KRAI 2016
base hybrid board baru
Dependencies: Motor NewTextLCD PID PS_PAD mbed millis
Fork of
Base_Hybrid_V2
by 
KRAI 2016
main.cpp
- Committer:
- rizqicahyo
- Date:
- 2016-02-15
- Revision:
- 1:c9f11055fb12
- Parent:
- 0:ac7353383a8e
File content as of revision 1:c9f11055fb12:
/*********************************************************************************************/
/** GARUDAGO-ITB (KRAI2016) **/
/** #ROADTOBANGKOK! **/
/** **/
/** MAIN PROGRAM ROBOT HYBRID SEMI OTOMATIS **/
/** **/
/** **/
/** Created by : **/
/** Rizqi Cahyo Yuwono **/
/** EL'14 - 13214090 **/
/** **/
/** Last Update : 19 Desember 2015, 06.10 WIB **/
/*********************************************************************************************/
/*********************************************************************************************/
/** FILE HEADER **/
/*********************************************************************************************/
#include "mbed.h"
#include "Motor.h"
#include "NewTextLCD.h"
#include "PS_PAD.h"
#include "PID.h"
#include "millis.h"
/*********************************************************************************************/
/** DEKLARASI INPUT OUTPUT **/
/*********************************************************************************************/
// serial pc
Serial pc(USBTX,USBRX);
// LCD 20x4
TextLCD lcd(PC_5, PB_1, PA_7, PC_4, PA_5, PA_6, TextLCD::LCD20x4); //(rs,e,d4,d5,d6,d7)
// joystick PS2
PS_PAD ps2(PB_15,PB_14,PB_13, PB_12); //(mosi, miso, sck, ss)
// PID sensor garis
PID PID(0.992,0.000,0.81,0.001); //(P,I,D, time sampling)
// Motor(pwm, fwd, rev)
Motor gripper(PB_6, PB_8, PB_9);
Motor motor3(PC_6, PC_8, PC_9);
Motor motor2(PB_3, PB_5, PB_4); //kanan
Motor motor1(PA_8, PA_9, PC_7); //kiri
// Sensor
DigitalIn S1(PC_0);
DigitalIn S2(PC_1);
DigitalIn S3(PC_2);
DigitalIn S4(PC_3);
DigitalIn S5(PA_0);
DigitalIn S6(PA_1);
DigitalIn S7(PA_4);
DigitalIn S8(PB_0);
DigitalIn S9(PB_2);
DigitalIn S10(PB_10);
DigitalIn S11(PA_10);
DigitalIn S12(PA_11);
DigitalIn S13(PA_12);
DigitalOut calibrate(PA_15);
DigitalIn button(USER_BUTTON);
bool sensor[13];
//DigitalIn limit_switch1(A0);
//DigitalIn limit_switch2(A1);
// Multitasker
Ticker timer;
/*********************************************************************************************/
/** DEKLARASI VARIABEL GLOBAL **/
/*********************************************************************************************/
float gMax_speed=0.7; //nilai maksimum kecepatan motor
float gMin_speed=-0.05; //nilai minimum kecepatan motor
float gTuning = 0.36;
unsigned char gMode=0; //variabel mode driving (manual = 0 otomatis = 1)
unsigned char gCase=0; //variabel keadaan proses
unsigned char i; // variabel iterasi
int over=0;
/*********************************************************************************************/
/** DEKLARASI PROSEDUR DAN FUNGSI **/
/*********************************************************************************************/
void init_sensor()
{
if((ps2.read(PS_PAD::PAD_CIRCLE)==1))
{
calibrate=0;
}
else
{
calibrate=1;
}
sensor[0]=(S1.read()==1);
sensor[1]=(S2.read()==1);
sensor[2]=(S3.read()==1);
sensor[3]=(S4.read()==1);
sensor[4]=(S5.read()==1);
sensor[5]=(S6.read()==1);
sensor[6]=(S7.read()==1);
sensor[7]=(S8.read()==1);
sensor[8]=(S9.read()==1);
sensor[9]=(S10.read()==1);
