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main_plz_work
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main_plz_work
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#include "mbed.h"
#include "QEI.h"
#define RECEIVER_THRESHOLD 0.1 //not used atm
#define ENC_PER_REV 360
#define SAMPLES 20
#define MAX_SPEED 0.2f
float defaultSpeed = MAX_SPEED * 0.75f;
///////////////////////
// Function Declarations
///////////////////////
void turn(bool left);
float P_Controller(float error, float Kp);
float I_Controller(float error, float Ki, float& integrator, float decayFactor);
float D_Controller(float error, float Kd, float& prevError );
void update_enc();
void update_IR();
void setup_IR(float& cL, float& cR);
void setup_enc();
void systick_forward_default(float error, float correction_factor, float Kp, float Kd, float Ki, float& integrator, float decayFactor, float& prevError, Timer& timer);
void systick_forward();
void systick_forward_enc();
bool detect_wall_front();
bool detect_missing_wall(); // side walls
void forward_until_wall(); // seems not used
void forward(int n);
void stop();
///////////////////////
// flags
///////////////////////
bool missing_left_wall = false, missing_right_wall = false;
int wall_state = 0; // 1 for missing no walls, 2 for missing left wall,
// 3 for missing right wall, 4 for missing both walls
///////////////////////
// K Values
///////////////////////
float Kp_enc = 6,
Ki_enc = 2,
Kd_enc = 20,
Kp_IR = 0.5f,
Ki_IR = 0,
Kd_IR = 15;
///////////////////////
// Speed Variables
///////////////////////
float LSpeed = defaultSpeed,
RSpeed = defaultSpeed;
////////////////////////
// PID miscellanies
////////////////////////
float integrator_enc = 0; // I_Controller() variables
float integrator_IR = 0;
float decayFactor_enc = 2; // I_Controller() variable
float decayFactor_IR = 2;
float prevError_enc = 0; // D_Controller() variable
float prevError_IR = 0;
float correction_factor_enc = 1/(36000*(LSpeed+RSpeed));
float correction_factor_IR = 1;
//////////////////////
// Pin definitions
/////////////////////
DigitalOut LED_left(PB_7);
DigitalOut LED_frontLeft(PB_0);
DigitalOut LED_frontRight(PC_11);
DigitalOut LED_right(PC_10);
AnalogIn REC_left(PC_0);
AnalogIn REC_frontLeft(PC_1);
AnalogIn REC_frontRight(PA_4);
AnalogIn REC_right(PA_0);
PinName mLencA = PA_15,
mLencB = PB_3,
mRencA = PA_1,
mRencB = PC_4,
usbTX = PA_2,
usbRX = PA_3,
mLB = PC_7,
mLF = PB_10,
mRF = PA_7,
mRB = PB_6;
PwmOut MLF(mLF),
MRF(mRF),
MLB(mLB),
MRB(mRB);
/////////////////////////
// Encoder Variables
/////////////////////////
int enc_leftD, enc_rightD,
enc_left, enc_right,
enc_left_prev, enc_right_prev; // enc_leftD = encoder value difference of left motor
/////////////////////////
// IR Variables/Used in PID
/////////////////////////
float
IR_leftD, IR_rightD,
IR_frontLeft, IR_frontRight,
IR_left, IR_right,
IR_left_prev,
IR_right_prev; // IR_leftD = IR value difference of left motor
////////////////////////
// REC Setup Variables
////////////////////////
float
REC_threshold, // not used atm, for hardcoding/testing
REC_left_baseline = 0,
REC_right_baseline = 0,
REC_front_threshold = 0;
///////////////////////
// Timer/Serial
///////////////////////
Ticker Systicker;
Timer timer_enc, timer_IR;
Serial pc(usbTX, usbRX);
///////////////////////
// Motor init
///////////////////////
QEI wheelL(mLencA, mLencB, NC, 624, QEI::X4_ENCODING);
QEI wheelR(mRencA, mRencB, NC, 624, QEI::X4_ENCODING);
//////////////////////
// FUNCTIONS
//////////////////////
// Turn immediately to direction dir (pos right, left neg)
// Shouldn't the dir mapping in the comment be: (1: for left, 0 for right)... code is right tho
void turn(bool left){
int left_pulse = wheelL.getPulses();
int right_pulse = wheelR.getPulses();
while(abs(wheelL.getPulses()-left_pulse) + abs(wheelR.getPulses()-right_pulse) <= 365){
//turn right
if (left){
MLF.write(defaultSpeed*0.9f); //-Kp_turn*diff);
MLB.write(0);
MRB.write(defaultSpeed); //-Kp_turn*diff);
MRF.write(0);
}
//turn left
else{
MLB.write(defaultSpeed*0.9f); //-Kp_turn*diff);
MLF.write(0);
MRF.write(defaultSpeed); //-Kp_turn*diff);
MRB.write(0);
}
//diff = wheelR.getPulses() - wheelL.getPulses();
//pc.printf("diff: %d\n", diff); //to debug and determine proper Kp
}
MLB.write(0);
MLF.write(0);
MRB.write(0);
MRF.write(0);
wait(0.1f);
}
float P_Controller(float error, float Kp)
{
float correction = Kp*error; // Calculate Correction
return correction;
}
float I_Controller(float error, float Ki, float& integrator, float decayFactor)
{
integrator += error; // Add error to running total
float correction = Ki*integrator; // Calculate Correction
integrator /= decayFactor; // Need to make sure running total
// doesn't grow too large
return correction;
}
float D_Controller(float error, float Kd, float& prevError, Timer& timer)
{
float dError = error - prevError; // Get change in error
int dt = timer.read_us(); // Get change in time, may not be
timer.reset(); // Reset Time for next cycle
prevError = error; // Update previous error
float correction = Kd*dError/dt; // Calculate Correction
return correction;
}
//This is to update encoder values even when the rat is not moving.
