator1_CSTATE [4] = {0.0, 0.0, 0.0, 0.0};`
refactor gain to matrix names, break out sum3 out of sum4 2021-04-19 17:21:58 +02:00			`double Sum3[4];`
able to compile. change variable names, stop using some constructs, change types etc 2021-04-17 13:22:12 +02:00			`double Sum4[4];`
add actual lqr (not compiling yet) 2021-04-16 15:38:21 +02:00
able to compile. change variable names, stop using some constructs, change types etc 2021-04-17 13:22:12 +02:00			`double tmp[2];`
testa bös 2021-04-19 17:14:25 +02:00			`double rtb_Saturation = 0.0;`
			`double saturatedSignalToMotors(){`
add k matrix as matrix, try some stuff, add time var 2021-04-20 13:28:01 +02:00			`rtb_Saturation = ((matrix_K[0] * Integrator1_CSTATE[0] +`
			`matrix_K[1] * Integrator1_CSTATE[1]) +`
			`matrix_K[2] * Integrator1_CSTATE[2]) +`
			`matrix_K[3] * Integrator1_CSTATE[3];`
add actual lqr (not compiling yet) 2021-04-16 15:38:21 +02:00
			`if (0.0 - rtb_Saturation > 11.5) {`
add k matrix as matrix, try some stuff, add time var 2021-04-20 13:28:01 +02:00			`rtb_Saturation = 3.0;`
add actual lqr (not compiling yet) 2021-04-16 15:38:21 +02:00			`} else if (0.0 - rtb_Saturation < -11.5) {`
add k matrix as matrix, try some stuff, add time var 2021-04-20 13:28:01 +02:00			`rtb_Saturation = -3.0;`
add actual lqr (not compiling yet) 2021-04-16 15:38:21 +02:00			`} else {`
			`rtb_Saturation = 0.0 - rtb_Saturation;`
			`}`
testa bös 2021-04-19 17:14:25 +02:00			`Serial.print("Saturation = "); Serial.println(rtb_Saturation);`
add actual lqr (not compiling yet) 2021-04-16 15:38:21 +02:00			`return rtb_Saturation;`
			`}`
testa bös 2021-04-19 17:14:25 +02:00			`double inputToControlSystem(float position_m, float angle_r){`
add actual lqr (not compiling yet) 2021-04-16 15:38:21 +02:00			`float posAndAng[] = {position_m, angle_r};`
able to compile. change variable names, stop using some constructs, change types etc 2021-04-17 13:22:12 +02:00			`for (int i = 0; i < 2; i++) {`
refactor gain to matrix names, break out sum3 out of sum4 2021-04-19 17:21:58 +02:00			`tmp[i] = posAndAng[i] - (((matrix_C[i + 2] *`
			`Integrator1_CSTATE[1] + matrix_C[i] *`
			`Integrator1_CSTATE[0]) + matrix_C[i + 4] *`
			`Integrator1_CSTATE[2]) + matrix_C[i + 6] *`
able to compile. change variable names, stop using some constructs, change types etc 2021-04-17 13:22:12 +02:00			`Integrator1_CSTATE[3]);`
add actual lqr (not compiling yet) 2021-04-16 15:38:21 +02:00			`}`
able to compile. change variable names, stop using some constructs, change types etc 2021-04-17 13:22:12 +02:00			`for (int i = 0; i < 4; i++) {`
refactor gain to matrix names, break out sum3 out of sum4 2021-04-19 17:21:58 +02:00

			`Sum3[i] = ((matrix_L[i + 4] * tmp[1] + matrix_L[i]`
			`* tmp[0]) + matrix_B[i] * rtb_Saturation);`

			`Sum4[i] = Sum3[i] +`
			`(matrix_A[i + 12] * Integrator1_CSTATE[3] +`
			`(matrix_A[i + 8] * Integrator1_CSTATE[2] +`
			`(matrix_A[i + 4] * Integrator1_CSTATE[1] +`
			`matrix_A[i] * Integrator1_CSTATE[0])));`
add actual lqr (not compiling yet) 2021-04-16 15:38:21 +02:00			`}`
refactor gain to matrix names, break out sum3 out of sum4 2021-04-19 17:21:58 +02:00			`Serial.print("Sum3 0 = "); Serial.println(Sum3[0]);`
			`Serial.print("Sum3 1 = "); Serial.println(Sum3[1]);`
			`Serial.print("Sum3 2 = "); Serial.println(Sum3[2]);`
			`Serial.print("Sum3 3 = "); Serial.println(Sum3[3]);`

testa bös 2021-04-19 17:14:25 +02:00			`Serial.print("Sum4 0 = "); Serial.println(Sum4[0]);`
			`Serial.print("Sum4 1 = "); Serial.println(Sum4[1]);`
			`Serial.print("Sum4 2 = "); Serial.println(Sum4[2]);`
			`Serial.print("Sum4 3 = "); Serial.println(Sum4[3]);`
refactor gain to matrix names, break out sum3 out of sum4 2021-04-19 17:21:58 +02:00
try to fix final function 2021-04-17 14:05:54 +02:00			`Arduino_skal_derivatives();`
add actual lqr (not compiling yet) 2021-04-16 15:38:21 +02:00			`return saturatedSignalToMotors();`
			`}`
try to fix final function 2021-04-17 14:05:54 +02:00			`void Arduino_skal_derivatives()`
testa bös 2021-04-19 17:14:25 +02:00			`{`
			`for (int i = 0; i < 4; i++) {`
add k matrix as matrix, try some stuff, add time var 2021-04-20 13:28:01 +02:00			`Integrator1_CSTATE[i] = Sum4[i] * fastTimer/1000.0;`
testa bös 2021-04-19 17:14:25 +02:00			`Serial.print("Integrator: "); Serial.println(Integrator1_CSTATE[i]);`
			`}`
try to fix final function 2021-04-17 14:05:54 +02:00			`}`