pwd : $SRCDIR/ccd/doc/DAQ_Parameters This is parameter list, verify it against default ccd.cfg file used in daily analysis , which is located at $SRCDIR/ccd/cfg/WZORY_CCD_CFG/doubleCAM_Real/2K2K_2K2K/ccd.cfg Verify default values in that file General description of ccd.cfg format : - in order to use value of environment variable put $(VARNAME) as param value - do not use spaces, tabs etc ... 0/ General settings : CCD_SIZE_X - frame X size CCD_SIZE_Y - frame Y size CCD_NUMBER - always 1 CCD_PIPELINE_SIZE - number of frames in pipeline CCD_PIPELINE_SAFE_BUFFER_SIZE - NOT USED CCD_DARK_FRAME - use dark frame YES/NO CCD_FLAT_FRAME - use flat frame YES/NO CCD_DARK_FRAME_FILE - dark frame file CCD_FLAT_FRAME_FILE - flat frame file 1/ Background level determination section : CCD_CALC_TRESHOLDS_BY_MAP - calculate tresholds by background MAP locally CCD_BACKGR_MAP_X_SIZE - CCD_BACKGR_MAP_Y_SIZE - frame is divided into map : CCD_BACKGR_MAP_X_SIZE x CCD_BACKGR_MAP_Y_SIZE CCD_BACKGR_UPDATE_FREQ - frequency of bacground map update CCD_BACKGR_DUMP - dump bacground map to log file YES/NO CCD_SUBTRACT_BACKGROUND - not used CCD_BACKGROUND_SUBTR_TYPE - not used CCD_DO_RETRY_FIT - retry fitting gauss YES/NO CCD_CALC_S_DISTR - CCD_CALC_G1_DISTR - CCD_CALC_G2_DISTR - CCD_CALC_G4_DISTR - CCD_CALC_G5_DISTR - CCD_CALC_G54_DISTR - CCD_CALC_G985_DISTR - CCD_CALC_G987_DISTR - CCD_CALC_G84_DISTR - CCD_CALC_G810_DISTR - CCD_CALC_G58_DISTR - CCD_CALC_G412_DISTR - CCD_CALC_G412F_DISTR - CCD_CALC_BACKGR_OF_CURR_LAPLACE - if calc sigma of curr laplace CCD_AVERAGE_S1 - CCD_SIGMA_S1 - 2/ Determination of shifts : CCD_USE_ROT_IN_AVER_OF_PREV - use rotation YES/NO CCD_USE_ROT_PER_SEC - use shift per secund CCD_MIN_SHIFT_TO_CALC_ROT - minimal shift to determine rot ( translation otherwise ) CCD_MIN_TOTAL_SHIFT_TO_CALC_ROT - CCD_DO_NOT_USE_ROT - never use rot - force translation CCD_SINGLE_FRAME_DX - shift by frame DX CCD_SINGLE_FRAME_DY - shift by frame DY CCD_SINGLE_FRAME_DX_PER_SEC - shift per sec DX CCD_SINGLE_FRAME_DY_PER_SEC - shift per sec DY CCD_USE_SHIFT_TOTAL - OBSOLATE CCD_ROT_CENTER_X - rotation center X CCD_ROT_CENTER_Y - rotation center Y CCD_SINGLE_FRAME_D_ALFA - alfa per frame CCD_SINGLE_FRAME_D_ALFA_PER_SEC - alfa per sec CCD_USE_FRAME_TIME_FOR_SHIFTS - not used CCD_SHIFT_USES_ASTRO_FORMULAS - not used 2/ Algorithm parameters : a/ general section : CCD_DO_NOT_ANALYSE - 1 - to turn off analysis (only collecting mode) CCD_MAX_VALUE - max value allowed in pixel CCD_IGNORE_EDGE - size of picture edge to be ignored CCD_IGNORE_EDGE_RIGHT CCD_IGNORE_EDGE_LEFT CCD_IGNORE_EDGE_UP CCD_IGNORE_EDGE_BOTTOM