sensor[10]=(S11.read()==1);
sensor[11]=(S12.read()==1);
sensor[12]=(S13.read()==1);
}
void PIDrunning() //menjalankan perintah untuk line follower
{
int pv;
float speedR,speedL;
//init_sensor();
//////////////////logic dari PV (present Value)/////////////////////////
if(sensor[0]){
pv = -12;
over=1;
}
else if(sensor[12]){
pv = 12;
over=2;
}
else if(sensor[0] && sensor[1]){
pv = -10;
}
else if(sensor[11] && sensor[12]){
pv = 10;
}
else if(sensor[1]){
pv = -9;
}
else if(sensor[11]){
pv = 9;
}
else if(sensor[1] && sensor[2]){
pv = -8;
}
else if(sensor[10] && sensor[11]){
pv = 8;
}
else if(sensor[2]){
pv = -7;
}
else if(sensor[10]){
pv = 7;
}
else if(sensor[2] && sensor[3]){
pv = -6;
}
else if(sensor[9] && sensor[10]){
pv = 6;
}
else if(sensor[3]){
pv = -5;
}
else if(sensor[9]){
pv = 5;
}
else if(sensor[3] && sensor[4]){
pv = -4;
}
else if(sensor[8] && sensor[9]){
pv = 4;
}
else if(sensor[4]){
pv = -3;
}
else if(sensor[8]){
pv = 3;
}
else if(sensor[4] && sensor[5]){
pv = -2;
}
else if(sensor[7] && sensor[8]){
pv = 2;
}
else if(sensor[5]){
pv = -1;
}
else if(sensor[7]){
pv = 1;
}
else if(sensor[5] && sensor[6]){
pv = -0.5;
}
else if(sensor[6] && sensor[7]){
pv = 0.5;
}
else if (sensor[6]){
pv = 0;
}
else
{
///////////////// robot bergerak keluar dari sensor/////////////////////
if(over==1){
/*if(speed_ka > 0){
wait_ms(10);
motor2.speed(-speed_ka);
wait_ms(10);
}
else{
motor2.speed(speed_ka);
}
wait_ms(10);*/
motor1.brake(1);
//wait_ms(100);
}
else if(over==2){
/*if(speed_ki > 0){
wait_ms(10);
motor1.speed(-speed_ki);
wait_ms(10);
}
else{
wait_ms(10);
motor1.speed(speed_ki);
wait_ms(10);
}
wait_ms(10);*/
motor2.brake(1);
//wait_ms(100);
}
}
PID.setProcessValue(pv);
PID.setSetPoint(0);
// memulai perhitungan PID
speedR = gMax_speed - PID.compute();
if(speedR > gMax_speed){
speedR = gMax_speed;
}
else if(speedR < gMin_speed)
speedR = gMin_speed;
motor2.speed(speedR);
speedL = gMax_speed + PID.compute();
if(speedL > gMax_speed)
speedL = gMax_speed;
else if(speedL < gMin_speed)
speedL = gMin_speed;
motor1.speed(speedL);
}
void showLCD() //menampilkan user interface pada LCD
{
lcd.cls();
lcd.locate(5,0);
lcd.printf("GarudaGo !!");
switch(gCase)
{
case 0 :
{
lcd.locate(2,2);
lcd.printf("speed = %.4f",gMax_speed);
break;
}
case 1 :
{
if (gMode == 1)
{
lcd.locate(3,1);
lcd.printf("Mode = Otomatis");
}
else if (gMode==0)
{
lcd.locate(3,1);
lcd.printf("Mode = Manual");
}
break;
}
}
lcd.locate(2,3);
lcd.printf("%d",S1.read());
lcd.locate(3,3);
lcd.printf("%d",S2.read());
lcd.locate(4,3);
lcd.printf("%d",S3.read());
lcd.locate(5,3);
lcd.printf("%d",S4.read());
lcd.locate(6,3);
lcd.printf("%d",S5.read());
lcd.locate(7,3);
lcd.printf("%d",S6.read());
lcd.locate(8,3);
lcd.printf("%d",S7.read());
lcd.locate(9,3);
lcd.printf("%d",S8.read());
lcd.locate(10,3);
lcd.printf("%d",S9.read());
lcd.locate(11,3);
lcd.printf("%d",S10.read());
lcd.locate(12,3);
lcd.printf("%d",S11.read());
lcd.locate(13,3);
lcd.printf("%d",S12.read());
lcd.locate(14,3);
lcd.printf("%d",S13.read());
}
void running() //prosedur utama untuk kendali robot
{
float speed=gMax_speed;
float k=1;
switch(gCase)
{
case 0 :
{
motor1.brake(1);
motor2.brake(1);
if((ps2.read(PS_PAD::PAD_R2)==1) && (ps2.read(PS_PAD::PAD_L2)==0))
gMax_speed += 0.00008;
else if((ps2.read(PS_PAD::PAD_R2)==0) && (ps2.read(PS_PAD::PAD_L2)==1))
