add arduino code
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eb673befcb
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7777dd3a54
40
main.ino
Normal file
40
main.ino
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int MODE = 8;
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int left_motor_in = 6;
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int left_motor_out = 9;
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int right_motor_in = 3;
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int right_motor_out = 5;
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void setup() {
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Serial.begin(9600);
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Serial.println("Start");
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init_motor();
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}
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void loop() {
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left_motor_go(250);
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right_motor_go(250);
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}
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void init_motor(){
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pinMode(left_motor_in, OUTPUT);
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pinMode(left_motor_out, OUTPUT);
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pinMode(right_motor_in, OUTPUT);
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pinMode(right_motor_out, OUTPUT);
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pinMode(MODE, OUTPUT);
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digitalWrite(MODE, HIGH);
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}
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//range:0<value<255
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void left_motor_go(int motor_speed){
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analogWrite(left_motor_in, motor_speed);
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digitalWrite(left_motor_out, LOW);
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}
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//range:0<value<255
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void right_motor_go(int motor_speed){
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analogWrite(right_motor_in, motor_speed);
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digitalWrite(right_motor_out, LOW);
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}
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126
pis-example.ino
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126
pis-example.ino
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//Make sure to install the library
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#include <QTRSensors.h>
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QTRSensors qtr;
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const uint8_t SensorCount = 8;
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uint16_t sensorValues[SensorCount];
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float Kp = 0.07; //set up the constants value
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float Ki = 0.001;
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float Kd = 0.6;
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int P;
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int I;
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int D;
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int lastError = 0;
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boolean onoff = false;
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//Increasing the maxspeed can damage the motors - at a value of 255 the 6V motors will receive 7,4 V
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const uint8_t maxspeeda = 150;
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const uint8_t maxspeedb = 150;
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const uint8_t basespeeda = 100;
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const uint8_t basespeedb = 100;
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//Set up the drive motor carrier pins
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int mode = 8;
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int aphase = 6;
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int aenbl = 9;
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int bphase = 5;
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int benbl = 3;
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//Set up the buttons pins
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int buttoncalibrate = 17; //pin A3
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int buttonstart = 2;
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void setup() {
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Serial.begin(9600);
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qtr.setTypeRC();
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//Set up the sensor array pins
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qtr.setSensorPins((const uint8_t[]) {
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10, 11, 12, 14, 15, 16, 18, 19
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}, SensorCount);
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qtr.setEmitterPin(7);//LEDON PIN
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pinMode(mode, OUTPUT);
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pinMode(aphase, OUTPUT);
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pinMode(aenbl, OUTPUT);
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pinMode(bphase, OUTPUT);
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pinMode(benbl, OUTPUT);
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digitalWrite(mode, HIGH);
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delay(500);
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pinMode(LED_BUILTIN, OUTPUT);
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boolean Ok = false;
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while (Ok == false) { //the loop won't start until the robot is calibrated
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if (digitalRead(buttoncalibrate) == HIGH) {
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calibration(); //calibrate the robot for 10 seconds
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Ok = true;
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}
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}
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forward_brake(0, 0);
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}
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void calibration() {
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digitalWrite(LED_BUILTIN, HIGH);
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for (uint16_t i = 0; i < 400; i++)
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{
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qtr.calibrate();
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}
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digitalWrite(LED_BUILTIN, LOW);
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}
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void loop() {
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if (digitalRead(buttonstart) == HIGH) {
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onoff = ! onoff;
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if (onoff = true) {
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delay(1000);//a delay when the robot starts
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}
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else {
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delay(50);
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}
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}
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if (onoff == true) {
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PID_control();
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Serial.print(">>>>>PID-control");
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}
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else {
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forward_brake(0, 0);
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Serial.print(">>>>>forward-brake");
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}
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}
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void forward_brake(int posa, int posb) {
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//set the appropriate values for aphase and bphase so that the robot goes straight
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digitalWrite(aphase, HIGH);
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digitalWrite(bphase, HIGH);
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analogWrite(aenbl, posa);
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analogWrite(benbl, posb);
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}
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void PID_control() {
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uint16_t position = qtr.readLineBlack(sensorValues);
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int error = 3500 - position;
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P = error;
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I = I + error;
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D = error - lastError;
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lastError = error;
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int motorspeed = P * Kp + I * Ki + D * Kd;
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int motorspeeda = basespeeda + motorspeed;
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int motorspeedb = basespeedb - motorspeed;
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if (motorspeeda > maxspeeda) {
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motorspeeda = maxspeeda;
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}
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if (motorspeedb > maxspeedb) {
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motorspeedb = maxspeedb;
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}
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if (motorspeeda < 0) {
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motorspeeda = 0;
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}
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if (motorspeedb < 0) {
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motorspeedb = 0;
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}
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Serial.print(motorspeeda);Serial.print(" ");Serial.println(motorspeedb);
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Serial.print(position);
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forward_brake(motorspeeda, motorspeedb);
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}
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161
pis-examplev2.01.ino
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161
pis-examplev2.01.ino
