  Deliverability  Reply  Forward  Print  Delete  asd   Monday, May 13, 2024 3:45:41 PM  #define Rpwm1 6 #define RDir1 7 #define RDir2 8 #define Lpwm1 11 #define LDir1 10 #define LDir2 9 #define LQ1 A7 #define LQ2 A6 #define LQ3 A5 #define LQ4 A4 #define LQ5 A3 #define LQ6 A2 #define LQ7 A1 #define LQ8 A0 float veri = 0; float LeftBaseSpeed = 220 ; float RightBaseSpeed = 220 ; float Kp = 0.07; float Kd = 2; float Ki = 0.0001 ; int Q[8] = {LQ8, LQ7, LQ6, LQ5, LQ4, LQ3, LQ2, LQ1}; int SensMin[8]; int SensMax[8]; int SensVal[8]; int SensValX[8]; int FinalError = 0; int Error = 0; int ExtraSpeed = 0; int RightSpeed = 0; int LeftSpeed = 0; int Integral = 0; int Val = 0; unsigned int Position = 3500; byte LineOk = 0; byte WhiteLine = 1; int buttonPin = 0; int buttonState = 0; #define ObjectSens_on 3 //#define ObjectSens_arka 3 #define SW1 12 //#define SW2 13 #define Led 13 unsigned long startTime = 0; // Olayın başladığı zaman unsigned long endTime = 0; // Olayın bittiği zaman void Blink() { for (int i = 0; i < 10; i++) { digitalWrite(Led, LOW); delay(180); digitalWrite(Led, HIGH); delay(180); } } void MotorsSpeed(int RightSpeed, int LeftSpeed) { if (RightSpeed <= 0) { RightSpeed = abs(RightSpeed); analogWrite(Rpwm1, RightSpeed); digitalWrite(RDir1, HIGH); digitalWrite(RDir2, LOW); } else { analogWrite(Rpwm1, RightSpeed); digitalWrite(RDir1, LOW); digitalWrite(RDir2, HIGH); } if (LeftSpeed <= 0) { LeftSpeed = abs(LeftSpeed); analogWrite(Lpwm1, LeftSpeed); digitalWrite(LDir1, HIGH); digitalWrite(LDir2, LOW); } else { analogWrite(Lpwm1, LeftSpeed); digitalWrite(LDir1, LOW); digitalWrite(LDir2, HIGH); } } int ReadSensor() { unsigned long Middle = 0; unsigned int Total = 0; LineOk = 0; for (int i = 0; i < 8; i++) { int Difference = SensMax[i] - SensMin[i]; long int Calculation = analogRead(Q[i]) - SensMin[i]; Calculation = Calculation * 1000; Calculation = Calculation / Difference; SensVal[i] = constrain(Calculation, 0, 1000); SensValX[i] = SensVal[i]; } for (int i = 0; i < 8; i++) { if (WhiteLine == 1) SensValX[i] = 1000 - SensVal[i]; if (SensValX[i] > 250) LineOk = 1; if (SensValX[i] > 50) { Middle += SensValX[i] * i ; Total += SensValX[i]; } } if (LineOk == 0) { if (Val < 3000) return 0; if (Val > 5000) return 7000; if (Val > 3000 && Val < 5000) return 3500; } Middle = Middle * 1000; Val = Middle / Total; return Val; } void go(int baseSpeed=220){ Position = ReadSensor(); Error = Position - 3500; Integral += Error; int Verify = Kp * Error + Kd * (Error - FinalError) + Ki * Integral; FinalError = Error; //Final Error'u RightSpeed = baseSpeed + Verify + ExtraSpeed ; LeftSpeed = baseSpeed - Verify + ExtraSpeed ; RightSpeed = constrain(RightSpeed, -100, 100); LeftSpeed = constrain(LeftSpeed, -100, 100); MotorsSpeed(LeftSpeed, RightSpeed); } void solla() { MotorsSpeed(-5, 60); delay(300); MotorsSpeed(100, 100); delay(10); } void