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Pec.ino
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Pec.ino
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// -------------------------------------------------------------------------------------------------
// Functions to handle periodic error correction
#if AXIS1_PEC == ON
// enables code to clean-up PEC readings after record (use PECprep or a spreadsheet to fix readings otherwise)
// this cleans up any tracking rate variations that would be introduced by recording more guiding corrections to either the east or west, default ON
#define PEC_CLEANUP ON
#if PEC_SENSE == OFF
bool wormSensedFirst=true;
#else
bool wormSensedFirst=false;
#endif
long pecRecordStopTime = 0;
long wormRotationPos = 0;
long lastWormRotationPos=-1;
void pec() {
// write PEC data to EEPROM as needed
if (pecAutoRecord > 0) { pecAutoRecord--; nv.update(EE_pecTable+pecAutoRecord,pecBuffer[pecAutoRecord]); }
// PEC is only active when we're tracking at the sidereal rate with a guide rate that makes sense
if (trackingState != TrackingSidereal || parkStatus != NotParked || ((guideDirAxis1 || guideDirAxis2) && activeGuideRate > GuideRate1x)) { disablePec(); return; }
// keep track of our current step position, and when the step position on the worm wraps during playback
cli(); long pecPos=(long)targetAxis1.part.m; sei();
#if PEC_SENSE == OFF
wormSensedFirst=true;
#elif PEC_SENSE >= 0
// for analog sense, with 60 second delay before redetect
long dist; if (wormSensePos > pecPos) dist=wormSensePos-pecPos; else dist=pecPos-wormSensePos;
static int lastValue; lastValue=pecValue; pecValue = analogRead(AnalogPecPin);
#if PEC_SENSE_STATE == HIGH
if ((dist > stepsPerSecondAxis1*60.0) && (lastValue <= PEC_SENSE) && (pecValue > PEC_SENSE)) {
#else
if ((dist > stepsPerSecondAxis1*60.0) && (lastValue >= PEC_SENSE) && (pecValue < PEC_SENSE)) {
#endif
wormSensePos=pecPos;
wormSensedAgain=true;
wormSensedFirst=true;
pecBufferStart=true;
} else pecBufferStart=false;
#elif PEC_SENSE == ON || PEC_SENSE == ON_PULLUP || PEC_SENSE == ON_PULLDOWN
// for digital sense, with 60 second delay before redetect
long dist; if (wormSensePos > pecPos) dist=wormSensePos-pecPos; else dist=pecPos-wormSensePos;
static int lastValue; lastValue=pecValue; pecValue=digitalRead(PecPin);
if ((dist > stepsPerSecondAxis1*60.0) && (pecValue != lastValue) && (pecValue == PEC_SENSE_STATE)) {
wormSensePos=pecPos;
wormSensedAgain=true;
wormSensedFirst=true;
pecBufferStart=true;
} else pecBufferStart=false;
#endif
if (pecStatus == IgnorePEC) { pecTimerRateAxis1=0.0; return; }
if (!wormSensedFirst) return;
// worm step position corrected for any index found
lastWormRotationPos=wormRotationPos;
wormRotationPos=(pecPos-wormSensePos);
while (wormRotationPos >= stepsPerWormRotationAxis1) wormRotationPos-=stepsPerWormRotationAxis1;
while (wormRotationPos < 0) wormRotationPos+=stepsPerWormRotationAxis1;
// "soft" PEC index sense
#if PEC_SENSE == OFF
if ((wormRotationPos-lastWormRotationPos) < 0) pecBufferStart=true; else pecBufferStart=false;
#endif
// handle playing back and recording PEC
cli(); long t=lst; sei();
// start playing PEC
if (pecStatus == ReadyPlayPEC) {