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//Make sure to install the library
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#include <QTRSensors.h>
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QTRSensors qtr;
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const uint8_t SensorCount = 8;
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uint16_t sensorValues[SensorCount];
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float Kp = 0.07; //set up the constants value
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float Ki = 0.001;
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float Kd = 0.6;
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int P;
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int I;
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int D;
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int lastError = 0;
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boolean onoff = false;
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//Increasing the maxspeed can damage the motors - at a value of 255 the 6V motors will receive 7,4 V
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const uint8_t maxspeeda = 120;
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const uint8_t maxspeedb = 120;
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const uint8_t basespeeda = 100;
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const uint8_t basespeedb = 100;
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//Set up the drive motor carrier pins
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int mode = 8;
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/*int aphase = 9;
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int aenbl = 6;
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int bphase = 5;
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int benbl = 3;*/
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int aphase = 6;
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int aenbl = 9;
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int bphase = 3;
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int benbl = 5;
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//Set up the buttons pins
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int buttoncalibrate = 17; //pin A3
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int buttonstart = 2;
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void setup() {
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Serial.begin(9600);
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qtr.setTypeRC();
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//Set up the sensor array pins
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qtr.setSensorPins((const uint8_t[]) {
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10, 11, 12, 14, 15, 16, 18, 19
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}, SensorCount);
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qtr.setEmitterPin(7);//LEDON PIN
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pinMode(mode, OUTPUT);
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pinMode(aphase, OUTPUT);
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pinMode(aenbl, OUTPUT);
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pinMode(bphase, OUTPUT);
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pinMode(benbl, OUTPUT);
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digitalWrite(mode, HIGH);
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delay(500);
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pinMode(LED_BUILTIN, OUTPUT);
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//Stephanos code - LED will blink for 3 seconds and then
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/* calibration will begin running for 10 seconds;
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this happens when our system boots. Giorgo i removed
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the functionality to calibrate through the button keypress.*/
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for (int counter=0; counter < 3;counter++){
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digitalWrite(LED_BUILTIN, HIGH);
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delay(500);
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digitalWrite(LED_BUILTIN, LOW);
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delay(500);
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}
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calibration();
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//When calibration is compelted we understand that by blinking the LED for
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//5 times in a period of 2 seconds, faster than getting ready for calibration
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for (int counter=0; counter < 3;counter++){
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digitalWrite(LED_BUILTIN, HIGH);
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delay(200);
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digitalWrite(LED_BUILTIN, LOW);
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delay(200);
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}
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//modified by Stephanos - commented out
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/*boolean Ok = false;
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while (Ok == false) { //the loop won't start until the robot is calibrated
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if (digitalRead(buttoncalibrate) == HIGH) {
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calibration(); //calibrate the robot for 10 seconds
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Ok = true;
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}
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}*/
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forward_brake(0, 0);
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}
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void calibration() {
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digitalWrite(LED_BUILTIN, HIGH);
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for (uint16_t i = 0; i < 400; i++)
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{
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qtr.calibrate();
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}
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digitalWrite(LED_BUILTIN, LOW);
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Serial.print("Calibration COMPLETED!!!");
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}
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void loop() {
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/*if (digitalRead(buttonstart) == HIGH) {
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onoff = ! onoff;
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if (onoff = true) {
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delay(1000);//a delay when the robot starts
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}
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else {
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delay(50);
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}
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}*/
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delay(3000);// a small 3 seconds delay before starting our rebot
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PID_control();
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/*if (onoff == true) {
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PID_control();
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}
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else {
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forward_brake(0, 0);
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}*/
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}
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void forward_brake(int posa, int posb) {
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//set the appropriate values for aphase and bphase so that the robot goes straight
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digitalWrite(aphase, HIGH);
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digitalWrite(bphase, HIGH);
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analogWrite(aenbl, posa);
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analogWrite(benbl, posb);
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}
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void PID_control() {
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uint16_t position = qtr.readLineBlack(sensorValues);
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int error = 3500 - position;
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P = error;
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I = I + error;
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D = error - lastError;
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lastError = error;
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int motorspeed = P * Kp + I * Ki + D * Kd;
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int motorspeeda = basespeeda + motorspeed;
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int motorspeedb = basespeedb - motorspeed;
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if (motorspeeda > maxspeeda) {
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motorspeeda = maxspeeda;
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}
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if (motorspeedb > maxspeedb) {
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motorspeedb = maxspeedb;
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}
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if (motorspeeda < 0) {
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motorspeeda = 0;
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}
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if (motorspeedb < 0) {
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motorspeedb = 0;
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}
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Serial.print(motorspeeda);Serial.print(" ");Serial.println(motorspeedb);
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forward_brake(motorspeeda, motorspeedb);
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}
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93
qtr-test.ino
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93
qtr-test.ino
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//Made by POLULU
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#include <QTRSensors.h>
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// This example is designed for use with eight RC QTR sensors. These
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// reflectance sensors should be connected to digital pins 3 to 10. The
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// sensors' emitter control pin (CTRL or LEDON) can optionally be connected to
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// digital pin 2, or you can leave it disconnected and remove the call to
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// setEmitterPin().
