Bryan Purba
convert_KeilToMbed
Dependencies: DigitDisplay Motor PID mbed millis
Fork of
DagonFly__RoadToJapan_15Mei_Ultimate
by 
KRAI 2017
main.cpp
- Committer:
- Joshua23
- Date:
- 2016-11-29
- Revision:
- 9:5a50782510fb
- Parent:
- 8:0711dea61312
- Child:
- 10:f0f0dc3904e0
File content as of revision 9:5a50782510fb:
/****************************************************************************/
/* PROGRAM UNTUK PID CLOSED LOOP */
/* */
/* - Digunakan encoder autonics */
/* - Konfigurasi Motor dan Encoder sbb : */
/* _________________ */
/* | DEPAN | */
/* | 1. e .2 | Angka ==> Motor */
/* | ` ` | e ==> Encoder */
/* | e e | */
/* | . . | */
/* | 4` e `3 | */
/* |________________| */
/* */
/* SETTINGS (WAJIB!) : */
/* 1. Settings Pin Encoder, Resolusi, dan Tipe encoding di omniPos.h */
/* 2. Deklarasi penggunaan library omniPos pada bagian deklarasi encoder */
/* */
/****************************************************************************/
/* */
/* Joystick */
/* kanan => posisi target x ditambah 0.01 */
/* kiri => posisi target x dikurang 0.01 */
/* atas => posisi target y ditambah 0.01 */
/* bawah => posisi target y dikurang 0.01 */
/* */
/* Tombol silang => Kembali keposisi Awal */
/* Tombol segitiga => Aktif motor Launcher */
/* Tombol kotak => Aktif servo Launcher */
/* */
/****************************************************************************/
#include "mbed.h"
#include "JoystickPS3.h"
#include "Motor.h"
#include "Servo.h"
//#define koefperlambatan 0.8
#include "encoderKRAI.h"
#define pi 22/7
#define diaEncoder 0.058
#define PPR 1000
#define diaRobot 0.64
#define pinservo1 PC_8
//PC 9
#define pinservo2 PC_9
float K_enc = pi*diaEncoder;
float K_robot = pi*diaRobot;
float speed1=0.6;
float speed2=0.6;
float speed3=0.6;
float speed4=0.6;
float speedL=0.2;
float KpX=0.5, KpY=0.5, Kp_tetha=0.03;
Timer waktu;
//float jarakGlobalY;
// Deklarasi variabel PID
//PID PID(0.992,0.000,0.81,0.001); //(P,I,D, time sampling)
// Deklarasi variabel encoder
encoderKRAI encoderDepan( PB_14, PB_13, 2000, encoderKRAI::X2_ENCODING); //inA, inB, pin Indeks (NC = tak ada), resolusi, pembacaan
encoderKRAI encoderBelakang( PC_4, PB_15, 2000, encoderKRAI::X2_ENCODING);
encoderKRAI encoderKanan( PD_2, PC_12, 720, encoderKRAI::X2_ENCODING);
encoderKRAI encoderKiri( PC_11, PC_10, 2000, encoderKRAI::X2_ENCODING);
// Deklarasi variabel motor
Motor motor1(PB_8, PB_1 , PA_13); // pwm, fwd, rev
Motor motor2(PB_9, PA_12, PC_5); // pwm, fwd, rev
Motor motor3(PB_6, PA_7 , PB_12); // pwm, fwd, rev
Motor motor4(PB_7, PA_14 ,PA_15); // pwm, fwd, rev
//Motor Atas
Motor motorld(PA_8, PB_0 ,PC_15); // pwm, fwd, rev
Motor motorlb(PA_11, PA_5 ,PA_6); // pwm, fwd, rev
//Servo Atas
Servo servoS(pinservo1);
Servo servoB(pinservo2);
// Deklarasi variabel posisi robot
//robotPos posisi();
// Inisialisasi Pin TX-RX Joystik dan PC
//Serial pc(PA_0,PA_1);
//Serial pc(USBTX,USBRX);
// Deklarasi Variabel Global
/*
* posX dan posY berdasarkan arah robot
* encoder Depan & Belakang sejajar sumbu Y
* encoder Kanan & Kiri sejajar sumbu X
*/
float jarak, posX, posY;