// makes sure the index is at the start of a second before resuming play
if ((long)fmod(wormRotationPos,stepsPerSecondAxis1) == 0) {
pecStatus=PlayPEC;
pecIndex=wormRotationPos/stepsPerSecondAxis1;
// playback starts now
pecSiderealTimer=t;
}
} else
// start recording PEC
if (pecStatus == ReadyRecordPEC) {
if ((long)fmod(wormRotationPos,stepsPerSecondAxis1) == 0) {
pecStatus=RecordPEC;
pecIndex=wormRotationPos/stepsPerSecondAxis1;
pecRecorded=false;
// recording starts now
pecSiderealTimer=t;
pecRecordStopTime=pecSiderealTimer+(long)secondsPerWormRotationAxis1*100L;
accPecGuideHA.fixed=0;
}
} else
// and once the PEC data is all stored, indicate that it's valid and start using it
if ((pecStatus == RecordPEC) && (t-pecRecordStopTime > 0)) {
pecStatus=PlayPEC;
pecRecorded=true;
pecFirstRecord=false;
#if PEC_CLEANUP == ON
cleanupPec();
#endif
}
// reset the buffer index to match the worm index
if (pecBufferStart && (pecStatus != RecordPEC)) { pecIndex=0; pecSiderealTimer=t; }
// Increment the PEC index once a second and make it go back to zero when the worm finishes a rotation
if (t-pecSiderealTimer > 99) {
pecSiderealTimer=t; pecIndex=(pecIndex+1)%secondsPerWormRotationAxis1;
}
pecIndex1=pecIndex; if (pecIndex1 < 0) pecIndex1+=secondsPerWormRotationAxis1; if (pecIndex1 >= secondsPerWormRotationAxis1) pecIndex1-=secondsPerWormRotationAxis1;
accPecGuideHA.fixed+=guideAxis1.fixed;
// falls in whenever the pecIndex changes, which is once a sidereal second
if (pecIndex1 != lastPecIndex) {
lastPecIndex=pecIndex1;
// assume no change to tracking rate
pecTimerRateAxis1=0.0;
if (pecStatus == RecordPEC) {
// save the correction as 1 of 3 weighted average
int l=round(fixedToDouble(accPecGuideHA));
if (l < -stepsPerSecondAxis1) l=-stepsPerSecondAxis1; if (l > stepsPerSecondAxis1) l=stepsPerSecondAxis1; // +/-1 sidereal rate range for corrections
if (l < -127) l=-127; if (l > 127) l=127; // prevent overflow if stepsPerSecondAxis1 > 127
if (!pecFirstRecord) l=(l+((int)pecBuffer[pecIndex1]-128)*2)/3;
pecBuffer[pecIndex1]=l+128; // save the correction
accPecGuideHA.part.m-=l; // remove from the accumulator
}
if (pecStatus == PlayPEC) {
// pecIndex2 adjusts one second before the value was recorded, an estimate of the latency between image acquisition and response
// if sending values directly to OnStep from PECprep, etc. be sure to account for this
int pecIndex2=pecIndex1-1; if (pecIndex2 < 0) pecIndex2+=secondsPerWormRotationAxis1;
// number of steps ahead or behind for this 1 second slot, up to +/-127
int l=pecBuffer[pecIndex2]-128;
if (l > stepsPerSecondAxis1) l=stepsPerSecondAxis1; if (l < -stepsPerSecondAxis1) l=-stepsPerSecondAxis1;
pecTimerRateAxis1=((double)l/stepsPerSecondAxis1);
}
}
}
void disablePec() {
// give up recording if we stop tracking at the sidereal rate
if (pecStatus == RecordPEC) { pecStatus=IgnorePEC; pecTimerRateAxis1=0.0; } // don't zero the PEC offset, we don't want things moving and it really doesn't matter
// get ready to re-index when tracking comes back
if (pecStatus == PlayPEC) { pecStatus=ReadyPlayPEC; pecTimerRateAxis1=0.0; }
}
void cleanupPec() {
// low pass filter ----------------------------------------------------------
int j,J1,J4,J9,J17;
