147 lines
3.7 KiB
C++
147 lines
3.7 KiB
C++
/**
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* @file control.ino
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* @author Guillaume Gibert
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* @version V0.1
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* @date 2021/04/18
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* @brief Description: this code drives the mbot robot to a target location (x, y, theta) using the gyro data.
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*
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* Function List:
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* 1. void control::move(int, int)
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* 2. void control::stop(void)
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*
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*/
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#include <Arduino.h>
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#include <Wire.h>
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#include <SoftwareSerial.h>
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#include "MeMCore.h"
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// Vars to change setup
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double _Kp_angle = -5.0;
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double _targetAngle = 90;
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const long int _baudRate = 115200;
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// robot characteristics
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double _wheelDiameter = 6.0; //cm
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double _distanceBetweenWheels = 11.5; //cm
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int _basicMotorSpeed = 100;
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// internal global variables
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String _inputString = ""; // a String to hold incoming data
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bool _stringComplete = false; // whether the string is complete
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// declare motors
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MeDCMotor _leftMotor(9);
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MeDCMotor _rightMotor(10);
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// declare gyro
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MeGyro _gyro;
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// position, baseline...
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double _thetaCurrent = 0.0;
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double _thetaBaseline = 0.0;
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double _errorAngle = 0.0; // in deg
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void setup()
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{
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// initialize the serial port
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Serial.begin(_baudRate);
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// set no speed for left and right motors
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_leftMotor.run((9)==M1?-(0):(0));
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_rightMotor.run((10)==M1?-(0):(0));
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// initialize the gyro
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_gyro.begin();
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// wait for 2 seconds
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delay(2000);
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// retrieve new values from gyro
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_gyro.update();
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// record the baseline for the theta angle (Rz)
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_thetaBaseline = _gyro.getAngleZ();
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}
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void loop()
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{
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// checks if an update of Kp value is available
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if (_stringComplete)
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{
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// updates the Kp value
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_Kp_angle = _inputString.toDouble();
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// resets the input string to accept new input from the serial port
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_inputString = "";
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_stringComplete = false;
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}
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// adjust the angle
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_errorAngle = _targetAngle - _thetaCurrent;
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// determine the command (proportionnal controller) i.e. angular velocity
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double v = 0.0;
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double w = _Kp_angle * _errorAngle;
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// compute the command
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double leftWheelSpeed = v / (_wheelDiameter/2) - _distanceBetweenWheels * w / (_wheelDiameter) ;
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double rightWheelSpeed = v / (_wheelDiameter/2) + _distanceBetweenWheels * w / (_wheelDiameter) ;
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// crop wheel speed
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if (leftWheelSpeed > 250)
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leftWheelSpeed = 250;
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if (rightWheelSpeed > 250)
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rightWheelSpeed = 250;
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// send the commands
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move(rightWheelSpeed, leftWheelSpeed);
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// retrieve new values from gyro
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_gyro.update();
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// get the theta angle (Rz)
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_thetaCurrent = _gyro.getAngleZ() - _thetaBaseline;
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_errorAngle = _targetAngle - _thetaCurrent;
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// for display
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Serial.print("Current_angle:"); Serial.print(_thetaCurrent);Serial.print(",");
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Serial.print("Target_angle:"); Serial.println(_targetAngle);
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}
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void move(int leftMotorSpeed, int rightMotorSpeed)
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{
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_leftMotor.run((9)==M1?-(leftMotorSpeed):(leftMotorSpeed));
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_rightMotor.run((10)==M1?-(rightMotorSpeed):(rightMotorSpeed));
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}
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void stop()
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{
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_leftMotor.stop();
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_rightMotor.stop();
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}
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/*
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SerialEvent occurs whenever a new data comes in the hardware serial RX. This
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routine is run between each time loop() runs, so using delay inside loop can
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delay response. Multiple bytes of data may be available.
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*/
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void serialEvent()
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{
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while (Serial.available())
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{
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// gets the new byte:
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char inChar = (char)Serial.read();
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// adds it to the _inputString:
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_inputString += inChar;
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// if the incoming character is a newline, set a flag so the main loop can
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// do something about it:
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if (inChar == '\n')
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{
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_stringComplete = true;
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}
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}
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}
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