yal kaiyo
/
YNU_MPU_tora
for hige
Fork of YNU_MPU_1 by
Diff: main.cpp
- Revision:
- 9:a56c340f47c9
- Parent:
- 8:de86cf9ccb89
- Child:
- 10:fe98c33623b6
diff -r de86cf9ccb89 -r a56c340f47c9 main.cpp --- a/main.cpp Thu Jan 10 14:43:14 2013 +0000 +++ b/main.cpp Thu Jan 10 18:14:02 2013 +0000 @@ -2,7 +2,7 @@ #include "SDFileSystem.h" #define pi 3.1416 -#define data 12 +#define data 6 #define zer 0.0 #define hal 0.5 @@ -31,12 +31,12 @@ int main() { // ******************** TORATANI ******************** - //pc.baud(921600); + pc.baud(921600); mavc.baud(115200); int flag_lc = 0; int flag_cm = 0; - int loop = 1200; // for 2 minuts + int loop = 100; // for 2 minuts -> loop = 1200 char buf_char; unsigned int buf_hex_rx[30] = {0}; @@ -52,47 +52,60 @@ double GPS[2] = {0}; // tx - double com[3] = {0}; - char H; - char D[data] = {0}; + float com[3] = {0}; + unsigned int H; + unsigned int D[data] = {0}; H = 0x02; // header of dateset2 + D[0] = 0x7f; D[1] = 0xff; // p_com + D[2] = 0x7f; D[3] = 0xff; // q_com + D[4] = 0x7f; D[5] = 0xff; // r_com + /* D[0] = 0x7; D[1] = 0xf; D[2] = 0xf; D[3] = 0xf; // p_com D[4] = 0x7; D[5] = 0xf; D[6] = 0xf; D[7] = 0xf; // q_com D[8] = 0x7; D[9] = 0xf; D[10] = 0xf; D[11] = 0xf; // r_com + */ // ******************** TORATANI ******************** // ******************** HOSHINO ********************* - float time = 0; //time + float time = 0; //time float xis = 0; - float ets = 0; + float ets = 0; float psis = 0; float x0 = 0; float y0 = 0; - float drf = 800; //syuutandaunrenji - float ht0 = 200; - float htf = 10; + float drf = 100; //syuutandaunrenji + float ht0 = 50; + float htf = 5; float gm0 = 20*pi/180; float gmf = 5*pi/180; float b0 = ht0; float b1 = tan(gm0); float b2 = (3*(htf-ht0)-drf*(2*tan(gm0)+tan(gmf)))/(drf*drf); float b3 = -(2*(htf-ht0)-drf*(tan(gm0)+tan(gmf)))/(drf*drf*drf); - float htc = 0; + float htc = 0; float x = 0; //down range - float ua = 10; //initial horizontal velosity - float xis1 = 0; - float ets1 = 0; - float xir = 0; - float etr = 0; - float drc = 0; - float dr = 0; - float dt = 0.1; - float psr = 0; - float htr = 0; + float ua = 10; //initial horizontal velosity + float xis1 = 0; + float ets1 = 0; + float xir = 0; + float etr = 0; + float drc = 0; + float drp = 0; + float dt = 0.1; + float psr = 0; + float htr = 0; float avp = 0; float avq = 0; float avr = 0; float s = 0; + float c=0; + float c0=0; + float c1=0; + float dr[mt]={0}; + float time1=0; + float kp=0; + float kq=0; + float kr=0; //homotopy float rps0 = 90.0; @@ -131,14 +144,15 @@ float et1[mt]={0.0}; float psc; float etc; + float xic; //********************* HOSHINO ********************* //********************* OHTSU *********************** //teigi - float grv = 9.80665; + float grv = 9.807; float swg = 0.04695; float wgt = 0.76; - float rho = 1.22547328574415; + float rho = 1.2255; float tt1 = 0.8; float omg1 = 1.0; @@ -171,7 +185,8 @@ error("Could not open file for write\n"); } - // ******************** waiting @LC ******************** + // **************** waiting @LC or @FB **************** + // * @LC:0x40 0x4C 0x43 0x0D, @FB:0x40 0x46 0x42 0x0D * // ///////////////////////////////////////////////////// // ////////////////////// NOTICE! ////////////////////// // // flag_lc==1 is debug mode. skip this while loop. // @@ -181,7 +196,7 @@ buf_char = mavc.getc(); buf_hex_rx[0] = (unsigned int)buf_char; for(int i=0;i<29;i++){ buf_hex_rx[29-i] = buf_hex_rx[28-i]; } - if(buf_hex_rx[29]==0x40 && buf_hex_rx[28]==0x4C && buf_hex_rx[27]==0x43 && buf_hex_rx[26]==0x0D){ + if(buf_hex_rx[29]==0x40 && buf_hex_rx[28]==0x46 && buf_hex_rx[27]==0x42 && buf_hex_rx[26]==0x0D){ // ******************** waiting @LC ******************** // ******************** homotopy ******************** @@ -1040,7 +1055,7 @@ wait(1.0); /////////////////// - flag_lc = 1; // end of homotopy + flag_lc = 1; // end of homotopy flag // ******************** homotopy ******************** } @@ -1075,53 +1090,58 @@ // ******************** sequence No.3 ******************** // ******************** initialization ******************* - if(t == 0){ - x0 = GPS[0]; - y0 = GPS[1]; - ps0 = azi; + for(int i=0;i<mt;i++){ + dr[i]=i*drf/md; } - xis = GPS[0] - x0; - ets = GPS[1] - y0; - psr = azi - ps0; - htr = alt; + if(t == 0){ + x0 = GPS[0]; + y0 = GPS[1]; + ps0 = azi; + ht0 = alt; + } + ets = (GPS[0] - x0)*cos(ps0); + xis = (GPS[1] - y0)*sin(ps0); + psr = pi/2 -(azi - ps0); + htr = 50+(alt-ht0); avp = gyro[0]; avq = gyro[1]; avr = gyro[2]; // ******************** initialization ******************* // ******************** interpolation ******************** - dr = dr + ua * dt; + drp = drp + ua * dt; xir = xir + ua * dt * cos(psr); etr = etr + ua * dt * sin(psr); - if (xis != xis1 || fabs(xis-xis1)<50) { + if (xis != xis1 && fabs(xis-xis1)<50) { s = (xis-xis1)*(xis-xis1)+(ets-ets1)*(ets-ets1); - ua = 0.5*(ua+sqrt(s)); - drc = drc+ua; - dr= drc; + ua = 0.5*(ua+sqrt(s)/(time-time1)); + drc = drc+ua*(time-time1); + drp= drc; xir=xis; etr=ets; + xis1=xis; + ets1=ets; } - xis1=xis; - ets1=ets; // ******************** interpolation ******************** // ******************** guidance law WO homo ************* - htc = b0 + b1*dr + b2*dr*dr + b3*dr*dr*dr; + htc = b0 + b1*drp + b2*drp*drp + b3*drp*drp*drp; - /* + for(int i=0;i<mt;i++){ 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; + 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; } - *///kurikaesituika + } + // ******************** guidance law WO homo ************* // ******************** control law ********************** @@ -1130,49 +1150,51 @@ hte=htc-htr; //horizontal + /* gkp=omg1*omg1/grv; gkd=(2*zet1*omg1*cos(gmr*dtr)/grv)*vmr; avpc=1/tt1*(gkd*pse+gkp*ete);// + */ + + //avpc=kp*hte; //vertical + /* v2=vmr*vmr; - dhdt=(hte-hte00)/dt; + dhdt=(hte-hte00)/dt + */ // to translate deg/s to rad/s, add *pi/180. TORATANI - avqc=(-1/tt2*(2/(0.084*rho*v2*swg))*(wgt*grv*cos(gmr*dtr)-wgt*(2*zet2*omg2*dhdt+omg2*omg2*hte)))*pi/180; - hte00=hte; + //avqc=(-1/tt2*(2/(0.084*rho*v2*swg))*(wgt*grv*cos(gmr*dtr)-wgt*(2*zet2*omg2*dhdt+omg2*omg2*hte)))*pi/180; + //hte00=hte; + + //avqc=kq*(pse+ete); + + // dummy output + avpc = avpc+0.001*pi; + avqc = 0; + avrc = avrc-0.001*pi; + + com[0] = avpc; + com[1] = avqc; + com[2] = avrc; // transrating dec to hex for(int i=0;i<3;i++){ buf_dec_tx[i] = 19660.5/pi*com[i]+32768; - // pc.printf("%d ", buf_dec_tx[i]); - - buf_hex_tx[i][0] = buf_dec_tx[i]/4096; - buf_dec_tx[i] = buf_dec_tx[i]-buf_hex_tx[i][0]*4096; - buf_hex_tx[i][1] = buf_dec_tx[i]/256; - buf_dec_tx[i] = buf_dec_tx[i]-buf_hex_tx[i][1]*256; - buf_hex_tx[i][2] = buf_dec_tx[i]/16; - buf_dec_tx[i] = buf_dec_tx[i]-buf_hex_tx[i][2]*16; - buf_hex_tx[i][3] = buf_dec_tx[i]; + buf_hex_tx[i][0] = buf_dec_tx[i]/256; + buf_dec_tx[i] = buf_dec_tx[i]-buf_hex_tx[i][0]*256; + buf_hex_tx[i][1] = buf_dec_tx[i]; + + for(int j=0;j<2;j++){ D[j+2*i] = buf_hex_tx[i][j]; } - // pc.printf("%d %d %d %d\r\n", buf_hex_tx[i][0], buf_hex_tx[i][1], buf_hex_tx[i][2], buf_hex_tx[i][3]); - - for(int j=0;j<4;j++){ - if(buf_hex_tx[i][j]<10){ - buf_hex_tx[i][j] = buf_hex_tx[i][j]+48; - D[j+4*i] = (char)buf_hex_tx[i][j]; - }else{ - buf_hex_tx[i][j] = buf_hex_tx[i][j]+55; - D[j+4*i] = (char)buf_hex_tx[i][j]; - } - } } // ******************** control law ********************** - + // !!! HOSHINO !!! fprintf add guidance, velocity and control - 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]); - + fprintf(fp, "%6.1f %7.3f %7.3f %7.3f %8.5f %8.1f %8.1f %8.1f\r\n",time, gyro[0], gyro[1], gyro[2], azi, alt, GPS[0], GPS[1]); + time = time + 0.1; flag_cm++;