gMax_speed -= 0.00008;
if (gMax_speed > 1.0)
gMax_speed = 1.0;
else if(gMax_speed < 0)
gMax_speed = 0.0;
if((ps2.read(PS_PAD::PAD_START)==1) && (ps2.read(PS_PAD::PAD_R2)==0) && (ps2.read(PS_PAD::PAD_L2)==0))
{
gCase++;
wait_ms(200);
}
break;
}
case 1 :
{
if (gMode == 1)
{
if ((ps2.read(PS_PAD::PAD_X)==1))
{
PIDrunning();
pc.printf("PID \t %f \t ",PID.compute());
for(i=0;i<13;i++)
{
pc.printf("%i \t",sensor[i]);
}
pc.printf("\n");
}
else if((ps2.read(PS_PAD::PAD_X)==0))
{
motor1.brake(1);
motor2.brake(1);
pc.printf("PID stop \n");
}
}
else if (gMode == 0)
{
if ((ps2.read(PS_PAD::PAD_TOP)==1) && (ps2.read(PS_PAD::PAD_BOTTOM)==0) && (ps2.read(PS_PAD::PAD_R1)==0) && (ps2.read(PS_PAD::PAD_L1)==0)) //maju
{
if (speed < 0.1)
speed = 0.1;
else
speed += 0.0001;
if (speed >= gMax_speed)
speed = gMax_speed;
motor1.speed(speed*k);
motor2.speed(speed*k);
pc.printf("maju \n");
}
else if ((ps2.read(PS_PAD::PAD_TOP)==0) && (ps2.read(PS_PAD::PAD_BOTTOM)==1) && (ps2.read(PS_PAD::PAD_R1)==0) && (ps2.read(PS_PAD::PAD_L1)==0)) //mundur
{
if (speed < 0.1)
speed = 0.1;
else
speed += 0.0001;
if (speed >= gMax_speed)
speed = gMax_speed;
motor1.speed(-speed*k);
motor2.speed(-speed*k);
pc.printf("mundur \n");
}
else if ((ps2.read(PS_PAD::PAD_TOP)==0) && (ps2.read(PS_PAD::PAD_BOTTOM)==0) && (ps2.read(PS_PAD::PAD_R1)==0) && (ps2.read(PS_PAD::PAD_L1)==1)) //pivot kiri
{
if (speed < 0.1)
speed = 0.1;
else
speed += 0.0001;
if (speed >= gMax_speed)
speed = gMax_speed;
motor1.speed(speed*k*0.7);
motor2.speed(-speed*k*0.7);
pc.printf("piv kiri \n");
}
else if ((ps2.read(PS_PAD::PAD_TOP)==0) && (ps2.read(PS_PAD::PAD_BOTTOM)==0) && (ps2.read(PS_PAD::PAD_R1)==1) && (ps2.read(PS_PAD::PAD_L1)==0)) //pivot kanan
{
if (speed < 0.1)
speed = 0.1;
else
speed += 0.0001;
if (speed >= gMax_speed)
speed = gMax_speed;
motor1.speed(speed*k*0.7-gTuning);
motor2.speed(-speed*k*0.7);
pc.printf("piv kanan \n");
}
else if ((ps2.read(PS_PAD::PAD_TOP)==0) && (ps2.read(PS_PAD::PAD_BOTTOM)==0) && (ps2.read(PS_PAD::PAD_R1)==0) && (ps2.read(PS_PAD::PAD_L1)==0))
{
motor1.brake(0);
motor2.brake(0);
pc.printf("stop \n");
}
}
else
{
motor1.brake(1);
motor2.brake(1);
pc.printf("no PID no MANUAL \n");
}
if((ps2.read(PS_PAD::PAD_SELECT)==1) && (ps2.read(PS_PAD::PAD_START)==0))
{
if (gMode==1)
{
gMode=0;
wait_ms(200);
}
else
{
gMode=1;
wait_ms(200);
}
}
if((ps2.read(PS_PAD::PAD_START)==1) && (ps2.read(PS_PAD::PAD_SELECT)==0))
{
gCase--;
wait_ms(200);
}
break;
}
}
}
/*********************************************************************************************/
/*********************************************************************************************/
/** PROGRAM UTAMA **/
/*********************************************************************************************/
/*********************************************************************************************/
int main(void){
//inisialisasi joystick
ps2.init();
//inisialisasi PID
PID.setInputLimits(-15,15);
PID.setOutputLimits(-1.0,1.0);
PID.setMode(1.0);
PID.setBias(0.0);
PID.reset();
// serial PC
pc.baud(115200);
//multitasking untuk menampilkan layar
startMillis();
uint32_t lastTime = 0;
int lcd_refresh_rate = 10;
while(1)
{
if(millis() - lastTime >= lcd_refresh_rate)
{
showLCD;
}
init_sensor();
ps2.poll();
running();
}
}