setup() { pinMode(Rpwm1, OUTPUT); pinMode(Lpwm1, OUTPUT); pinMode(RDir1, OUTPUT); pinMode(RDir2, OUTPUT); pinMode(LDir1, OUTPUT); pinMode(LDir2, OUTPUT); pinMode(LQ1, INPUT); pinMode(LQ2, INPUT); pinMode(LQ3, INPUT); pinMode(LQ4, INPUT); pinMode(LQ5, INPUT); pinMode(LQ6, INPUT); pinMode(LQ7, INPUT); pinMode(LQ8, INPUT); pinMode(buttonPin, INPUT_PULLUP); // Initialize button pin as input with pull-up resistor //pinMode(ObjectSens_arka, INPUT); pinMode(ObjectSens_on, INPUT); pinMode(Led, OUTPUT); pinMode(SW1, INPUT_PULLUP); // pinMode(SW2, INPUT_PULLUP); Serial.begin(9600); MotorsSpeed(0, 0); delay(2000); for (int i = 0; i < 8; i++) { SensMin[i] = 1024; SensMax[i] = 0; } for (int i = 0; i < 150; i++) { for (int i = 0; i < 8; i++) { if (SensMin[i] > analogRead(Q[i])) SensMin[i] = analogRead(Q[i]); if (SensMax[i] < analogRead(Q[i])) SensMax[i] = analogRead(Q[i]); delay(1); } } delay(700); Blink(); } void loop() { // Made by senior developer Zhentor B) --<| kolay gelsin |>-- bool hepsibeyaz = true; bool hepsisiyah = true; for (int i = 0; i < 8; i++) { if (digitalRead(Q[i]) == HIGH) { hepsibeyaz = false; break; } } for (int i = 0; i < 8; i++) { if (digitalRead(Q[i]) == LOW) { hepsisiyah = false; break; } } if((digitalRead(ObjectSens_on) == LOW)){ delay(5); startTime = millis(); while (digitalRead(ObjectSens_on) == LOW) { unsigned long currentTime = millis(); if (digitalRead(ObjectSens_on) == LOW && currentTime - startTime >= 2800) { Serial.println("Bariyer değil hala kalkmadi sollaniyor"); solla(); break; } if (digitalRead(ObjectSens_on) == LOW && hepsisiyah) solla(); } } go(120); /* if((digitalRead(ObjectSens_on) == HIGH)){ go(220); } else{ delay(5); startTime = millis(); while (digitalRead(ObjectSens_on) == LOW) { MotorsSpeed(0,0); Serial.println("arka cisim algiladi dur, cisim çok yakın çarpma!"); unsigned long currentTime = millis(); if (currentTime - startTime >= 2800) { break; } } endTime = millis(); unsigned long duration = endTime - startTime; startTime = 0; Serial.println(duration); if(duration > 2700){ Serial.println("sanırım bu bir kutu solla"); delay(300); } } /* buttonState = digitalRead(buttonPin); // Read the state of the button if (buttonState == LOW) { // Check if button is pressed // Button is pressed Serial.println("Button Pressed!"); } if((digitalRead(ObjectSens_on) == HIGH && digitalRead(ObjectSens_arka)== HIGH || digitalRead(ObjectSens_arka)== HIGH)){ Serial.println("Durmak yok yola devammm"); go(220); } else{ if(digitalRead(ObjectSens_arka)==LOW){ delay(5); startTime = millis(); while (digitalRead(ObjectSens_arka) == LOW) { MotorsSpeed(0,0); Serial.println("arka cisim algiladi dur, cisim çok yakın çarpma!"); unsigned long currentTime = millis(); if (currentTime - startTime >= 2800) { break; } } endTime = millis(); unsigned long duration = endTime - startTime; startTime = 0; Serial.println(duration); if(duration > 2700){ Serial.println("sanırım bu bir kutu solla"); delay(300); } else if(duration > 350){ // eğer bariyerse, bekle ki kalksın. delay(500); } //if(kesiklicizgivarsa) // cizgibitti. s0lla } else if(digitalRead(ObjectSens_on)==LOW){ Serial.println("on cisim algilandi yavaşla!"); go(180); } } */ }