aigamozu
commentの追加 by Yokokawa
Dependencies: ADXL345 AigamozuControlPackets HMC5843 ITG3200 MBed_Adafruit-GPS-Library XBee agzIDLIST agz_common mbed
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Aigamozu_Robot_ver1_2
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aigamozu
main.cpp
- Committer:
- s1200058
- Date:
- 2015-05-12
- Revision:
- 8:447211fa24dd
- Parent:
- 6:4abf031b5ccc
File content as of revision 8:447211fa24dd:
/**********************************************/
//
//
//
// Program name: Aigamozu BASE
// Author: Mineta Kizuku
//
//
/**********************************************/
/**********************************************/
//更新情報
//2015/05/11
//ベースプログラムの作成
//
//2015/05/12
//ロボットプログラムへの変更
//
//main()内でAutoModeのときでかつ2000ms経った時にGPSを取得する。
//auto_Move()の作成
////GPSをセットする。
////gpsAutoを使いInAreaかOutAreaの判定。
////GPSをプリントする。
//
//AigamozuControlPackets内
////GPSの設定
////get_KAlman, set_autoGPS, set_KalmanGPS系の関数の作成。
////set_GPS系関数内
////呼び出すごとに+=0.0001等を設定
//
/**********************************************/
#include "mbed.h"
#include "XBee.h"
#include "MBed_Adafruit_GPS.h"
#include "AigamozuControlPackets.h"
#include "agzIDLIST.h"
#include "aigamozuSetting.h"
#include "agz_common.h"
#include "Kalman.h"
//************ID Number*****************
const char MyID = 'D';
//************ID Number*****************
/////////////////////////////////////////
//
//Pin Setting
//
/////////////////////////////////////////
VNH5019 agz_motorShield(p21,p22,p23,p24,p25,p26);
/////////////////////////////////////////
//
//Connection Setting
//
/////////////////////////////////////////
//Serial Connect Setting: PC <--> mbed
Serial pc(USBTX, USBRX);
//Serial Connect Setting: GPS <--> mbed
Serial * gps_Serial;
//Serial Connect Setting: XBEE <--> mbed
XBee xbee(p13,p14);
ZBRxResponse zbRx = ZBRxResponse();
//set up GPS module
//set up AigamozuControlPackets library
AigamozuControlPackets agz(agz_motorShield);
/////////////////////////////////////////
//
//For Kalman data
//
/////////////////////////////////////////
double sigmaGPS[2][2] = {{250,0},{0,250}};
double K[2][2][2]= {{{1,0},{0,1}},{{1,0},{0,1}}};
double sigma[2][2][2]= {{{250,0},{0,250}},{{250,0},{0,250}}};
double y[2],x[2][2]={0};
void Kalman(double Latitude,double Longitude,Adafruit_GPS *myGPS);
/////////////////////////////////////////
//
//Address List
//
/////////////////////////////////////////
XBeeAddress64 base_Address[BaseNumber] = {XBeeAddress64(BASE1_32H,BASE1_32L), XBeeAddress64(BASE2_32H,BASE2_32L),
XBeeAddress64(BASE3_32H,BASE3_32L), XBeeAddress64(BASE4_32H,BASE4_32L),
XBeeAddress64(BASE5_32H,BASE5_32L)};
XBeeAddress64 robot_Address[RobotNumber] = {XBeeAddress64(ROBOT1_32H,ROBOT1_32L), XBeeAddress64(ROBOT1_32H,ROBOT1_32L)};
XBeeAddress64 manager_Address = XBeeAddress64(BASE1_32H,BASE1_32L);
/////////////////////////////////////////
//
//Send_Status
//
//リクエストがきたとき、自分の位置情報などを返信する
/////////////////////////////////////////
void Send_Status(char SenderIDc){
XBeeAddress64 send_Address;
if(SenderIDc == '0'){
send_Address = manager_Address;
}
if(SenderIDc >= 'A' && SenderIDc <= 'Z'){
send_Address = robot_Address[SenderIDc - 'A'];
}
if(SenderIDc >= 'a' && SenderIDc <= 'z'){
send_Address = base_Address[SenderIDc - 'a'];
}
//send normal data
//Create GPS Infomation Packet
// agz.createReceiveStatusCommand(MyID,SenderIDc,agz.get_agzPoint_lati(),agz.get_agzPoint_longi(),
// agz.get_agzPointKalman_lati(),agz.get_agzPointKalman_longi(),
// agz.get_agzCov_lati(),agz.get_agzCov_longi());
//Select Destination
// ZBTxRequest tx64request(send_Address,agz.packetData,agz.getPacketLength());
//Send -> Base
// xbee.send(tx64request);
}
/////////////////////////////////////////
//
//Get GPS function
//
/////////////////////////////////////////
void Get_GPS(Adafruit_GPS *myGPS){
static bool flag = true;
if (myGPS->fix) {
agz.nowStatus = GPS_AVAIL;
if(flag){//初期値設定
if(myGPS->longitudeH>=138 && myGPS->longitudeH<=141 && myGPS->latitudeH>=36 && myGPS->latitudeH<=38){
flag = false;
x[0][0]=(double)myGPS->latitudeL;
x[0][1]=(double)myGPS->longitudeL;
}
}
