HG_REPOSITORIES/LPP/INSTRUMENTATION/SOLO_LFR/DEV_PLE Commit - r300:245f3ace2b2a

partial recoding of reaction wheel filtering

paul -

r300:245f3ace2b2a R3++

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r300:245f3ace2b2a

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header/tc_load_dump_parameters.h +5 -1

              #include "avf0_prc0.h"
              #define FLOAT_EQUAL_ZERO 0.001
+             #define RW1 1
+             #define RW2 2
+             #define RW3 3
+             #define RW4 4
              extern unsigned short sequenceCounterParameterDump;
              extern unsigned short sequenceCounters_TM_DUMP[];
              void set_hk_lfr_sc_rw_f_flag( unsigned char wheel, unsigned char freq, float value );
              void set_hk_lfr_sc_rw_f_flags( void );
              void getReactionWheelsFrequencies( ccsdsTelecommandPacket_t *TC );
-             void setFBinMask(unsigned char *fbins_mask, float rw_f, unsigned char deltaFreq, unsigned char flag );
+             void setFBinMask(unsigned char *fbins_mask, float rw_f, unsigned char deltaFreq, float k);
              void build_sy_lfr_rw_mask( unsigned int channel );
              void build_sy_lfr_rw_masks();
              void merge_fbins_masks( void );

src/fsw_misc.c +1 -1

                      {
                          k++;
                      }
+                 }
                  //update int16 values
                  hk_lfr_sc_v_f3_as_int16 =  (int16_t) (average_v / ((float) MOVING_AVERAGE) );
                  hk_lfr_sc_e1_f3_as_int16 =  (int16_t) (average_e1 / ((float) MOVING_AVERAGE) );
                  hk_lfr_sc_e2_f3_as_int16 =  (int16_t) (average_e2 / ((float) MOVING_AVERAGE) );
+                 }
                  PRINTF("in AVGV *** deleting task\n");

