Merge branch 'lqr-testing' into nytt-test-bös

clean garbage
småfixes, kanske inte längre blir 0?
2021-05-13 11:54:57 +02:00 · 2021-05-13 11:38:40 +02:00 · 2021-05-12 19:18:04 +02:00 · 2021-05-12 19:01:39 +02:00 · 2021-04-24 11:15:41 +02:00 · 2021-04-21 15:28:44 +02:00
6 changed files with 133 additions and 238 deletions
--- a/EENX15_LQR/EENX15_LQR.ino
+++ b/EENX15_LQR/EENX15_LQR.ino
@ -1,12 +1,13 @@
 //EENX15_LQR.ino
 #include <Wire.h>
 int lastCorrectionTime = 0;
 int lastPrintTime = 0;
-static int fastTimer = 80; //ms
+static int fastTimer = 10; //ms
-static int slowTimer = 800; //ms
+static int slowTimer = 1000; //ms
-//lqr stuff
+//lqr
 const uint8_t statesNumber = 4;
 /** Low pass filter angular Position*/
 float angularPositionLP = 0;
@ -22,11 +23,14 @@ float motorAngularPosition = 0;
 float motorAngularSpeed = 0;
 /** PWM signal applied to the motor's driver 255 is 100% */
-int32_t speed;
+int speed;
 float Va;
 int safe_angle;
 float force;
 int PWM;
-//gyro stuff
+//gyro
 float AccX, AccY, AccZ;
 float GyroX, GyroY, GyroZ;
 float accAngleX, accAngleY, gyroAngleX, gyroAngleY, gyroAngleZ;
@ -47,7 +51,7 @@ float angle_pitch_output, angle_roll_output;
 long loop_timer;
 int temp;
-//motor stuff
+//motor
 #define encoderA1 2
 #define encoderB1 3
@ -81,7 +85,7 @@ void setup() {
  Wire.begin();
  Serial.begin(115200);
  while (!Serial)
-    delay(10); // will pause Zero, Leonardo, etc until serial console opens
+    delay(10); // will pause until serial console opens
  gyro_setup();
@ -91,7 +95,6 @@ void setup() {
  pinMode(encoderA2, INPUT_PULLUP);
  pinMode(encoderB2, INPUT_PULLUP);
  attachInterrupt(digitalPinToInterrupt(encoderA1), pulseA, RISING);
  //attachInterrupt(digitalPinToInterrupt(encoderB1), pulseB, RISING);
  pinMode(MotorPinA, OUTPUT);
  pinMode(MotorSpeedA, OUTPUT);
@ -100,6 +103,7 @@ void setup() {
  pinMode(MotorPinB, OUTPUT);
  pinMode(MotorSpeedB, OUTPUT);
  pinMode(MotorBrakeB, OUTPUT);
 }
 void loop() {
@ -108,12 +112,12 @@ void loop() {
  int m = millis();
-  if (m - lastCorrectionTime >= fastTimer) { //run this code ever 80ms (12.5hz)
+  if (m - lastCorrectionTime >= fastTimer) { //run this code every [fastTimer]ms
    lastCorrectionTime = m;
    getSpeed();
    setSpeed();
  }
-  if (m - lastPrintTime >= slowTimer) { //run this code ever 800ms (1.25hz)
+  if (m - lastPrintTime >= slowTimer) { //run this code every [slowTimer]ms
    lastPrintTime = m;
    printInfo();
  }
@ -139,6 +143,7 @@ void printInfo(){
  Serial.print("pitch Angle measured = "); Serial.println(angle_pitch);
  Serial.print("Position: "); Serial.println(countA);
  Serial.print("Position (m): "); Serial.println(countA/174.76); //r*2pi
  Serial.print("speed (m/s): "); Serial.println(rps * 0.05); //r*rads
  Serial.print("Full Rotations: "); Serial.println(countA/56.0); //ca. 56 tick per rotation
  Serial.print("Rads rotated: "); Serial.println(countA/8.91); //ca. 56 tick per rotation, 6.26 rads per rotation
  Serial.print("RPM: "); Serial.println(rpm); //ca. 56 tick per rotation
@ -147,34 +152,37 @@ void printInfo(){
 void setSpeed(){
  if(abs(safe_angle)<50 ){
    //speed = 8*safe_angle;
    float position_m = countA/174.76;
    float speed_ms = rps * 0.05;
    float angle_r = angle_pitch_output * 0.318;
-    speed = inputToControlSystem(position_m, angle_r);
+    float angle_speed_rs = rps;
-    speed *= 22;