if(myGPS->longitudeH<138 || myGPS->longitudeH>141 || myGPS->latitudeH<36 || myGPS->latitudeH>38){
return;
}
//Kalman Filter
Kalman(myGPS->latitudeL,myGPS->longitudeL,myGPS);
agz.reNewRobotPoint(myGPS->longitudeH,myGPS->longitudeL,myGPS->latitudeH,myGPS->latitudeL);
agz.reNewRobotPointKalman(myGPS->longitudeKH,myGPS->longitudeKL,myGPS->latitudeKH,myGPS->latitudeKL);
}
else agz.nowStatus = GPS_UNAVAIL;
}
/////////////////////////////////////////
//
//Kalman Processing
//
/////////////////////////////////////////
void get_K(){
double temp[2][2]={
{sigma[0][0][0]+sigmaGPS[0][0],sigma[0][0][1]+sigmaGPS[0][1]},
{sigma[0][1][0]+sigmaGPS[1][0],sigma[0][1][1]+sigmaGPS[1][1]}
};
double ad_bc = temp[0][0]*temp[1][1]-temp[1][0]*temp[0][1];
K[1][0][0] = sigma[0][0][0]*(1/ad_bc)*(temp[1][1]);
K[1][1][1] = sigma[0][1][1]*(1/ad_bc)*(temp[0][0]);
}
void get_x(){
x[1][0] = x[0][0]+K[1][0][0]*(y[0]-x[0][0]);
x[1][1] = x[0][1]+K[1][1][1]*(y[1]-x[0][1]);
}
void get_sigma(){
double temp[2][2];
for(int i=0;i<2;i++) {
for(int j=0;j<2;j++) {
for(int k=0;k<2;k++) {
temp[i][j]+=K[1][i][k]*sigma[0][k][j];
}
}
}
for(int i = 0;i < 2;i++){
for(int j = 0;j < 2;j++){
sigma[1][i][j] = sigma[0][i][j]-temp[i][j];
}
}
}
void Kalman(double Latitude,double Longitude,Adafruit_GPS *myGPS){
y[0] = Latitude;
y[1] = Longitude;
//K[t+1] = sigma[t]*Inverse[sigma[t]+sigmaGPS];
get_K();
//x[t+1] = x[t]+K[t+1]*(y[t*1]-x[t]);
get_x();
//sigma[t+1] = sigma[t]-K[t+1]*sigma[t];
get_sigma();
//kousinn
for(int i = 0;i < 2;i++){
for(int j = 0;j < 2;j++){
K[0][i][j]=K[1][i][j];
x[0][i]=x[1][i];
sigma[0][i][j]=sigma[1][i][j];
}
}
myGPS->latitudeKH=myGPS->latitudeH;//latitude after filtering
myGPS->longitudeKH=myGPS->longitudeH;//longitude after filtering
myGPS->latitudeKL=(long)x[1][0];//latitude after filtering
myGPS->longitudeKL=(long)x[1][1];//longitude after filtering
agz.set_agzCov(sigma[0][0][0],sigma[0][1][1]);
}
void auto_Move(){
bool result;
int i;
result = agz.gpsAuto();
agz.set_agzAutoGPS();
agz.set_agzKalmanGPS();
if(result == true){
printf("Out Area\n");
}
else if(result == false){
printf("In Area\n");
}
for(i = 0; i < 4; i++){
printf("%d: %f, %f\n", i, agz.get_basePointKalman_lati(i), agz.get_basePointKalman_longi(i));
}
printf("robot: %f, %f\n", agz.get_agzPointKalman_lati(), agz.get_agzPointKalman_longi());
}
/////////////////////////////////////////
//
//Main Processing
//
/////////////////////////////////////////
int main() {
//start up time
wait(3);
//set pc frequency to 57600bps
pc.baud(PC_BAUD_RATE);
//set xbee frequency to 57600bps
xbee.begin(XBEE_BAUD_RATE);
//GPS setting
gps_Serial = new Serial(p28,p27);
Adafruit_GPS myGPS(gps_Serial);
Timer refresh_Timer;
const int refresh_Time = 2000; //refresh time in ms
myGPS.begin(GPS_BAUD_RATE);
char SenderIDc;
Timer auto_Timer;
const int auto_Time = 2000;
agz.nowMode = AUTO_MODE;
//GPS Send Command
myGPS.sendCommand(PMTK_SET_NMEA_OUTPUT_RMCONLY);
myGPS.sendCommand(PMTK_SET_NMEA_UPDATE_1HZ);
myGPS.sendCommand(PGCMD_ANTENNA);
wait(2);
//interrupt start
refresh_Timer.start();
auto_Timer.start();
while (true) {
//Check Xbee Buffer Available
xbee.readPacket();
if (xbee.getResponse().isAvailable()) {
xbee.getResponse().getZBRxResponse(zbRx);
uint8_t *buf = zbRx.getFrameData();
if (xbee.getResponse().getApiId() == ZB_RX_RESPONSE) {
xbee.getResponse().getZBRxResponse(zbRx);
uint8_t *buf = zbRx.getFrameData();//フレームデータを格納する
uint8_t *buf1 = &buf[11];//データの部分のみを格納する
SenderIDc = buf1[5];//送信元のIDを取得する
char Command_type =agz.checkCommnadType(buf);//コマンドタイプを取得する
//Check Command Type
switch(Command_type){
//Get Request command
case STATUS_REQUEST:{
Send_Status(SenderIDc);
break;
}
default:{
break;
}
}//endswitch
}//endifZB_RX_RESPONSE
}//endifisAvailable
myGPS.read();
//recive gps module
//check if we recieved a new message from GPS, if so, attempt to parse it,
if ( myGPS.newNMEAreceived() ) {
if ( !myGPS.parse(myGPS.lastNMEA()) ) {
continue;
}
}
if (refresh_Timer.read_ms() >= refresh_Time) {
refresh_Timer.reset();
Get_GPS(&myGPS);
}
if(agz.nowMode == AUTO_MODE && auto_Timer.read_ms() >= auto_Time){
auto_Timer.reset();
auto_Move();
}
}
}