//float keliling = pi*diameterRoda;
void detect_encoder(float speed);
void setCenter();
float getY();
float getX();
float getTetha();
// Inisialisasi Pin TX-RX Joystik dan PC
joysticknucleo joystick(PA_0,PA_1);
Serial pc(USBTX,USBRX);
// Posisi target
float XT, YT, Tetha;
//encoder variable
float errX, errY, errT, Vt, Vx, Vy;
float V1, V2, V3, V4;
//bool perlambatan=0;
char case_ger;
bool maju=false,mundur=false,pivka=false,pivki=false,kiri=false,kanan=false,saka=false,saki=false,sbka=false,sbki=false,cw1=false,ccw1=false,cw2=false,ccw2=false,cw3=false,ccw3=false,analog=false;
bool stop = true;
bool Launcher = false,ServoGo = false;
float jLX,jLY;
double vcurr;
float x,y; // untuk analoghat kiri
float errorx=0,errory=0;
// Fungsi mapping 0-255 ke -128 sampai 127
float mapping(float a,float error)
{
float hasil,b;
b = (float)((a-128)/128);
if (b>(error - 0.2) && b<(error + 0.2))
{
hasil = 0;
} else {
hasil = b;
}
return (hasil);
}
// Kalibrasi tombol analog kiri
void kalibrasi()
{
errorx = (jLX - 128)/128;
errory = (jLY - 128)/128;
}
// simpan data analog
void baca_analog()
{
jLX = joystick.LX;
jLY = joystick.LY;
// Pembacaan nilai Y terbalik
x = mapping(jLX,errorx);
y = -mapping(jLY,errory);
}
// Gerak dari Motor base
int case_gerak()
{
int casegerak;
baca_analog();
if (!joystick.L1 && joystick.R1) {
// Pivot Kanan
casegerak = 1;
} else if (!joystick.R1 && joystick.L1) {
// Pivot Kiri
casegerak = 2;
} else if ((!joystick.R1)&&(!joystick.L1)&&(joystick.atas)&&(!joystick.bawah)&&(!joystick.kanan)&&(!joystick.kiri)) {
// Maju
casegerak = 3;
} else if ((!joystick.R1)&&(!joystick.L1)&&(!joystick.atas)&&(joystick.bawah)&&(!joystick.kanan)&&(!joystick.kiri)) {
// Mundur
casegerak = 4;
} else if ((!joystick.R1)&&(!joystick.L1)&&(joystick.atas)&&(!joystick.bawah)&&(!joystick.kiri)&&(joystick.kanan)) {
// Serong Atas Kanan
casegerak = 5;
} else if((!joystick.R1)&&(!joystick.L1)&&(!joystick.atas)&&(joystick.bawah)&&(!joystick.kiri)&&(joystick.kanan)) {
// Serong Bawah Kanan
casegerak = 6;
} else if ((!joystick.R1)&&(!joystick.L1)&&(joystick.atas)&&(!joystick.bawah)&&(joystick.kiri)&&(!joystick.kanan)) {
// Serong Atas Kiri
casegerak = 7;
} else if ((!joystick.R1)&&(!joystick.L1)&&(!joystick.atas)&&(joystick.bawah)&&(joystick.kiri)&&(!joystick.kanan)) {
// Serong Bawah Kiri
casegerak = 8;
} else if ((!joystick.R1)&&(!joystick.L1)&&(!joystick.atas)&&(!joystick.bawah)&&(joystick.kanan)&&(!joystick.kiri)) {
// Kanan
casegerak = 9;
} else if ((!joystick.R1)&&(!joystick.L1)&&(!joystick.atas)&&(!joystick.bawah)&&(!joystick.kanan)&&(joystick.kiri)) {
// Kiri
casegerak = 10;
} else if ((!joystick.R1)&&(!joystick.L1)&&(!joystick.atas)&&(!joystick.bawah)&&(!joystick.kanan)&&(!joystick.kiri)) {
// case gerak analog on off
if (analog){
casegerak = 11;
} else {
casegerak = 12;
}
}
return(casegerak);
}
/**
** Case 1 : Pivot kanan
** Case 2 : Pivot Kiri
** Case 3 : Maju
** Case 4 : Mundur
** Case 5 : Serong Atas Kanan
** Case 6 : Serong Bawah Kanan
** Case 7 : Serong Atas Kiri
** Case 8 : Serong Bawah Kiri
** Case 9 : Kanan
** Case 10 : Kiri
** Case 11 : Analog
** Case 11 : break
**/
// Pergerakan dari base
