CanSat-C 2021
気球試験1,2回目 3回目はtest2-xbee
Dependencies: ATP3012 mbed a HMC US015_2 getGPS
Function.h
- Committer:
- miyajitakenari
- Date:
- 2021-12-19
- Revision:
- 0:e386cbba36d5
File content as of revision 0:e386cbba36d5:
#include "mbed.h"
#include "getGPS.h"
#include "us015.h"
#include "HMC6352.h"
#include "TB6612.h"
#include "ATP3011.h"
US015 hs(D2,D3);
DigitalOut Ultra(D2);
GPS gps(D1, D0);
HMC6352 compass(D4, D5);
ATP3011 talk(D4,D5); // I2C sda scl
TB6612 motor_a(D10,D6,D7); //モータA制御用(pwma,ain1,ain2)
TB6612 motor_b(D11,D8,D9); //モータB制御用(pwmb,bin1,bin2)
Serial xbee(A7, A2);
double GPS_x, GPS_y; // 現在地の座標
double theta;
double delta;
int FrontGet()
{
Ultra = 1; //超音波on
hs.TrigerOut();
wait(1);
int distance;
distance = hs.GetDistance();
xbee.printf("distance=%d\r\n", distance); //距離出力
Ultra=0;//超音波off
if(distance < 1500) {
return 1;
}
else {
return 0;
}
}
void catchGPS()
{
xbee.printf("GPS Start\r\n");
/* 1秒ごとに現在地を取得してターミナル出力 */
while(1) {
if(gps.getgps()) { //現在地取得
xbee.printf("%lf %lf\r\n", gps.latitude, gps.longitude);//緯度と経度を出力
GPS_x = gps.latitude;
GPS_y = gps.longitude;
break;
}
else {
xbee.printf("No data\r\n");//データ取得に失敗した場合
wait(1);
}
}
return;
}
void Move(char input_data, float motor_speed) {
switch (input_data) {
case '1': // 停止
motor_a = 0;
motor_b = 0;
break;
case '2': // 前進
motor_a = motor_speed;
motor_b = motor_speed;
break;
case '3': // 後退
motor_a = -motor_speed;
motor_b = -motor_speed;
break;
case '4': // 時計回りに回転
motor_a = motor_speed;
motor_b = -motor_speed;
break;
case '5': // 反時計回りに回転
motor_a = -motor_speed;
motor_b = motor_speed;
break;
case '6': // Aのみ正転
motor_a = motor_speed;
break;
case '7': // Bのみ正転
motor_b = motor_speed;
break;
case '8': // Aのみ逆転
motor_a = -motor_speed;
break;
case '9': // Bのみ逆転
motor_b = -motor_speed;
break;
}
}
double AngleGet(double next_x, double next_y)
{
double angle = 0;
compass.setOpMode(HMC6352_CONTINUOUS, 1, 20);
angle = compass.sample() / 10;
double theta;
double delta;
xbee.printf("gps.latitude=%f, gps.longitude=%f\r\n", gps.latitude, gps.longitude);
theta = atan2(next_y - gps.longitude , next_x - gps.latitude) * 180 / 3.14159265359;
if(theta >= 0) {
delta = angle - theta;
}
else {
theta = theta + 360;
delta = angle - theta;
}
if(delta<0){
delta+=360;
}
xbee.printf("%f-%f=%f\r\n", angle, theta, delta);
return delta;
}
void Calibration()
{
xbee.printf("calibration start\r\n");
compass.setCalibrationMode(0x43);
Move('4', 0.19);
wait(60);
Move('1', 0);
compass.setCalibrationMode(0x45);
xbee.printf("calibration end\r\n");
while(1) {
if(gps.getgps()) { //現在地取得
xbee.printf("lati=%lf\nlong=%lf\r\n", gps.latitude, gps.longitude);//緯度と経度を出力
GPS_x = gps.latitude;
GPS_y = gps.longitude;
break;
}
else {
xbee.printf("No data\r\n");//データ取得に失敗した場合
wait(1);
}
}
return;
}
/*地上局から新情報を送るときはflag=がでてきたらスペースか.を入力
3秒後ぐらいにmessage=が出てくるので、そしたら新情報を入力*/
void speak()
{
int timeout_ms=500;
char mess[100];
float as;
if(talk.IsActive(timeout_ms)==true){
xbee.printf("Active\n\rflag=");
wait(3);
if(xbee.readable()){
xbee.printf("\n\rmessage=");
int i=0;
do{
mess[i++]= xbee.getc();
}
while(mess[i-1]!= 0x0d && i<99);
talk.Synthe(mess);
xbee.printf("advance speed=");
xbee.scanf("%f",&as);
}
else{
xbee.printf("preset_message speak\r\n");
talk.Synthe("hinannyuudoudesu,,tuitekitekudasai.");
as=0.39;
}
}
else{
xbee.printf("\r\nNot Active\n");
as=0.39;
}
Move('2', as);
xbee.printf("mortor mode:2 speed:%f",as);
}