kao yi
running car
main.cpp
- Committer:
- backman
- Date:
- 2014-06-04
- Revision:
- 2:c51647d3c14d
- Parent:
- 1:82bc25a7b68b
- Child:
- 3:c5f2281b3ed2
File content as of revision 2:c51647d3c14d:
#include "mbed.h"
#include "servo_api.h"
#include "camera_api.h"
//BX_servo servo;
Serial pc(USBTX, USBRX);
BX_servo servo;
BX_camera cam;
int main() {
/*
int black_va;
int white_va;
*/
pc.baud(115200);
char find_type=0x00;
int b_end;
int b_start;
int b2_end;
int b2_start;
int center;
int j=64;
bool f1;
bool f2;
bool f3;
bool f4;
while(1){
//
cam.read();
for(int i=0;i<128;i++){
if(i==64)
pc.printf("X");
else
pc.printf("%c", cam.sign_line_imageL[i]);
}
pc.printf(" || ");
for(int i=0;i<128;i++){
if(i==64)
pc.printf("X");
else
pc.printf("%c", cam.sign_line_imageR[i]);
}
pc.printf("\r\n");
// find center
// case 1 // | //
//case 2 / | /
/*
if(cam.sign_line_image[64]==' ')
find_type=0x02;
else
find_type=0x01;
b_start=0;
b_end=0;
b2_start=0;
b2_end=0;
j=64;
f1=false;
f2=false;
f3=false;
f4=false;
for(int i=64;i<128; i++,j--){
switch(find_type){
case 0x01:
if(f1==false&&cam.sign_line_image[i]==' '){
if(f1==false){
b_start=i;
f1=true;
}
}
if(f1== true&& f2==false&&cam.sign_line_image[i]=='O'){
if(f2==false){
b_end=i-1;
f2=true;
}
}
if(f3==false&&cam.sign_line_image[j]==' '){
if(f3==false){
b2_end=j;
f3=true;
}
}
if(f3==true&&f4==false&&cam.sign_line_image[j]=='O'){
if(f4==false){
b2_start=j-1;
f4=true;
}
}
break;
case 0x02:
if(cam.sign_line_image[i]=='O'){
if(f1==false){
b_end=i;
f1=true;
}
}
if(cam.sign_line_image[j]=='O'){
if(f2==false){
b_start=j;
f2=true;
}
}
break;
}
}
switch(find_type){
case 0x01:
if((b_end-b_start)>(b2_end-b2_start) )
center=(b_end+b_start)/2;
else
center=(b2_end+b2_start)/2;
pc.printf("%d %d | %d %d\r\n",b_start,b_end,b2_start,b2_end);
break;
case 0x02:
center=(b_end+b_start)/2;
break;
}
pc.printf("ang :%d\r\n ",( (64.0-center) /64.0 )*90);
//--------------------------------------------
servo.set_angle(( (64.0-center) /64.0 )*90 );
*/
}
//tmp
int angle;
float black_pR=0;
float black_pL=0;
float black_pT=0;
//tune
/*
int min_va=90000;
int max_va=0;
int mid_va=0;
*/
while(1){
black_pR=0;
black_pL=0;
black_pT=0;
// min_va=90000;
// max_va=0;
angle=0;
cam.read();
for(int i=0;i<64;i++){
// angle+=cam.line_image[i]-cam.line_image[127-i];
if(cam.line_imageR[i]==0)
black_pR++;
if(cam.line_imageR[127-i]==0)
black_pL++;
}
black_pT=black_pL+black_pR;
if(black_pL>black_pT/2){
angle=(black_pR/black_pT)*90;
//angle=
}
else if(black_pR>black_pT/2){
angle=-1.0*(black_pR/black_pT)*90;
//angle=-0.5;
}
else{
angle=0;
}
servo.set_angle(angle);
pc.printf("ang: %d",angle);
pc.printf("\r\n");
}
// pc.printf("mid: %d|min: %d | max: %d | diff: %d",mid_va,min_va,max_va,max_va-min_va);
//p - controller
//servo angle not yet contorl
return 0;
}