void aktuator()
{
//Servo
if (ServoGo){
servoS.position(-90);
wait_ms(500);
servoS.position(10);
wait_ms(500);
for (int i = 0; i<=90; i++){
servoB.position(i);
wait_ms(10);
}
wait_ms(500);
servoB.position(0);
ServoGo = false;
}else{
servoS.position(10);
servoB.position(0);
}
// Motor Atas
if (Launcher) {
motorld.speed(speedL);
motorlb.speed(speedL);
}else{
motorld.speed(0);
motorlb.speed(0);
}
// MOTOR Bawah
switch (case_ger)
{
case (1):
{
Tetha = Tetha - 0.5;
pivka=true;
maju=mundur=analog=kiri=kanan=saka=saki=sbka=sbki=pivki=cw1=ccw1=cw2=ccw2=cw3=ccw3=false;
pc.printf("pivKa Xt =%.2f x=%.2f YT=%.2f y=%.2f errx=%.2f erry=%.2f \n",XT,x,YT,y,errX,errY);
break;
}
case (2):
{
Tetha = Tetha + 0.5;
pivki=true;
maju=mundur=kiri=analog=kanan=saka=saki=sbka=sbki=pivka=cw1=ccw1=cw2=ccw2=cw3=ccw3=false;
pc.printf("pivKi Xt =%.2f x=%.2f YT=%.2f y=%.2f \n",XT,x,YT,y);
break;
}
case (3):
{
YT = YT + 0.01;
maju=true;
mundur=kiri=kanan=saka=saki=sbka=sbki=analog=pivka=pivki=cw1=ccw1=cw2=ccw2=cw3=ccw3=false;
pc.printf("maju Xt =%.2f x=%.2f YT=%.2f y=%.2f errx=%.2f erry=%.2f \n",XT,x,YT,y,errX,errY);
break;
}
case (4):
{
YT = YT - 0.01;
mundur=true;
maju=kiri=kanan=saka=saki=sbka=sbki=analog=pivka=pivki=cw1=ccw1=cw2=ccw2=cw3=ccw3=false;
pc.printf("mundur Xt =%.2f x=%.2f YT=%.2f y=%.2f errx=%.2f erry=%.2f \n",XT,x,YT,y,errX,errY);
break;
}
case (5) :
{
XT = XT + 0.01;
YT = YT + 0.01;
saka=true;
maju=mundur=kiri=kanan=sbka=saki=sbki=analog=pivka=pivki=cw1=ccw1=cw2=ccw2=cw3=ccw3=false;
pc.printf("saka Xt =%.2f x=%.2f YT=%.2f y=%.2f \n",XT,x,YT,y);
break;
}
case (6) :
{
XT = XT + 0.01;
YT = YT - 0.01;
sbka=true;
maju=mundur=kiri=kanan=saka=saki=sbki=analog=pivka=pivki=cw1=ccw1=cw2=ccw2=cw3=ccw3=false;
pc.printf("sbka Xt =%.2f x=%.2f YT=%.2f y=%.2f \n",XT,x,YT,y);
break;
}
case (7) :
{
XT = XT - 0.01;
YT = YT + 0.01;
saki=true;
maju=kiri=kanan=saka=mundur=sbka=sbki=analog=pivka=pivki=cw1=ccw1=cw2=ccw2=cw3=ccw3=false;
pc.printf("saki Xt =%.2f x=%.2f YT=%.2f y=%.2f \n",XT,x,YT,y);
break;
}
case (8) :
{
XT = XT - 0.01;
YT = YT - 0.01;
pc.printf("sbki Xt =%.2f x=%.2f YT=%.2f y=%.2f \n",XT,x,YT,y);
break;
}
case (9) :
{
XT = XT + 0.01;
kanan=true;
maju=kiri=mundur=saka=saki=sbka=sbki=analog=pivka=pivki=cw1=ccw1=cw2=ccw2=cw3=ccw3=false;
pc.printf("Kanan Xt =%.2f x=%.2f YT=%.2f y=%.2f \n",XT,x,YT,y);
break;
}
case (10) :
{
XT = XT - 0.01;
kiri=true;
maju=kanan=mundur=saka=saki=sbka=sbki=analog=pivka=pivki=cw1=ccw1=cw2=ccw2=cw3=ccw3=false;
pc.printf("Kiri Xt =%.2f x=%.2f YT=%.2f y=%.2f \n",XT,x,YT,y);
break;
}
case (11):
{
XT = XT + 0.01*x;
YT = YT + 0.01*y;
analog=true;
maju=mundur=kiri=kanan=saka=saki=sbka=sbki=cw1=ccw1=cw2=ccw2=cw3=ccw3=false;
pc.printf("analog Xt =%.2f x=%.2f YT=%.2f y=%.2f \n",XT,x,YT,y);
break;
}
default :
{
maju=mundur=kiri=kanan=saka=saki=sbka=sbki=analog=cw1=ccw1=cw2=ccw2=cw3=ccw3=false;
stop = true;
//s1 = 0;s2 =0; s3 =0; s4 =0;
// pc.printf("Stop V1=%.2f V2=%.2f V3=%.2f V4=%.2f\n",V1,V2,V3,V4);
}
}
}
//Begin Encoder
void setCenter()
{
encoderDepan.reset();
encoderBelakang.reset();