src/tc_load_dump_parameters.c +45 -87

              }
-             void setFBinMask( unsigned char *fbins_mask, float rw_f, unsigned char deltaFreq, unsigned char flag )
+             void setFBinMask(unsigned char *fbins_mask, float rw_f, unsigned char deltaFreq, float k )
              {
                  /** This function executes specific actions when a TC_LFR_UPDATE_INFO TeleCommand has been received.
                   *
                  float f_RW_min;
                  float f_RW_MAX;
-                 float fi_min;
-                 float fi_MAX;
-                 float fi;
-                 float deltaBelow;
-                 float deltaAbove;
+                 float bandWidth;
                  int binBelow;
                  int binAbove;
-                 int closestBin;
                  unsigned int whichByte;
                  int selectedByte;
                  int bin;
-                 int binToRemove[3];
-                 int k;
-                 whichByte = 0;
-                 bin = 0;
+                 int binToRemove;
-                 binToRemove[0] = -1;
-                 binToRemove[1] = -1;
-                 binToRemove[2] = -1;
-                 // compute the frequency range to filter [ rw_f - delta_f/2; rw_f + delta_f/2 ]
-                 f_RW_min = rw_f - filterPar.sy_lfr_sc_rw_delta_f / 2.;
-                 f_RW_MAX = rw_f + filterPar.sy_lfr_sc_rw_delta_f / 2.;
+                 f_RW_min = 0.0;
+                 f_RW_MAX = 0.0;
+                 bandWidth = 0.0;
+                 binBelow = -1;
+                 binAbove = -1;
+                 whichByte = 0;
+                 selectedByte = -1;
+                 bin = -1;
+                 binToRemove = -1;
-                 // compute the index of the frequency bin immediately below rw_f
-                 binBelow = (int) ( floor( ((double) rw_f) / ((double) deltaFreq)) );
-                 deltaBelow = rw_f - binBelow * deltaFreq;
-                 // compute the index of the frequency bin immediately above rw_f
-                 binAbove = (int) ( ceil(  ((double) rw_f) / ((double) deltaFreq)) );
-                 deltaAbove = binAbove * deltaFreq - rw_f;
+                 if (!isnan(rw_f))
+                 {
+                     // compute the frequency range to filter [ rw_f - delta_f/2; rw_f + delta_f/2 ]
+                     bandWidth = filterPar.sy_lfr_sc_rw_delta_f * k;
+                     f_RW_min = rw_f - bandWidth / 2.;
+                     f_RW_MAX = rw_f + bandWidth / 2.;
-                 // search the closest bin
-                 if (deltaAbove > deltaBelow)
+                     // compute the index of the frequency bin immediately below f_RW_min
+                     binBelow = (int) ( floor( ((double) f_RW_min) / ((double) deltaFreq)) );
+                     if (binBelow < 0)
                  {
-                     closestBin = binBelow;
+                 }
-                 else
+                 {
-                     closestBin = binAbove;
+                         binBelow = -1;
                  }
-                 // compute the fi interval [fi - Delta_f * 0.285, fi + Delta_f * 0.285]
-                 fi = closestBin * deltaFreq;
-                 fi_min = fi - (deltaFreq * 0.285);
-                 if ( fi_min < 0 )
+                     // compute the index of the frequency bin immediately above f_RW_MAX
+                     binAbove = (int) ( ceil(  ((double) f_RW_MAX) / ((double) deltaFreq)) );
+                     if (binAbove > 127)
                  {
-                     fi_min = 0;
+                 }
-                 else if ( fi_min > (deltaFreq*127) )
+                 {
-                     fi_min = -1;
+                 }
-                 fi_MAX = fi + (deltaFreq * 0.285);
-                 if ( fi_MAX > (deltaFreq*127) )
+                 {
-                     fi_MAX = -1;
+                         binAbove = 128;
                  }
-                 // 1. IF [ f_RW_min, f_RW_MAX] is included in [ fi_min; fi_MAX ]
-                 // => remove f_(i), f_(i-1) and f_(i+1)
-                 if ( ( f_RW_min > fi_min ) && ( f_RW_MAX < fi_MAX ) )
+                 {
-                     binToRemove[0] = closestBin - 1;
-                     binToRemove[1] = closestBin;
-                     binToRemove[2] = closestBin + 1;
+                 }
-                 // 2. ELSE
-                 // => remove the two f_(i) which are around f_RW
-                 else
+                     for (binToRemove = binBelow; binToRemove <= binAbove; binToRemove++)
                  {
-                     binToRemove[0] = binBelow;
-                     binToRemove[1] = binAbove;
-                     binToRemove[2] = -1;
+                 }
-                 for (k = 0; k <= 3; k++)
+                 {
-                     bin = binToRemove[k];
-                     if ( (bin >= 0) && (bin <= 127) )
+                     {
-                         if (flag == 1)
+                         if ( (binToRemove >= 0) && (binToRemove <= 127) )
                          {
                              whichByte = (bin >> 3);    // division by 8
                              selectedByte = ( 1 << (bin - (whichByte * 8)) );
                          }
                      }
                  }
              }
              void build_sy_lfr_rw_mask( unsigned int channel )
                  }
                  // RW1
-                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw1_f1, deltaF, (cp_rpw_sc_rw1_rw2_f_flags & 0x80) >> 7 ); // [1000 0000]
-                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw1_f2, deltaF, (cp_rpw_sc_rw1_rw2_f_flags & 0x40) >> 6 ); // [0100 0000]
-                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw1_f1, deltaF, (cp_rpw_sc_rw1_rw2_f_flags & 0x20) >> 5 ); // [0010 0000]
-                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw1_f2, deltaF, (cp_rpw_sc_rw1_rw2_f_flags & 0x10) >> 4 ); // [0001 0000]
+                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw1_f1, deltaF, filterPar.sy_lfr_rw1_k1 );
+                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw1_f2, deltaF, filterPar.sy_lfr_rw1_k2 );
+                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw1_f3, deltaF, filterPar.sy_lfr_rw1_k3 );
+                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw1_f4, deltaF, filterPar.sy_lfr_rw1_k4 );
                  // RW2
-                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw2_f1, deltaF, (cp_rpw_sc_rw1_rw2_f_flags & 0x08) >> 3 ); // [0000 1000]
-                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw2_f2, deltaF, (cp_rpw_sc_rw1_rw2_f_flags & 0x04) >> 2 ); // [0000 0100]
-                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw2_f1, deltaF, (cp_rpw_sc_rw1_rw2_f_flags & 0x02) >> 1 ); // [0000 0010]
-                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw2_f2, deltaF, (cp_rpw_sc_rw1_rw2_f_flags & 0x01)      ); // [0000 0001]
+                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw2_f1, deltaF, filterPar.sy_lfr_rw2_k1 );
+                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw2_f2, deltaF, filterPar.sy_lfr_rw2_k2 );
+                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw2_f3, deltaF, filterPar.sy_lfr_rw2_k3 );
+                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw2_f4, deltaF, filterPar.sy_lfr_rw2_k4 );
                  // RW3
-                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw3_f1, deltaF, (cp_rpw_sc_rw3_rw4_f_flags & 0x80) >> 7 ); // [1000 0000]
-                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw3_f2, deltaF, (cp_rpw_sc_rw3_rw4_f_flags & 0x40) >> 6 ); // [0100 0000]
-                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw3_f1, deltaF, (cp_rpw_sc_rw3_rw4_f_flags & 0x20) >> 5 ); // [0010 0000]
-                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw3_f2, deltaF, (cp_rpw_sc_rw3_rw4_f_flags & 0x10) >> 4 ); // [0001 0000]
+                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw3_f1, deltaF, filterPar.sy_lfr_rw3_k1 );
+                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw3_f2, deltaF, filterPar.sy_lfr_rw3_k2 );
+                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw3_f3, deltaF, filterPar.sy_lfr_rw3_k3 );
+                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw3_f4, deltaF, filterPar.sy_lfr_rw3_k4 );
                  // RW4
-                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw4_f1, deltaF, (cp_rpw_sc_rw3_rw4_f_flags & 0x08) >> 3 ); // [0000 1000]
-                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw4_f2, deltaF, (cp_rpw_sc_rw3_rw4_f_flags & 0x04) >> 2 ); // [0000 0100]
-                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw4_f1, deltaF, (cp_rpw_sc_rw3_rw4_f_flags & 0x02) >> 1 ); // [0000 0010]
-                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw4_f2, deltaF, (cp_rpw_sc_rw3_rw4_f_flags & 0x03)      ); // [0000 0001]
+                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw4_f1, deltaF, filterPar.sy_lfr_rw4_k1 );
+                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw4_f2, deltaF, filterPar.sy_lfr_rw4_k2 );
+                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw4_f3, deltaF, filterPar.sy_lfr_rw4_k3 );
+                 setFBinMask( local_rw_fbins_mask, rw_f.cp_rpw_sc_rw4_f4, deltaF, filterPar.sy_lfr_rw4_k4 );
                  // update the value of the fbins related to reaction wheels frequency filtering
                  if (maskPtr != NULL)

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