CCD_CLUSTER_IF_N_SIGMA_ABOVE_BACKGR - cluster treshold CCD_CLUSTER_MIN_SIZE - min size of cluster cut CCD_LOCAL_MAX_REQ - if local maxium required YES/NO CCD_VETO_SHAPE - veto shape shapeCluster=0 shapeSquare=1, shapeCircle=2, shapeStar=3 CCD_VETO_REDIAL - veto radius b/ average of previous frames : CCD_AVERAGE_OF_PREV_N - number of averaged previous frames CCD_CALC_MAX_NEIGHB_HOMEO - uses maximal values from neighberhood in average CCD_CALC_MAX_NEIGHB_REDIAL - radius in which max value is found for average ( for case CCD_CALC_MAX_NEIGHB_HOMEO=1 ) c/ laplace type : CCD_LAPLACE_TYPE - laplace type 0-12 , see Lech Doc : opis.ps.gz CCD_AUTO_CALCULATE_TRESHOLDS - treshold autocalculated according to sigmas CCD_MAX_LAPLACE_ON_OTHER_IN_SIGMA - Tv in sigma CCD_NEW_LAPLACE_TRESHOLD_IN_SIGMA - Tn in sigma CCD_MIN_LAPLACE_ON_OTHER_ENABLED - if require Prev>T_min ( YES/NO ) CCD_MIN_LAPLACE_ON_OTHER - T_min ( for rejection of neighberhood of big stars ) CCD_LAPLACE_USE_SAME_TRESHOLD - is single treshold is used Tn=Tv=Treshold RATHER NOT USED CCD_MAX_LAPLACE_ON_OTHER - Tv in ADU - RATHER OBSOLATE CCD_NEW_LAPLACE_TRESHOLD - Tn in ADU - RATHER OBSOLATE CCD_CONFIRM_LAPLACE_MEDIAN_MINUS - if confirm by taking median values for MINUSES c/ overlaped events : CCD_SKIP_OVERLAPS - if skip overlaps ( default=1 ) CCD_OVERLAP_REDIAL - radius in which events are considered as overlaps d/ if more cut : CCD_SKIP_IF_MORE_THEN - use skip if more cut CCD_SKIP_IF_MORE_THEN_REDIAL - radius in which events are counted CCD_SKIP_IF_MORE_THEN_MIN_DIST - minimal dist between event to count CCD_CHECK_IF_MORE_POINT - point where to many are checked : VALUES : eAfterCurrentFrameOnly=0, eAfterCoic, eBoth e/ too many events cut : CCD_MAX_NUMBER_OF_EVENTS - max allowed # of events on whole frame CCD_MAX_NUMBER_OF_EVENTS_AFTER_TV - max allowed # of events after Tv cut CCD_MAX_NUMBER_OF_EVENTS_AFTER_COIC - max allowed # of events after coic cut f/ event shape cut : CCD_CHECK_EVENT_SHAPE - check event sphericity ( if > 0 represents cut value ) events with Sper < CCD_CHECK_EVENT_SHAPE are rejected g/ hot pixels CCD_REJECT_HOT_PIXELS_BY_AVERAGE - if reject hot pixels by using average of previous frames CCD_REJECT_HOT_PIXELS_BY_AVERAGE_TRESH - treshold for hot ( Tn used of not set ) CCD_REJECT_HOT_PIXELS_BY_LIST - if reject hot pixels by list file, name of file should be provided in param CCD_HOT_PIXELS_LIST h/ black pixels cut defined as B_r = Min_Minus_Value / Average_of_rest_Minuses CCD_REJECT_BLACK_PIXELS - reject black Yes/No CCD_BLACK_PIXELS_IF_N_SIGMA_BELOW CCD_BLACK_PIXELS_RATIO - cut ratio , if B_r < CCD_BLACK_PIXELS_RATIO event is considered as black pixel CCD_CHECK_CENTER_MASS_IN_CLUSTER - OBSOLATE i/ confirmation on next : CCD_CONFIRM_ON_N_NEXT_FRAMES - number of frames for event to be confirmed CCD_REJECT_NOT_CONFIRMED - reject not confirmed events j/ coicydence : CCD_COICYDENCE_REDIAL - radius of coicydence in pixels ( in case trasformation from IRIS used ), transformation file name must be provided in param : CCD_TRANSFORM_MATRIX_FILE - ( default = ccd1_to_ccd2_transform.cfg ) it should be pasted result of operation : coregister cam2.fit cam1.fit CCD_COIC_BY_RA_DEC - YES/NO , if coicydence by RA / DEC is used , requires ASAS astrometry to be performed CCD_COIC_RADIUS_IN_RAD - coic radius in radians CCD_COIC_RADIUS_IN_SEC - coic radius in ac seconds , overwrites CCD_COIC_RADIUS_IN_RAD k/ tracks : CCD_CHECK_TRACKS - fit track line to events CCD_MIN_DIST_OF_EVENTS_IN_TRACK - minimal distance of events in tracks CCD_MAX_EVENT_RATE_FOR_TRACKS - max allowed event value, if event rate is higher track fit is not performed CCD_MAX_CHI2_IN_TRACK - chi2 cut ( see trackfit.txt for details ) CCD_MAX_CHI2_FOR_POINT_TO_MATCH_LINE - chi2 to new event to match line ( can be more strict then first one ) CCD_MIN_EVENTS_NO_IN_TRACK - minimal # of events in track CCD_NUM_BACK_FRAMES_FOR_TRACK - # frames checked back to fit track CCD_NUM_BACK_FRAMES_HAS_EVENTS_FOR_TRACKS - # of frames back with events to fit track CCD_MAX_EVENTS_TO_FIT_TRACK - duplication - I see now ??? almost same as CCD_MAX_EVENT_RATE_FOR_TRACKS CCD_CHECK_VELOCITY_FOR_TRACK - check velocity for tracks YES/NO CCD_CHECK_VELOCITY_ERROR_FOR_TRACK - track velocity cut value - anty plane track cut , no velocity requirement , and strict chi2 : CCD_CHECK_PLANE_TRACKS - YES/NO CCD_MAX_CHI2_IN_PLANE_TRACK - value of chi2 ( default 2.0 ) - single camera track cut ( velocity, chi2 - currently hardcoded to : 0.5, 2 ) CCD_CHECK_TRACKS_ON_SINGLE_CAM - YES/NO - fit line to single frame event on single camera ( similar in fact to CCD_CHECK_PLANE_TRACKS ) CCD_FIT_LINE_TO_SINGLE_FRAME - enable/disable CCD_FIT_LINE_TO_SINGLE_FRAME_TO_ALL - try fit to ALL events on frame CCD_CHI2_FOR_LINE_ON_SINGLE_FRAME - chi2 limit l/ sum of N previous frames : CCD_KEEP_SUM_OF_PREV_N_FRAMES - keep average of previous N frames this parameter is number of frames to be averaged CCD_ANALYZE_SUM_OF_PREV_N_FRAMES - analyse sum ov previous N frames YES/NO CCD_SAVE_SUM_OF_N_FRAMES - save average frame YES/NO CCD_VETO_RADIUS_ON_SUM_FRAME - veto radius for sumed frame CCD_NEW_LAPLACE_TRESHOLD_IN_SIGMA_ON_SUM - Tn for sumed frame 3/ Operation parameters : CCD_RUN_UP_TO_DTM - exit at given date in format : 20040420_123004 or only hour of next morning 054000 to stop at 5:40:00 in the morning 4/ Monte carlo parameters : CCD_DAY_FRAME_COUNTER - OBSOLATE, now DAY frame is read from FITS DIMAGE key CCD_USE_ASAS_ASTROMETRY_FROM_FITS - YES/NO use astrometry from header ( if possible ) CCD_MONTE_CARLO - YES/NO - offline analysis CCD_PUT_SAMPLE_EVERY_N_FRAME - CCD_CHECK_GEN_ONLY CCD_MC_GEN_IDENT_REDIAL CCD_PUT_OBJ_ON_N_FRAMES CCD_KEEP_ALL_IN_MEMORY_MC CCD_KEEP_SAMPLES_IN_MEMORY CCD_IMAGES_SAMPLE_DIR CCD_PUT_SCALED_SAMPLES CCD_SAMPLE_LIST_BASENAME - CCD_FULL_FRAMES_SAMPLE_DIR - path to directory where frames are located CCD_FULL_FRAMES_LIST - file with list of frames 6/ location of experiment : CCD_GEO_LATITUDE - geo latitude CCD_GEO_LONGITUDE - geo longitute CCD_ALTITUDE - altitude 7/ settings of observed field ( in case no information from mount is available during analysis ) : CCD_HOR_AZIMUTH - azim (in rad) CCD_HOR_ALTITUDE - alt (in rad) CCD_HOR_ALT_CORR - correction to mount ( RATHER OBSOLATE ) CCD_HOR_AZIM_CORR - correction to mount ( RATHER OBSOLATE ) CCD_RA_CORR - correction to mount ( RATHER OBSOLATE ) CCD_DEC_CORR - correction to mount ( RATHER OBSOLATE ) CCD_OBS_MODE - observation mode 0-const, 1-tracking CCD_DEC_OBS - dec (in rad) CCD_RA_OBS - ra ( in rad ) 8/ Astrometry parameters : CCD_ASTROMETRY_SYNCHRO_MODE - astrometry in synchro mode ( not in second thread ) system stops taking pictures until done CCD_DO_ASAS_ASTRO_ON_STARTUP - do astrometry for first frame CCD_DO_ASAS_PHOT_ASTR - do astrometry later with given frequency CCD_SAVE_REDUCT_FRAMES_FREQ - frequency to save reduced frames CCD_EXEC_ASTRO_ON_FIRST - OBSOLATE CCD_ASAS_PHOTO_THRES - asas photometry treshold CCD_ASAS_ASTROMETRY_FI - asas astrometry starting FI CCD_ASAS_ASTROMETRY_ORD - order CCD_ASAS_STAR_CAT - path to ASAS star catalog CCD_ASAS_ASTROMETRY_VERB - verbose YES/NO CCD_ASAS_ASTROMETRY_TRY - try ASAS astrometry param CCD_ASAS_ASTROMETRY_RETRY - number of frames to repeat astrometry PIXSCALE - pixscale for ASAS transform CCD_USE_ASAS_TRANSFORM - use ASAS astrometric transform YES/NO CCD_ASAS_REVERSE_FOR_TRANSFORM - flip needed by ASAS transform : CCD_ASAS_BORDER_SIZE - border which is cut before ASAS photo/astro CCD_ASAS_SUBTR_DARK - subtract dark for ASAS astrometry YES/NO CCD_ASAS_DIVIDE_BY_FLAT - divide by flat for ASAS astrometry YES/NO MAX_AST_ERR - ASAS convergence criteria MAX_AST_ERR_FATAL - ASAS convergence criteria CCD_AUTO_ASTROMETRY_FREQ - frequency to do astrometry 9/ operational parameters, PI-MAN communication etc : CCD_WAITING_MODE - start program in waiting mode YES/NO CCD_DARKS_TO_BE_TAKEN - number of dark to be taken at the begining CCD_FRAMES_TO_BE_TAKEN - number of frames to be collected CCD_WAIT_FOR_FRAME - if piman always waits for first frame after StartAnalysis CCD_DAQ_STARTED - if DAQ was started ( default 1 ), set to 0 in order to wait for StartDAQ from piman CCD_TAKE_IN_SYNCHRO_MODE - take frames in synchro mode ( default 0 ) 10/ loging, reporting , saving events : CCD_DUMP_DAQ_STATUS - dump DAQ status file YES/NO CCD_DAQ_STATUS_FILE - path to daq status file CCD_DUMP_STATUS_FREQ_IN_SEC - frequency of dumpming status file CCD_OUTPUT_DIR - output dir ( overwirtes env var OUTPUT_DIR ) CCD_OUTPUT_SUBDIR - subdir CCD_PRINTF_LEVEL - printf level CCD_TRACE_LEVEL - trace level CCD_TRACE - trace file CCD_DO_DUMP_BAD_FIT - dump gauss fit error hisograms CCD_DO_DUMP_ALL_HISTO - CCD_DUMP_NEW_EVENTS - CCD_DUMP_ALL_EVENTS - CCD_DUMP_EVENT_FREQ - CCD_SAVE_N_FRAMES_BEFORE_AND_AFTER - number of frames saved before event and after CCD_SAVE_FRAMES_WITH_EVENT - save frames with events YES/NO CCD_SAVE_EVENT_SIZE - size of saved part CCD_SAVE_SUPER_NOVA_ONLY - only supernovae events are saved CCD_SAVE_EVENT_DESC_ONLY - save event description only CCD_SAVE_SUM_OF_N_FRAMES - save sum of frames before and after event CCD_VERIFIED_EVENTS_LOG - CCD_RUN_EVENT_LOG - CCD_GEN_EVENT_LOG - CCD_DUMP_HOMEO_FRAME - CCD_GEN_NOT_FOUND_REPORT - CCD_STDOUT_ON - not used CCD_EVENTS_BUFFER_SIZE - CCD_LOG_TRACKS - log tracks CCD_LOG_FRAME_STAT - log frame statistics 11/ cam operational parameters and FITS header info : CCD_RNOISE_DEF_FILE - definition of columns used to determine rnoise 12/ obsering site, location , geo coordinates etc : CCD_ORIGIN CCD_SITE CCD_INSTRUME CCD_CAMOPTIC CCD_FILTER CCD_OBSERVER CCD_OBJECT 12/ formats - OBSOLATE since we write out own FITS CCD_DATE_OBS CCD_TIME_OBS CCD_DATE_TIME_OBS_FMT 13/ errors and problems reporting : CCD_IGNORE_MISSING_TIME 14/ driver settings : CCD_DEVICE_ID - id of camera to be connected ( k2a=2, k2b=3 ) CCD_DRIVER_REVERSE_IMAGE - NOT USED CCD_INTERVAL_BETWEEN_IMAGES - forces given interval in sec between images CCD_BASE_FILE_NAME_FITS - OBSOLATE CCD_DRIVER_WRITE_ALL_TO_FITS - write frames to FITS Yes/No CCD_FRAMES_OUTPUT_SUBDIR - sub directory where frames are stored ( prior to current directory ) CCD_WRITE_FRAMES_LIST - build frames list YES/NO CCD_FITS_COMPRESS_TYPE - compression type : 0 - none, 1 - ASAS CCD_DRIVER_BINNING - NOT IMPLEMENTED CCD_KERNEL_MODULES_PATH - NOT USED CCD_RELOAD_MODULE_ON_STARTUP - NOT USED CCD_DRIVER_ASYNCHRO_MODE - Yes/No fast mode enabled - EXPERTS