Tony Lin
/
BX-car_s
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main.cpp
- Committer:
- TonyLin
- Date:
- 2014-06-28
- Revision:
- 17:af867c7512bb
- Parent:
- 16:b1e11b865d05
- Child:
- 18:88b083db7491
File content as of revision 17:af867c7512bb:
#include "mbed.h"
#include "controller.h"
#include "servo_api.h"
#include "camera_api.h"
#include "motor_api.h"
#include "pot.h"
#define Debug_cam_uart
#define R_eye
#define motor_on
#define Pcontroller
#define task_ma_time
#define offset 65
#include "TSISensor.h"
Serial pc(USBTX, USBRX);
BX_servo servo;
BX_camera cam;
BX_motor MotorA('A');
BX_motor MotorB('B');
BX_pot pot1('1'); // 90/30=3
BX_pot pot2('2');
PID cam_to_M_ctrlr(10.0,118.0,0.06,0.11,(0.104/30),0.0,0.0,10);
DigitalOut task_pin(PTD1);
TSISensor tsi;
void run();
int main()
{
pc.baud(115200);
/*while(1) {
if(tsi.readPercentage()>0.00011)
break;
}*/
pc.printf("hello\n");
run();
return 0;
}
void run()
{
double motor, angle=0.0;
double b_r_c;
double PID_v;
double error , P, I, D, kp, r_kp;
double last_error=0.0 ,last_I=0.0, last_brc, brc_df;
bool first_time=true, r_kp_neg=false;
while(1) {
#ifdef task_ma_time
task_pin=1;
#endif
cam.read();
#ifdef Debug_cam_uart
#ifdef L_eye
for(int i=0; i<128; i++) {
if(i==64)
pc.printf("X");
else
pc.printf("%c", cam.sign_line_imageL[i]);
}
pc.printf(" || ");
#endif
#ifdef R_eye
for(int i=128; i>=0; i--) {
if(i==64)
pc.printf("X");
else if(i<10)
pc.printf("-");
else if(i>117)
pc.printf("-");
else
pc.printf("%c", cam.sign_line_imageR[i]);
}
pc.printf("\r\n");
#endif
#endif
#ifdef motor_on
motor=pot1.read();
MotorA.rotate(0.0);
MotorB.rotate(0.0);
#endif
b_r_c=(double)cam.black_centerR();
//pc.printf("%d %d speed :%f bk_center %f PID:%f \r\n",cam.de_v,cam.de_v2,motor,b_r_c,PID_v);
//compute
//stand at 65
error=b_r_c-offset;
brc_df=b_r_c-last_brc;
last_brc=b_r_c;
if(first_time==true){
r_kp=0;
first_time=false;
}
else{
r_kp+=brc_df;
}
if(r_kp<0.0){
r_kp*=-1.0;
r_kp_neg=true;
}
kp=0.016/(1280-r_kp);
if(r_kp_neg==true){
r_kp_neg=false;
r_kp*=-1.0;
}
P=kp*error;
I=last_I*2.0/3.0+error;
last_I=I;
I=(kp*0.02/0.04)*I;
D=error-last_error;
last_error=error;
D=(kp*0.04/0.02)*D;
PID_v=P;
if(PID_v < 0.0) {
PID_v*=-1.0;
PID_v=0.077-PID_v;
} else if(PID_v > 0.0)
PID_v=0.077+PID_v;
else
PID_v=0.077;
pc.printf("%lf %lf %lf\r\n",PID_v, r_kp, b_r_c);
//pc.printf("%lf\r\n",angle);
servo.set_angle(PID_v);
#ifdef task_ma_time
task_pin=0;
#endif
}
}