+    //speed = lqr_fullstate(position_m, speed_ms, angle_r, angle_speed_rs);/// 0.019608; // (0.20*255)
-    if(speed<0){
+    force = lqr_fullstate(0, 0, angle_r, 0);/// 0.019608; // (0.20*255)
    //speed = -22 * inputToControlSystem(0, 1);
    if(force<0){
      digitalWrite(MotorPinB, CW);
      digitalWrite(MotorPinA, CCW);
      speed -= 30;
    }
-    else if(speed>0){
+    else if(force>0){
      digitalWrite(MotorPinB, CCW);
      digitalWrite(MotorPinA, CW);
      speed += 30;
    }
    else {
-      speed = 0;
+      force = 0;
    }
-    speed = abs(speed);
+    if(force!=0){
-    speed = constrain(speed, 0, 250);
+		Va = calc_speed(force, angle_speed_rs);
-    analogWrite(MotorSpeedB, speed); //Wheel close to connections
+	}
-    analogWrite(MotorSpeedA, speed); //First experiment wheel
+	else {
-  }
+		Va = 0;
-  else{
+	}
-    speed = 0;
+    Va = abs(Va);
-    analogWrite(MotorSpeedB, speed);
+    PWM = 255*Va/12;
-    analogWrite(MotorSpeedA, speed);
+    PWM = constrain(PWM, 0, 255);
    analogWrite(MotorSpeedB, PWM); //Wheel close to connections
    analogWrite(MotorSpeedA, PWM); //First experiment wheel
  } 
  Serial.print("PWM to motors: "); Serial.println(PWM);
 }
 int directionA(){
  if(digitalRead(encoderA2) ==  HIGH){                             
--- a/EENX15_LQR/LQR.ino
+++ b/EENX15_LQR/LQR.ino
@ -1,125 +1,84 @@
-//LQR-stuff
+//LQR.ino
 #include "Arduino_skal.h"
-// | ///////////////////////////////////
+const double matrix_A [16] = { 0.0, 0.0, 0.0, 0.0, 
-// | //Row 24-52 in Arduino_skal_data.cpp
+  1.0, -0.20780947085442231, 0.0, -0.52810302415000854,
-// v ///////////////////////////////////
+  0.0, 13.239785742831822, 0.0, 58.601480177829842, 
-const double Arduino_skalModelClass::ConstP rtConstP = {
+  0.0, 0.0, 1.0, 0.0 };
  // Expression: [100;200]
  //  Referenced by: '<Root>/vartejag'
-  { 100.0, 200.0 },
+const double matrix_C [8] = { 1.0, 0.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0 };
-  // Expression: A
+const double matrix_L [8] = { 56.7847, 799.5294, -1.4914, -57.4160, 
-  //  Referenced by: '<Root>/Gain4'
+  -1.0363, -16.1071, 57.0075, 870.8172 };
-
+const double matrix_L_old [8] = { 116.63033952875418, 3387.8673967111704, -1.4473912197449676,
  { 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 },
+    117.16185100039935, 3490.0480780568214 };
-  // Expression: B
+const double matrix_B [4] = { 0.0, 2.078094708544223, 0.0, 5.2810302415000852 };
  //  Referenced by: '<Root>/Gain3'
  { 0.0, 2.078094708544223, 0.0, 5.2810302415000852 }
 };
-// | ///////////////////////////////////
+const double matrix_K_old [4] = {-31.622776601683942,   -21.286439360075747,   80.789376267003959,    13.42463576551093};
-// | //Row 261-264 in Arduino_skal.cpp
+const double matrix_K [4] = {-0.0316,   -0.3938,   22.9455,    3.0629};
 // v ///////////////////////////////////
-rtX.Integrator1_CSTATE[0] = 0.0;
+double Integrator1_CSTATE [4] = {0.0, 0.0, 0.0, 0.0};
-rtX.Integrator1_CSTATE[1] = 0.0;
+double Sum3[4];
-rtX.Integrator1_CSTATE[2] = 0.0;
+double Sum4[4];
 rtX.Integrator1_CSTATE[3] = 0.0;
-// | ///////////////////////////////////
+double tmp[2];
-// | //Row 123-124 in Arduino_skal.cpp
+double rtb_Saturation = 0.0;
-// v ///////////////////////////////////
+double saturatedSignalToMotors(){
-
+  rtb_Saturation = ((matrix_K[0] * Integrator1_CSTATE[0] +
-real_T tmp[2];
+             matrix_K[1] * Integrator1_CSTATE[1]) +
-int rtb_Saturation;
+             matrix_K[2] * Integrator1_CSTATE[2]) +
