//#include #include "LineFollow.h" //#define KP 19 //0.1 units //#define KD 14 //#define ROBOT_SPEED 100 //percentage //#define KP 11 //#define KD 5 //#define ROBOT_SPEED 50 //#define INTEGRATION_TIME 10 //En ms /*uint8_t KP=11; uint8_t KD=5; uint8_t robotSpeed=50; //percentage uint8_t intergrationTime=10;*/ #define NIVEL_PARA_LINEA 50 /*int lectura_sensor[5], last_error=0, acu=0; //Estos son los arrays que hay que rellenar con los valores de los sensores //de suelo sobre blanco y negro. int sensor_blanco[]={ 0,0,0,0,0}; int sensor_negro[]={ 1023,1023,1023,1023,1023}; */ //unsigned long time; //void mueve_robot(int vel_izq, int vel_der); //void para_robot(); //void doCalibration(int speedPct, int time); //void ajusta_niveles(); //calibrate values LineFollow::LineFollow(){ /*KP=11; KD=5; robotSpeed=50; //percentage intergrationTime=10;*/ config(11,5,50,10); for(int i=0;i<5;i++){ sensor_blanco[i]=0; sensor_negro[i]=1023; } } void LineFollow::config(uint8_t KP, uint8_t KD, uint8_t robotSpeed, uint8_t intergrationTime){ this->KP=KP; this->KD=KD; this->robotSpeed=robotSpeed; this->intergrationTime=intergrationTime; /*Serial.print("LFC: "); Serial.print(KP); Serial.print(' '); Serial.print(KD); Serial.print(' '); Serial.print(robotSpeed); Serial.print(' '); Serial.println(intergrationTime);*/ } void LineFollow::calibIRs(){ static bool isInited=false;//So only init once if(isInited)return ; delay(1000); doCalibration(30,500); doCalibration(-30,800); doCalibration(30,500); delay(1000); isInited=true; } void LineFollow::runLineFollow(){ for(int count=0; count<5; count++) { lectura_sensor[count]=map(IRread(count),sensor_negro[count],sensor_blanco[count],0,127); acu+=lectura_sensor[count]; } //Serial.println(millis()); if (acu > NIVEL_PARA_LINEA) { acu/=5; int error = ((lectura_sensor[0]<<6)+(lectura_sensor[1]<<5)-(lectura_sensor[3]<<5)-(lectura_sensor[4]<<6))/acu; error = constrain(error,-100,100); //Calculamos la correcion de velocidad mediante un filtro PD int vel = (error * KP)/10 + (error-last_error)*KD; last_error = error; //Corregimos la velocidad de avance con el error de salida del filtro PD int motor_left = constrain((robotSpeed + vel),-100,100); int motor_right =constrain((robotSpeed - vel),-100,100); //Movemos el robot //motorsWritePct(motor_left,motor_right); motorsWritePct(motor_left,motor_right); //Esperamos un poquito a que el robot reaccione delay(intergrationTime); } else { //Hemos encontrado una linea negra //perpendicular a nuestro camino //paramos el robot motorsStop(); //y detenemos la ejecución del programa //while(true); reportActionDone(); //setMode(MODE_SIMPLE); } } void LineFollow::doCalibration(int speedPct, int time){ motorsWritePct(speedPct, -speedPct); unsigned long beginTime = millis(); while((millis()-beginTime) sensor_blanco[count]) sensor_blanco[count]=lectura; if (lectura < sensor_negro[count]) sensor_negro[count]=lectura; } }