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//
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// The setup phase of this example calibrates the sensors for ten seconds and
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// turns on the Arduino's LED (usually on pin 13) while calibration is going
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// on. During this phase, you should expose each reflectance sensor to the
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// lightest and darkest readings they will encounter. For example, if you are
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// making a line follower, you should slide the sensors across the line during
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// the calibration phase so that each sensor can get a reading of how dark the
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// line is and how light the ground is. Improper calibration will result in
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// poor readings.
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//
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// The main loop of the example reads the calibrated sensor values and uses
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// them to estimate the position of a line. You can test this by taping a piece
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// of 3/4" black electrical tape to a piece of white paper and sliding the
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// sensor across it. It prints the sensor values to the serial monitor as
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// numbers from 0 (maximum reflectance) to 1000 (minimum reflectance) followed
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// by the estimated location of the line as a number from 0 to 5000. 1000 means
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// the line is directly under sensor 1, 2000 means directly under sensor 2,
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// etc. 0 means the line is directly under sensor 0 or was last seen by sensor
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// 0 before being lost. 5000 means the line is directly under sensor 5 or was
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// last seen by sensor 5 before being lost.
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QTRSensors qtr;
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const uint8_t SensorCount = 8;
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uint16_t sensorValues[SensorCount];
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void setup()
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{
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// configure the sensors
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qtr.setTypeRC();
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qtr.setSensorPins((const uint8_t[]){10, 11, 12, 14, 15, 16, 18, 19}, SensorCount);
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qtr.setEmitterPin(7);
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delay(500);
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pinMode(LED_BUILTIN, OUTPUT);
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digitalWrite(LED_BUILTIN, HIGH); // turn on Arduino's LED to indicate we are in calibration mode
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// 2.5 ms RC read timeout (default) * 10 reads per calibrate() call
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// = ~25 ms per calibrate() call.
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// Call calibrate() 400 times to make calibration take about 10 seconds.
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for (uint16_t i = 0; i < 400; i++)
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{
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qtr.calibrate();
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}
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digitalWrite(LED_BUILTIN, LOW); // turn off Arduino's LED to indicate we are through with calibration
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// print the calibration minimum values measured when emitters were on
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Serial.begin(9600);
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for (uint8_t i = 0; i < SensorCount; i++)
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{
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Serial.print(qtr.calibrationOn.minimum[i]);
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Serial.print(' ');
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}
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Serial.println();
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// print the calibration maximum values measured when emitters were on
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for (uint8_t i = 0; i < SensorCount; i++)
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{
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Serial.print(qtr.calibrationOn.maximum[i]);
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Serial.print(' ');
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}
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Serial.println();
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Serial.println();
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delay(1000);
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}
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void loop()
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{
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// read calibrated sensor values and obtain a measure of the line position
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// from 0 to 5000 (for a white line, use readLineWhite() instead)
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uint16_t position = qtr.readLineBlack(sensorValues);
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// print the sensor values as numbers from 0 to 1000, where 0 means maximum
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// reflectance and 1000 means minimum reflectance, followed by the line
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// position
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for (uint8_t i = 0; i < SensorCount; i++)
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{
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Serial.print(sensorValues[i]);
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Serial.print('\t');
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}
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Serial.println(position);
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delay(250);
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}
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