ONLY !!! CCD_PARALEL_MODE - always TRUE in real analysis, OBSOLATE CCD_DRIVER_MAX_ITER_TIMEOUT - timeout in trigger, put bigger for long exposures CCD_RETRY_FRAME_COUNT - frame retries count CCD_GETDATA_RETRY_COUNT - getdata ( USB transfer ) retries count 14/ device settings : CCD_ADC_OFFSET - ADC offset setting in units of 1.2 mV CCD_ADC_GAIN - ADC gain setting ( real gain from formulae : 6.00 / ( 1.00 + 5.00*( (63.00-gainSet)/63.00 ) ) ) ); CCD_ADC_CLAMPING - 1 - clamping 4V , 0 - 2V CCD_ADC_RANGE - ADC range: 0=2V, 1=4V CCD_LNA_GAIN - pre amplifier gain ( LNA gain ): 1=x8, 2=x20 CCD_LENS_HIT_ON - lens hitting ON/OFF CCD_MPP_MODE - 0-BC, 1-MPP CCD_READOUT_SPEED_HORIZONTAL - 0/0 - 1Mhz, 1/1 - 2Mhz CCD_READOUT_SPEED_VERTICAL - 0/0 - 1Mhz, 1/1 - 2Mhz CCD_TEMPERATURE - chip temperature CCD_COOLING_ON_OFF - cooling on / off CCD_WAIT_FOR_DESIRED_TEMP - YES/NO CCD_CAM_TYPE - camera type ( 0-Audine, 1-2k2k, 2-file simulator ) DEFAULT=2 CCD_CAM_IDENT_NO - OBSOLATE CCD_CAM_NO - OBSOLATE CCD_CAM_NAME - OBSOLATE CCD_DRIVER_SHUTTER_TIME_IN_SEC - shutter time in sec CCD_USE_CAM_ID - OBSOLATE 14/ PI-man communication , system parameters : CCD_DAQ_COMMUNICATION_ON - OBSOLATE CCD_PI_SYS_MANAGER_ON - communication with piman on/off CCD_PI_SYS_MANAGER_PORT_NO - OBSOLATE CCD_ASK_MOUNT_FOR_COORD - OBSOLATE CCD_PORT_NO - OBSOLATE CCD_CORBA_OPTIONS - NOT USED corba options, default works fine CCD_CORBA_WITH_NAME_SERVICE - always YES in current system configuration 15/ Database section : CCD_USE_DB - enable/disable DB communication CCD_DBNAME - database name CCD_DBUSER - DB user name CCD_DBPASS - DB password CCD_DBHOST - DB host 16/ External triggers section : CCD_GRB_RADIUS_IN_DEG - radius in which past GRB are checked CCD_TIME_PAST_TO_CHECK_GRB_IN_SEC - time passed since GRB, in which they are checked in DB 14/ old parameters rather not actual anymore : CCD_MAX_NOISE_LEVEL - adu treshold for cluster ( if not passed in Sigmas ) 11/ OBSOLATE and NOT USED : CCD_VISUALIZE_EVENTS - OBSOLATE CCD_PART_SIZE - OBSOLATE CCD_PART_SCALE - OBSOLATE CCD_MOVE_WEIGHTED - not used CCD_CORRECT_FOR_ROTATION - OBSOLATE CCD_TIME_ZONE - RATHER OBSOLATE CCD_KEEP_LOCAL_SHIFT - RATHER OBSOLATE CCD_HOMEO_USE_SAME_TRESH_FOR_NEW_AND_PREV - not used CCD_CHECK_SUM_AROUND - not used CCD_CHECK_MAX_FROM_PREV - not used CCD_CHECK_FOR_FLASHES - not used CCD_BACK_FRAMES_USED - not used CCD_CONFIRM_TRESHOLD_BY_PIXEL - not used CCD_CONFIRM_MAX_NOISE_PER_PIXEL - not used CCD_PIXELS_AROUND_TO_CONFIRM - not used CCD_DIFFERENCE_CHECK - not used FUTURE CCD_SEPERATE_TRESH_AND_MAX_PREV - not used FUTURE CCD_CONF_DIFFERENCE_CHECK - not used FUTURE CCD_CONF_SEPERATE_TRESH_AND_MAX_PREV - not used FUTURE CCD_USE_CLUSTER_WITH_MORE - not used FUTURE CCD_COMBINED_CHECK - not used FUTURE CCD_USE_DIFF_UP_TO_PER_PIXEL - not used FUTURE CCD_MAX_ON_NEXT_PER_PIXEL - not used CCD_DIFF_TRESH_TYPE - not used CCD_DIFF_TRESH_SIGNAL - not used CCD_SIG_TRESH_PER_PIXEL_LEVEL_1 CCD_MAX_PREV_PER_PIXEL_LEVEL_1 CCD_CONFIRM_REQ CCD_CALC_CLUSTER_REQ CCD_CONFIRM_REDIAL CCD_CONFIRM_TRESHOLD CCD_CONFIRM_SHAPE CCD_NEIGHB_SHAPE CCD_NEIGHB_REDIAL CCD_CHECK_MAX_FROM_PREV_N CCD_AVERAGE_OF_PREV_REJECT_MAX_AND_MIN CCD_KEEP_HOMEOPATIC_SUM CCD_HOMEO_AVERAGE_OF_N CCD_CHECK_HOMEO_RAW_COND CCD_HOMEOPATIC_FACTOR CCD_CALC_MAX_FOR_ABOVE_N_SIGMA CCD_CALC_MAX_FOR_ABOVE_N_SIGMA_ON_HOMEO CCD_START_HOMEO_WITH_FIRST_FRAME CCD_KEEP_LAPLACE_FRAME CCD_CHECK_LAPLACE_CONDITION CCD_CALC_LAPLACE_OF_NEW CCD_MAX_LAPLACE_OF_PREV_AVERAGE CCD_CHECK_LAPLACE_ON_HOMEO_CONDITION CCD_CHECK_IF_NONE_OF_N_EXCEEDS_TRESH CCD_TRESH_FOR_CHECK_IF_NONE_OF_N_EXCEEDS_IN_SIGMA CCD_NOT_MORE_THEN_N_EXEEDS_SHAPE CCD_NOT_MORE_THEN_N_EXEEDS_REDIAL CCD_NOT_MORE_THEN_N_EXEEDS_BACK_FRAMES_COUNT CCD_CHECK_FOR_SUPER_NEW - FUTURE CCD_MIN_PREV_ADU_PER_PIXEL CCD_CHECK_TYPE CCD_INCREASE_TRESHOLD_ADU_PER_PIXEL - FUTURE CCD_INCREASE_TRESHOLD_PERCENT - FUTURE CCD_ONLY_SUPERNEW_BACKGR - FUTURE CCD_SIMUL_SUPERNOVA_MIN_MAG - FUTURE CCD_SIMUL_SUPERNOVA_MAX_MAG - FUTURE CCD_SIMUL_SUPERNOVA_INCREASE_RATIO - FUTURE CCD_KEEP_PIXEL_MAX // TO CHECK : CCD_MAX_PIXELS_IN_CLUSTER_ALLOWED CCD_KEEP_NEIGHB_MAP CCD_ALWAYS_USE_SAME_TRESH_PER_PIXEL CCD_SUPER_OPTIMIZED CCD_AVERAGE_OF_PREV_ALG CCD_HOMEOPATIC_ALG CCD_DEBUG_DUMP_CLUSTERS //CCD_READ_FRAMES_FROM_DRIVER CCD_CHECK_IF_NOT_EDGE_OF_BIG_STAR CCD_EDGE_OF_BIG_BY_RAW_DATA CCD_SIGMA_ABOVE_MEAN_IN_RAW_CLUSTER CCD_PREV_FRAMES_CHECK_EDGE CCD_TRANSFORM_ORIENTATION CCD_AXIS_X_ORIENTATION CCD_AXIS_Y_ORIENTATION CCD_TRANSFORM_CCD_FOCUS CCD_TRANSFORM_CCD_PIXEL_SIZE CCD_SHARED_MEM_KEY CCD_SHIFTS_VALUES_FILE - ??? CCD_TRACE_ON_ALL_FRAMES CCD_USE_TRANSFORM_MATRIX CCD_MAX_DIFF_SIGNAL_IN_SIGMA CCD_DUMP_TRACE_STAR_TO_FILE CCD_USE_CONTROL_STAR CCD_MAX_ALLOWED_DRASTIC_CHNG CCD_AUTO_SHIFTS_MIN_STEPS_TO_IGNORE CCD_AUTO_SHIFTS_CALC CCD_AUTO_SHIFTS_CALC_MATRIX_NO CCD_MAX_STAR_SHAPE_LIMIT CCD_MAX_STAR_N_SIGMA_ABOVE CCD_TRANSFORM_MATRIX_FILE CCD_AUTO_CHECK_SIZE CCD_TRIGGER_ACTIONS_DEF_FILE CCD_INTERNAL_TRIGGER_ACTIONS_DEF_FILE CCD_TRIGGER_CHECK_ACTION_PERIOD CCD_ALL_EVENTS_CLAIM_TRIGGER CCD_CHECK_IF_SATELITE CCD_REJECT_SATELITES CCD_TLE_FILE CCD_QTH_FILE CCD_SAT_REJ_RADIUS CCD_SAT_REJ_RADIUS_IN_SEC CCD_CHECK_IF_STAR CCD_REJECT_STARS CCD_STAR_REJ_RADIUS CCD_STAR_REJ_RADIUS_IN_SEC