Kyohei Shinomoto
/
YNU_MPUd2h
ynu_mpu add vertical guidance
Fork of YNU_MPUd2 by
main.cpp
- Committer:
- khoshino
- Date:
- 2013-01-07
- Revision:
- 2:30f96c159d9c
- Parent:
- 1:ca296cfa603b
- Child:
- 3:17236ad0ff1e
File content as of revision 2:30f96c159d9c:
#include "mbed.h" #include "SDFileSystem.h" #define pi 3.1416 #define data 6 #define zer 0.0 #define hal 0.5 #define one 1.0 #define dtr 0.01745 #define rtd 57.3 //parameter// #define dt1 0.2 // 1/N #define hdt 0.1 // 1/2N #define md 6 //kizami N #define mt 7 //md+1 #define mx 4 #define mv 8 #define mh 56 //mt*mv Serial pc(USBTX, USBRX); DigitalOut led1(LED1); DigitalOut led2(LED2); DigitalOut led3(LED3); DigitalOut led4(LED4); SDFileSystem sd(p5, p6, p7, p8, "sd"); Serial mavc(p9, p10); DigitalIn stop_sd(p11); int main() { // ******************** TORATANI ******************** //pc.baud(921600); mavc.baud(115200); char buf_char; unsigned int buf_hex[30] = {0}; unsigned int buf_dec[10] = {0}; // rx double acc[3] = {0}; double gyro[3] = {0}; double azi; double alt; double GPS[2] = {0}; // tx double com[3] = {0}; char H; char D[data]; char test[9]; H = 0x02; // header of dateset2 D[0] = 0xff; D[1] = 0xff; // p_com D[2] = 0x7f; D[3] = 0xff; // q_com D[4] = 0x00; D[5] = 0x00; // r_com // ******************** TORATANI ******************** // ******************** HOSHINO ********************* float time = 0; //time float xs = 0; float ys = 0; float psis = 0; float x0 = 0; float y0 = 0; float psi0 = 0; float xf = 200; //syuutandaunrenji float h0 = 200; float hf = 10; float gm0 = 20*pi/180; float gmf = 5*pi/180; float b0 = h0; float b1 = tan(gm0); float b2 = (3*(hf-h0)-xf*(2*tan(gm0)+tan(gmf)))/(xf*xf); float b3 = -(2*(hf-h0)-xf*(tan(gm0)+tan(gmf)))/(xf*xf*xf); float hr = 0; float x = 0; float ua = 10; //initial horizontal velosity float xs1 = 0; float ys1 = 0; float xr = 0; float yr = 0; float drc = 0; float dr = 0; float dt = 0.1; float psi = 1; float s = 0; //homotopy float drf = 800.0; float rps0 = 90.0; float rxi0 = -600.0; float ret0 = -200.0; float ps0 = rps0*dtr; float xi0 = rxi0/drf; float et0 = ret0/drf; float eps = 0.00000001; float ueps = 0.000001; float ier = 0.0; float sum = 0.0; float ph0[mh] = {0.0}; float phi[mh] = {0.0}; float fn[mh] = {0.0}; float wk[mh] = {0.0}; int iwk[mh] = {0}; float dph1[mh] = {0.0}; float dph2[mh] = {0.0}; float dph3[mh] = {0.0}; float dph4[mh] = {0.0}; float fph[mh][mh] = {0.0}; float fpi[mh][mh] = {0.0}; float x1[4][mt] = {0.0}; float rl[4][mt] = {0.0}; float qmax=0.0; float rdet =1.0; float idet =0.0; float t = 0.0; float phf[mh]={0.0}; //********************* HOSHINO ********************* FILE *fp = fopen("/sd/sdtest.txt", "w"); if(fp == NULL) { error("Could not open file for write\n"); } while(1){ //for(int j=0;j<1800;j++){ flag tukuru // for 2 minuts // ******************** sequence No.1 ******************** buf_char = mavc.getc(); buf_hex[0] = (unsigned int)buf_char; for(int i=0;i<29;i++){ buf_hex[29-i] = buf_hex[28-i]; } // !!! switch bun ni suru if(buf_hex[29]==0x40 && buf_hex[28]==0x43 && buf_hex[27]==0x4D && buf_hex[26]==0x0D){ // ******************** sequence No.1 ******************** // ******************** sequence No.2 ******************** // send to mavc mavc.putc(H); for(int i=0;i<data;i++){ mavc.putc(D[i]); } //for(int i=0;i<9;i++){ mavc.putc(test[i]); } // ******************** sequence No.2 ******************** // ******************** sequence No.3 ******************** // buf | 25 | 24 | 23 | 22 | 21 | 20 | 19 | 18 | 17 | 16 | 15 | 14 | 13 | 12 | 11 | 10 | 9 | 8 | 7 | 6 | 5 | // |header| AccX | AccY | AccZ | GyroX | GyroY | GyroZ | Azimuth | Altitude| GPSX | GPSY | // | H | D[1] | D[2] | D[3] | D[4] | D[5] | D[6] | D[7] | D[8] | D[9] | D[10] | // transrating hex to dec for(int i=0;i<10;i++){ buf_dec[i] = buf_hex[24-i*2]*256+buf_hex[23-i*2]; } // wakariyasuku surutame bunnkatsu, honnrai ha matrix ga yoi // -> saisyuteki niha matrix ni simasu? for(int i=0;i<3;i++){ acc[i] = ((double)buf_dec[i]-32768)/65535*20*9.8; } for(int i=0;i<3;i++){ gyro[i] = ((double)buf_dec[i+3]-32768)/65535*600/180*pi; } azi = (double)buf_dec[6]/65535*2*pi; alt = ((double)buf_dec[7]-32768)*0.1; for(int i=0;i<2;i++){ GPS[i] = ((double)buf_dec[i+8]-32768)*0.1; } // ******************** sequence No.3 ******************** // ******************** initialization ******************* if(t == 0){ x0 = GPS[0]; y0 = GPS[1]; psi0= azi; } xs = GPS[0] - x0; ys = GPS[1] - y0; psis= azi - psi0; // ******************** initialization ******************* // ******************** interpolation ******************** dr = dr + ua * dt; xr = xr + ua * dt * cos(psi); yr = yr + ua * dt * sin(psi); if (xs != xs1 || fabs(xs-xs1)<50) { s = (xs-xs1)*(xs-xs1)+(ys-ys1)*(ys-ys1); ua = 0.5*(ua+sqrt(s)); drc = drc+ua; dr= drc; xr=xs; yr=ys; } xs1=xs; ys1=ys; // ******************** interpolation ******************** // ******************** guidance law WO homo ************* hr = b0 + b1*x + b2*x*x + b3*x*x*x; /* c = drp-dr[i]; c1= dr[i+1]-drp; if(c >=0 && c1 >= 0) { c0=c/(dr[i+1]-dr[i]); c1=c1/(dr[i+1]-dr[i]); psc=c0*ps[i+1]+c1*ps[i]; xic=c0*xi[i+1]+c1*xi[i]; etc=c0*et[i+1]+c1*et[i]; break; } */ // ******************** guidance law WO homo ************* // ******************** control law ********************** // transrating dec to hex //com // ******************** control law ********************** //pc.printf("%7.4f %7.4f %7.4f %7.3f %7.3f %7.3f %8.5f %8.1f %8.1f %8.1f\r\n", acc[0], acc[1], acc[2], gyro[0], gyro[1], gyro[2], azi, alt, GPS[0], GPS[1]); //fprintf(fp, "%7.4f %7.4f %7.4f %7.3f %7.3f %7.3f %8.5f %8.1f %8.1f %8.1f\r\n", acc[0], acc[1], acc[2], gyro[0], gyro[1], gyro[2], azi, alt, GPS[0], GPS[1]); } time = time + 0.1; } fclose(fp); led1 = 1; led2 = 1; led3 = 1; led4 = 1; }