//Previously this update function and forward function was one.
void update_enc()
{
//update EL and ER
enc_left = -wheelL.getPulses();
enc_right = wheelR.getPulses();
//find difference from prev values
enc_leftD = enc_left - enc_left_prev;
enc_rightD = enc_right - enc_right_prev;
//update EL_prev and ER_prev
enc_left_prev = enc_left;
enc_right_prev = enc_right;
}
//This is to update IR values even when the rat is not moving.
//Previously this update function and forward function was one.
void update_IR()
{
//update left and right IR
IR_left = REC_left.read();
IR_frontRight = REC_frontRight.read();
IR_frontLeft = REC_frontLeft.read();
IR_right = REC_right.read();
//find difference compared to calibrated/setup threshold
IR_leftD = IR_left - REC_left_baseline;
IR_rightD = IR_right - REC_right_baseline;
}
void systick_forward_enc()
{
//find error (can optimize later)
//NOTE: ELD and ERD are both positive if spinning forward.
int error = enc_rightD - enc_leftD;
//find correction
float speedDiff = MAX_SPEED* correction_factor_enc * (P_Controller(error, Kp_enc) + I_Controller(error,Ki_enc,integrator_enc,decayFactor_enc) + D_Controller(error, Kd_enc, prevError_enc, timer_enc));
//update speeds
if (RSpeed > MAX_SPEED)
RSpeed = MAX_SPEED;
if (LSpeed > MAX_SPEED)
LSpeed = MAX_SPEED;
if (LSpeed < 0)
LSpeed = 0;
if (RSpeed < 0)
RSpeed = 0;
LSpeed = LSpeed + speedDiff;
RSpeed = RSpeed - speedDiff; // right wheel runs little faster than left
}
void systick_forward_default(float error, float correction_factor, float Kp, float Kd, float Ki, float& integrator, float decayFactor, float& prevError, Timer& timer)
{
//NOTE: Multiplied by MAX_SPEED because the speed can only be in range 0 - MAX_SPEED, whereas
//IR values are from 0 - 1.
float speedDiff = MAX_SPEED * correction_factor * (P_Controller(error, Kp) + I_Controller(error,Ki,integrator,decayFactor) + D_Controller(error, Kd, prevError, timer));
//update speeds
LSpeed = defaultSpeed + speedDiff;
RSpeed = defaultSpeed - speedDiff;
if (RSpeed > MAX_SPEED)
RSpeed = MAX_SPEED;
if (LSpeed > MAX_SPEED)
LSpeed = MAX_SPEED;
if (LSpeed < 0)
LSpeed = 0;
if (RSpeed < 0)
RSpeed = 0;
}
void systick_forward()
{
//update IR variables
update_IR();
update_enc();
//missing no walls
if (!detect_missing_wall())
{
if(wall_state != 1)
{
wall_state = 1;
integrator_IR = 0;
prevError_IR = 0;
timer_IR.reset();
}
systick_forward_default(IR_rightD - IR_leftD, correction_factor_IR, Kp_IR, Kd_IR, Ki_IR, integrator_IR, decayFactor_IR, prevError_IR, timer_IR);
}
else if(missing_left_wall)
{
if(wall_state != 2)
{
wall_state = 2;
integrator_IR = 0;
prevError_IR = 0;
timer_IR.reset();
}
systick_forward_default(IR_rightD, correction_factor_IR, Kp_IR, Kd_IR, Ki_IR, integrator_IR, decayFactor_IR, prevError_IR, timer_IR);
}
else if(missing_right_wall)
{
if(wall_state != 3)
{
wall_state = 3;
integrator_IR = 0;
prevError_IR = 0;
timer_IR.reset();
}
systick_forward_default(IR_leftD, correction_factor_IR, Kp_IR, Kd_IR, Ki_IR, integrator_IR, decayFactor_IR, prevError_IR, timer_IR);
}
else // missing both walls
{
//update encoder variables
if(wall_state != 4)
{
wall_state = 4;
integrator_enc = 0;
prevError_enc = 0;
timer_enc.reset();