encoderKanan.reset();
encoderKiri.reset();
}
float getX()
{
float jarakEncDpn, jarakEncBlk;
jarakEncDpn = (encoderDepan.getPulses())/(float)(2000.0)*K_enc;
jarakEncBlk = (encoderBelakang.getPulses())/(float)(2000.0)*K_enc;
return (jarakEncDpn-jarakEncBlk)/2;
}
float getY()
{
float jarakEncKir, jarakEncKan;
jarakEncKir = (encoderKiri.getPulses())/(float)(2000.0)*K_enc;
jarakEncKan = (encoderKanan.getPulses())/(float)(720.0)*K_enc;
return (jarakEncKir-jarakEncKan)/2;
}
float getTetha()
{
float busurDpn, busurBlk, busurKir, busurKan;
busurDpn = ((encoderDepan.getPulses())/(float)(2000.0)*K_enc)/K_robot*360.0;
busurBlk = ((encoderBelakang.getPulses())/(float)(2000.0)*K_enc)/K_robot*360.0;
busurKir = ((encoderKiri.getPulses())/(float)(2000.0)*K_enc)/K_robot*360.0;
busurKan = ((encoderKanan.getPulses())/(float)(720.0)*K_enc)/K_robot*360.0;
return -(busurDpn+busurBlk+busurKir+busurKan)/4;
}
void gotoXYT(float xa, float ya, float Ta)
{
errX = xa-getX();
Vx = KpX*errX;
errY = ya-getY();
Vy = KpY*errY;
errT = Ta-getTetha();
Vt = Kp_tetha*errT;
V1 = Vx+Vy-Vt;
V2 = Vx-Vy-Vt;
V3 = -Vx-Vy-Vt;
V4 = -Vx+Vy-Vt;
if (V1>speed1)
{ V1 = speed1; }
else if (V1<-speed1)
{ V1 = -speed1; }
if (V2>speed2)
{ V2 = speed2; }
else if (V2<-speed2)
{ V2 = -speed2; }
if (V3>speed3)
{ V3 = speed3; }
else if (V3<-speed3)
{ V3 = -speed3; }
if (V4>speed4)
{ V4 = speed4; }
else if (V4<-speed4)
{ V4 = -speed4; }
if (((errX > 0.05) || (errX<-0.05)) || ((errY > 0.05) || (errY<-0.05)) || ((errT > 0.05) || (errT<-0.05)))
{
motor1.speed(V1);
motor2.speed(V2);
motor3.speed(V3);
motor4.speed(V4);
// pc.printf("V1=%.2f \ ", V1);
}
else
{
motor1.brake(1);
motor2.brake(1);
motor3.brake(1);
motor4.brake(1);
//_ms(1000);
}
//pc.printf("%f\t%f\t%f ", errX*100,errY*100,errT);
// wait_ms(10);
}
//End Encoder
void speedLauncher()
{
if (joystick.R3_click and speedL < 0.7){
speedL = speedL + 0.1;}
if (joystick.L3_click and speedL > 0.1){
speedL = speedL - 0.1;}
}
int main (void)
{
// Set baud rate - 115200
joystick.setup();
pc.baud(115200);
wait_ms(1000);
setCenter();
wait_ms(500);
//Posisi Awal
XT = 0;
YT = 0;
Tetha = 0;
pc.printf("Ready...\n");
kalibrasi();
servoS.position(90);
servoB.position(0);
waktu.start();
while(1)
{
// Interrupt Serial
joystick.idle();
if(joystick.readable() ) {
// Panggil fungsi pembacaan joystik
joystick.baca_data();
// Panggil fungsi pengolahan data joystik
joystick.olah_data();
//pc.printf("%2x %2x %2x %2x %3d %3d %3d %3d %3d %3d\n\r",joystick.button, joystick.RL, joystick.button_click, joystick.RL_click, joystick.R2, joystick.L2, joystick.RX, joystick.RY, joystick.LX, joystick.LY);
case_ger = case_gerak();
aktuator();
pc.printf("bacaS = %.2f\tbacaB = %.2f\n",servoS.read(), servoB.read());
//kalibrasi
if (joystick.START){
kalibrasi();}
// analog switch mode
if (joystick.SELECT_click) {analog = !analog;}
if (joystick.segitiga_click) {Launcher = !Launcher;}
if (joystick.lingkaran_click){
ServoGo = true;
waktu.reset();
}
if (joystick.silang) {
XT = 0;
YT = 0;
Tetha = 0;
pc.printf("x..\n");
}
speedLauncher();
} else {
joystick.idle();
}
gotoXYT(XT,YT,Tetha);
}
}