-
+             matrix_K[3] * Integrator1_CSTATE[3];
 // | ///////////////////////////////////
 // | //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;
+    rtb_Saturation = 3.0;
  } else if (0.0 - rtb_Saturation < -11.5) {
-    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){
 // | //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++) {
+  for (int i = 0; i < 2; i++) {
-    tmp[i] = rtConstP.posAndAng[i] - (((rtConstP.Gain6_Gain[i + 2] *
+    tmp[i] = posAndAng[i] - (((matrix_C[i + 2] *
-      rtX.Integrator1_CSTATE[1] + rtConstP.Gain6_Gain[i] *
+      Integrator1_CSTATE[1] + matrix_C[i] *
-      rtX.Integrator1_CSTATE[0]) + rtConstP.Gain6_Gain[i + 4] *
+      Integrator1_CSTATE[0]) + matrix_C[i + 4] *
-      rtX.Integrator1_CSTATE[2]) + rtConstP.Gain6_Gain[i + 6] *
+      Integrator1_CSTATE[2]) + matrix_C[i + 6] *
-      rtX.Integrator1_CSTATE[3]);
+      Integrator1_CSTATE[3]);
  }
  for (int i = 0; i < 4; i++) {
  // 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]
+    Sum3[i] = ((matrix_L[i + 4] * tmp[1] + matrix_L[i]
-            * tmp[0]) + rtConstP.Gain3_Gain[i] * rtb_Saturation) +
+            * tmp[0]) + matrix_B[i] * rtb_Saturation);
-            (rtConstP.Gain4_Gain[i + 12] * rtX.Integrator1_CSTATE[3] +
+      
-            (rtConstP.Gain4_Gain[i + 8] * rtX.Integrator1_CSTATE[2] +
+    Sum4[i] = Sum3[i] +
-            (rtConstP.Gain4_Gain[i + 4] * rtX.Integrator1_CSTATE[1] +
+            (matrix_A[i + 12] * Integrator1_CSTATE[3] +
-            rtConstP.Gain4_Gain[i] * rtX.Integrator1_CSTATE[0])));
+            (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]);
-  Integrator1_CSTATE[0] = rtDW.Sum4[0];
+  Serial.print("Sum3 1 = "); Serial.println(Sum3[1]);
-  Integrator1_CSTATE[1] = rtDW.Sum4[1];
+  Serial.print("Sum3 2 = "); Serial.println(Sum3[2]);
-  Integrator1_CSTATE[2] = rtDW.Sum4[2];
+  Serial.print("Sum3 3 = "); Serial.println(Sum3[3]);
-  Integrator1_CSTATE[3] = rtDW.Sum4[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()
 // | ///////////////////////////////////
 // | //Row 215-225 in Arduino_skal.cpp
 // v ///////////////////////////////////
 void Arduino_skalModelClass::Arduino_skal_derivatives()
 {
-  Arduino_skalModelClass::XDot *_rtXdot;
+  for (int i = 0; i < 4; i++) {
-  _rtXdot = ((XDot *) (&rtM)->derivs);
+    Integrator1_CSTATE[i] = Sum4[i] * fastTimer/1000.0;
-
+    Serial.print("Integrator: "); Serial.println(Integrator1_CSTATE[i]);
-  // 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];
 }
--- a/EENX15_LQR/gyro.ino
+++ b/EENX15_LQR/gyro.ino
@ -1,4 +1,4 @@
-//gyroscope stuff
+//gyro.ino
 #include <Adafruit_MPU6050.h>
 #include <Adafruit_Sensor.h>
@ -16,7 +16,7 @@ void gyro_setup(){
  }
  Serial.println("MPU6050 Found!");
-  mpu.setAccelerometerRange(MPU6050_RANGE_4_G);
+  mpu.setAccelerometerRange(MPU6050_RANGE_16_G);
  Serial.print("Accelerometer range set to: ");
  switch (mpu.getAccelerometerRange()) {
  case MPU6050_RANGE_2_G:
@ -32,7 +32,7 @@ void gyro_setup(){
    Serial.println("+-16G");
    break;
  }
-  mpu.setGyroRange(MPU6050_RANGE_500_DEG);
+  mpu.setGyroRange(MPU6050_RANGE_2000_DEG);
  Serial.print("Gyro range set to: ");
  switch (mpu.getGyroRange()) {
  case MPU6050_RANGE_250_DEG:
--- a/EENX15_LQR/lqr_fullstate.ino
+++ b/EENX15_LQR/lqr_fullstate.ino
@ -0,0 +1,34 @@
 //lqr_fullstate.ino
 float lqr_fullstate(float position_m, float speed_ms, float angle_r, float angle_speed_rs){