}
systick_forward_enc();
}
}
void forward(int n)
{
MLF.write(LSpeed);
MLB.write(0);
MRF.write(RSpeed);
MRB.write(0);
wait(n*0.001);
}
void setup_IR(float& cL, float& cR)
{
LED_left = 1;
LED_frontRight = 1;
LED_frontLeft = 1;
LED_right = 1;
wait(2);
float TcR = 0;
float TcL = 0;
float TcFR = 0;
float TcFL = 0;
for(int i= 0; i < SAMPLES; i++)
{
TcR += REC_right.read();
TcL += REC_left.read();
TcFR += REC_frontRight.read();
TcFL += REC_frontLeft.read();
}
TcR /= SAMPLES;
TcL /= SAMPLES;
TcFR /= SAMPLES;
TcFL /= SAMPLES;
cR = TcR;
cL = TcL;
REC_front_threshold = TcFR + TcFL;
timer_IR.start();
}
bool detect_wall_front(){
float reading = IR_frontLeft + IR_frontRight;
//pc.printf("%f\t| %f\n", reading, REC_front_threshold);
return (reading >= REC_front_threshold* 0.95f);
}
//0 is false; 1 is true
bool detect_missing_wall(){
//Derek had .7f here
//Misheel made it to 1f on Thu
missing_left_wall = (IR_left <= (REC_left_baseline * .7f));
missing_right_wall = (IR_right <= (REC_right_baseline * .7f));
return (missing_left_wall || missing_right_wall);
}
void stop()
{
Timer temp;
temp.start();
int baseline = temp.read_ms();
int stop_time = 10;
while (temp.read_ms() - baseline < stop_time){
MLB.write(0.5f);
MLF.write(0);
MRB.write(0.5f);
MRF.write(0);
}
MLB.write(0);
MRB.write(0);
wait(0.5f);
temp.stop();
}
void setup_enc()
{
enc_left_prev = -wheelL.getPulses();
enc_right_prev = wheelR.getPulses();
timer_enc.start();
}
void turn_180(){
int left_pulse = wheelL.getPulses();
int right_pulse = wheelR.getPulses();
int left_pulse_prev = left_pulse;
int right_pulse_prev = right_pulse;
int diff = 0;
while(abs(wheelL.getPulses()-left_pulse) + abs(wheelR.getPulses()-right_pulse) <= 760){
//turn right
MRF.write(defaultSpeed+diff*0.0001f); //-Kp_turn*diff);
MRB.write(0);
MLB.write(defaultSpeed-diff*0.0001f); //-Kp_turn*diff);
MLF.write(0);
wait(0.01f);
diff = abs(wheelR.getPulses()-right_pulse_prev) - abs(wheelL.getPulses()-left_pulse_prev);
right_pulse_prev = wheelR.getPulses();
left_pulse_prev = wheelL.getPulses();
//pc.printf("diff: %d\n", diff); //to debug and determine proper Kp
}
MLB.write(0);
MLF.write(0);
MRB.write(0);
MRF.write(0);
wait(0.1f);
}
int main()
{
// general setup
setup_IR(REC_left_baseline, REC_right_baseline);
setup_enc();
turn_180();
Systicker.attach(&systick_forward,0.01f);
wait(1);
// int left_pulse = -wheelL.getPulses();
// int right_pulse = wheelR.getPulses();
// while(-wheelL.getPulses()-left_pulse < 180 && wheelR.getPulses()-right_pulse < 180)
// { pc.printf("%d\t%d\n", -wheelL.getPulses()-left_pulse, wheelR.getPulses()-right_pulse); }
while(1){
//move
//pc.printf("iteration\n");
//pc.printf("Wall state: %d\n", wall_state);
if (detect_wall_front()){
Systicker.attach(NULL,0.01f);
stop();
if(!missing_left_wall && !missing_right_wall)
{
turn_180();
}
else{
turn(missing_left_wall); // will turn left if true.
wait(0.5f);
Timer temp; //move forward a little bit
temp.start();
int baseline = temp.read_ms();
int go_time = 400;
while (temp.read_ms() - baseline < go_time){
forward(1);
}
temp.stop();
}
//timer_IR.reset();
Systicker.attach(&systick_forward,0.01f);
}
else
forward(1);
}
timer_enc.stop();
timer_IR.stop();
}