for hige

Fork of YNU_MPU_1 by yal kaiyo

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++;