for (int scc=0+3; scc < secondsPerWormRotationAxis1+3; scc++) {
j=pecBuffer[((scc)%secondsPerWormRotationAxis1)]-128;
J1=(int)round((float)j*0.01);
J4=(int)round((float)j*0.04);
J9=(int)round((float)j*0.09);
J17=(int)round((float)j*0.17);
pecBuffer[((scc-4)%secondsPerWormRotationAxis1)]=(((int)pecBuffer[((scc-4)%secondsPerWormRotationAxis1)]-128)+J1)+128;
pecBuffer[((scc-3)%secondsPerWormRotationAxis1)]=(((int)pecBuffer[((scc-3)%secondsPerWormRotationAxis1)]-128)+J4)+128;
pecBuffer[((scc-2)%secondsPerWormRotationAxis1)]=(((int)pecBuffer[((scc-2)%secondsPerWormRotationAxis1)]-128)+J9)+128;
pecBuffer[((scc-1)%secondsPerWormRotationAxis1)]=(((int)pecBuffer[((scc-1)%secondsPerWormRotationAxis1)]-128)+J17)+128;
pecBuffer[((scc )%secondsPerWormRotationAxis1)]=(((int)pecBuffer[((scc )%secondsPerWormRotationAxis1)]-128)-(J17+J17+J9+J9+J4+J4+J1+J1))+128;
pecBuffer[((scc+1)%secondsPerWormRotationAxis1)]=(((int)pecBuffer[((scc+1)%secondsPerWormRotationAxis1)]-128)+J17)+128;
pecBuffer[((scc+2)%secondsPerWormRotationAxis1)]=(((int)pecBuffer[((scc+2)%secondsPerWormRotationAxis1)]-128)+J9)+128;
pecBuffer[((scc+3)%secondsPerWormRotationAxis1)]=(((int)pecBuffer[((scc+3)%secondsPerWormRotationAxis1)]-128)+J4)+128;
pecBuffer[((scc+4)%secondsPerWormRotationAxis1)]=(((int)pecBuffer[((scc+4)%secondsPerWormRotationAxis1)]-128)+J1)+128;
}
// linear regression ----------------------------------------------------------
// the number of steps added should equal the number of steps subtracted (from the cycle)
// first, determine how far we've moved ahead or backward in steps
long sum_pec=0; for (int scc=0; scc < secondsPerWormRotationAxis1; scc++) { sum_pec+=(int)pecBuffer[scc]-128; }
// this is the correction coefficient for a given location in the sequence
double Ccf = (double)sum_pec/(double)secondsPerWormRotationAxis1;
// now, apply the correction to the sequence to make the PEC adjustments null out
// this process was simulated in a spreadsheet and the roundoff error might leave us at +/- a step which is tacked on at the beginning
long lp2=0; sum_pec=0;
for (int scc=0; scc < secondsPerWormRotationAxis1; scc++) {
// the correction, "now"
long lp1=lround(-(double)scc*Ccf);
// if the correction increases or decreases then add or subtract that many steps
pecBuffer[scc]=(int)pecBuffer[scc]+(lp1-lp2);
// sum the values for a final adjustment, if necessary
sum_pec+=(int)pecBuffer[scc]-128;
lp2=lp1;
}
pecBuffer[0]-=sum_pec;
// a reality check, make sure the buffer data looks good, if not forget it
if ((sum_pec > 2) || (sum_pec < -2)) { pecRecorded=false; pecStatus=IgnorePEC; }
}
// it often takes a couple of ms to record a value to EEPROM, this can effect tracking performance since interrupts may be disabled during the operation.
// so we store PEC data in RAM while recording. When done, sidereal tracking can be turned off and the data is written to EEPROM.
void createPecBuffer() {
pecBuffer = (byte*)malloc(pecBufferSize * sizeof(*pecBuffer));
if (pecBufferSize == 0) return;
if (!pecBuffer) {
pecBufferSize=0;
DLF("PEC: warning buffer exceeds available RAM, PEC disabled");
} else {
VF("MSG: Allocated PEC buffer, "); V(pecBufferSize * sizeof(*pecBuffer)); VLF(" bytes");
}
}
#endif