  const float matrix_K [4] = {-0.7071,   -1.7751,   34.5368,    4.8793};
  float result;
  result = matrix_K[0] * position_m +
           matrix_K[1] * speed_ms +
           matrix_K[2] * angle_r +
           matrix_K[3] * angle_speed_rs;
  Serial.print("K calculation (force): "); Serial.println(result); 
  return result;
 }
 float calc_speed(float input, float angle_speed_rs) {
  /*
  float scale = 1.5;
  input = abs(input)*0.30796; // scale down to rad/s (78,53/255)
  Serial.print("input: "); Serial.println(input); 
  float result = 3145.84/(pow((90.75 - input),1.00715)); // break out x from response graph
  result *= scale;
  Serial.print("calcspeed: "); Serial.println(result); 
  return result;
  */
  float I = (1/3)*1.74;
  float km = 0.91*0.01;
  float ke = 8.68*0.001*2*PI/60;
  float Ir = I;
  float Omega= angle_speed_rs;
  float result = (km*ke/(Ir*5-km))*Omega;
  Serial.print("RESULT");
  Serial.print(result);
  return result;
 }
--- a/EENX15_LQR/rtwtypes.h
+++ b/EENX15_LQR/rtwtypes.h
@ -1,106 +0,0 @@
 //
 // Academic License - for use in teaching, academic research, and meeting
 // course requirements at degree granting institutions only.  Not for
 // government, commercial, or other organizational use.
 //
 // File: rtwtypes.h
 //
 // Code generated for Simulink model 'Arduino_skal'.
 //
 // Model version                  : 1.1
 // Simulink Coder version         : 9.5 (R2021a) 14-Nov-2020
 // C/C++ source code generated on : Thu Apr 15 22:06:00 2021
 //
 // Target selection: ert.tlc
 // Embedded hardware selection: AMD->x86-64 (Windows64)
 // Code generation objectives:
 //    1. Execution efficiency
 //    2. RAM efficiency
 // Validation result: Not run
 //
 #ifndef RTWTYPES_H
 #define RTWTYPES_H
 // Logical type definitions
 #if (!defined(__cplusplus))
 #ifndef false
 #define false                          (0U)
 #endif
 #ifndef true
 #define true                           (1U)
 #endif
 #endif
 //=======================================================================*
 //  Target hardware information
 //    Device type: AMD->x86-64 (Windows64)
 //    Number of bits:     char:   8    short:   16    int:  32
 //                        long:  32    long long:  64
 //                        native word size:  64
 //    Byte ordering: LittleEndian
 //    Signed integer division rounds to: Zero
 //    Shift right on a signed integer as arithmetic shift: on
 // =======================================================================
 //=======================================================================*
 //  Fixed width word size data types:                                     *
 //    int8_T, int16_T, int32_T     - signed 8, 16, or 32 bit integers     *
 //    uint8_T, uint16_T, uint32_T  - unsigned 8, 16, or 32 bit integers   *
 //    real32_T, real64_T           - 32 and 64 bit floating point numbers *
 // =======================================================================
 typedef signed char int8_T;
 typedef unsigned char uint8_T;
 typedef short int16_T;
 typedef unsigned short uint16_T;
 typedef int int32_T;
 typedef unsigned int uint32_T;
 typedef long long int64_T;
 typedef unsigned long long uint64_T;
 typedef float real32_T;
 typedef double real64_T;
 //===========================================================================*
 //  Generic type definitions: boolean_T, char_T, byte_T, int_T, uint_T,       *
 //                            real_T, time_T, ulong_T, ulonglong_T.           *
 // ===========================================================================
 typedef double real_T;
 typedef double time_T;
 typedef unsigned char boolean_T;
 typedef int int_T;
 typedef unsigned int uint_T;
 typedef unsigned long ulong_T;
 typedef unsigned long long ulonglong_T;
 typedef char char_T;
 typedef unsigned char uchar_T;
 typedef char_T byte_T;
 //=======================================================================*
 //  Min and Max:                                                          *
 //    int8_T, int16_T, int32_T     - signed 8, 16, or 32 bit integers     *
 //    uint8_T, uint16_T, uint32_T  - unsigned 8, 16, or 32 bit integers   *
 // =======================================================================
 #define MAX_int8_T                     ((int8_T)(127))
 #define MIN_int8_T                     ((int8_T)(-128))
 #define MAX_uint8_T                    ((uint8_T)(255U))
 #define MAX_int16_T                    ((int16_T)(32767))
 #define MIN_int16_T                    ((int16_T)(-32768))
 #define MAX_uint16_T                   ((uint16_T)(65535U))
 #define MAX_int32_T                    ((int32_T)(2147483647))
 #define MIN_int32_T                    ((int32_T)(-2147483647-1))
 #define MAX_uint32_T                   ((uint32_T)(0xFFFFFFFFU))
 #define MAX_int64_T                    ((int64_T)(9223372036854775807LL))
 #define MIN_int64_T                    ((int64_T)(-9223372036854775807LL-1LL))
 #define MAX_uint64_T                   ((uint64_T)(0xFFFFFFFFFFFFFFFFULL))
 // Block D-Work pointer type
 typedef void * pointer_T;
 #endif                                 // RTWTYPES_H
 //
 // File trailer for generated code.
 //
 // [EOF]
 //
Author	SHA1	Message	Date
Thefeli73	3d92a9f01c	Merge branch 'lqr-testing' into nytt-test-bös	2021-05-13 11:54:57 +02:00
Thefeli73	baa64b6240	clean garbage	2021-05-13 11:38:40 +02:00
Thefeli73	b4cc590cc0	småfixes, kanske inte längre blir 0?	2021-05-12 19:18:04 +02:00
Thefeli73	487837cffa	kodning som gjordes hos bragde	2021-05-12 19:01:39 +02:00
Thefeli73	b57bd6ca27	fixes, idk	2021-04-24 11:15:41 +02:00
Thefeli73	5dad9a6f6d	fixa kommentar, ändra i funktion som inte används för att testa	2021-04-21 15:28:44 +02:00
Thefeli73	a8d4620cac	IMPORTANT fixa linjariserings funktion	2021-04-21 15:27:25 +02:00
Thefeli73	1ab859ec5a	testa ny k matrix	2021-04-21 15:26:24 +02:00
Thefeli73	9463979545	few changes, call fullstate lqr	2021-04-20 13:30:48 +02:00
Thefeli73	a118b606dd	add k matrix as matrix, try some stuff, add time var	2021-04-20 13:28:01 +02:00
Thefeli73	c2061717e6	try new K matrix, also scale output	2021-04-20 13:27:26 +02:00
Thefeli73	841050f558	take in fullstate x K matrix and compensate for logarithmic response	2021-04-20 13:27:05 +02:00
Thefeli73	a6fb0d5e77	refactor gain to matrix names, break out sum3 out of sum4	2021-04-19 17:21:58 +02:00
Thefeli73	e45732e5d1	testa bös	2021-04-19 17:14:25 +02:00
Thefeli73	1bf3f51783	gyroscope känslighet	2021-04-19 17:14:06 +02:00
Thefeli73	bc7a9a6ec4	small fix	2021-04-17 15:23:11 +02:00
Thefeli73	5f559bb895	try to fix final function	2021-04-17 14:05:54 +02:00
Thefeli73	664b8b0109	no more need for types and .h files	2021-04-17 13:23:26 +02:00
Thefeli73	cf17affee4	able to compile. change variable names, stop using some constructs, change types etc	2021-04-17 13:22:12 +02:00