CCSD3ZF0000100000001NJPL3IF0PDS200000001 = SFDU_LABEL /* File Structure */ RECORD_TYPE = FIXED_LENGTH RECORD_BYTES = 512 FILE_RECORDS = 780 LABEL_RECORDS = 30 CHECKSUM = 3798918 /* Unsigned 32-bit checksum of all bytes after label records */ FILE_STATE = CLEAN ^HISTORY = 31 OBJECT = HISTORY END_OBJECT = HISTORY ^HISTOGRAM_IMAGE = 55 OBJECT = HISTOGRAM_IMAGE /* Two dim histogram image structure */ LINES = 256 LINE_SAMPLES = 408 SAMPLE_TYPE = UNSIGNED_INTEGER SAMPLE_BITS = 8 SAMPLE_NAME = BAND LINE_NAME = INTENSITY NOTE = "This is an unannotated two-dimensional histogram 'image' showing frequency of measured 'Intensity' versus band number. The 'Intensity' may be DN, Radiance, or BDRF (Bi-Directional Reflectance), or a combination of BDRF with Radiance, with BDRF below a cutoff band number and radiance above. The cutoff is defined by: BDRF_RAD_TRANSITION_BAND_NUMBER. The 'Intensity' is DN only if CORE_NAME in the QUBE object is RAW_DATA_NUMBER." BDRF_RAD_TRANSITION_BAND_NUMBER = 1 END_OBJECT = HISTOGRAM_IMAGE ^SAMPLE_SPECTRUM_QUBE = 259 OBJECT = SAMPLE_SPECTRUM_QUBE /* Sample spectrum non-standard qube structure */ AXES = 3 AXIS_NAME = (SAMPLE,LINE,REGION) ITEMS = (500,340,3) ITEM_BITS = 4 ITEM_TYPE = UNSIGNED_INTEGER REGION_UPPER_LEFT_LATITUDE = (0.000,0.000,0.000) REGION_UPPER_LEFT_LONGITUDE = (0.000,0.000,0.000) REGION_SAMPLES = (4,4,4) REGION_LINES = (1,1,1) NOTE = "Each band is a partially annotated 'image' of a spectral plot over a selected region in the NIMS data cube. The plot is of DN, radiance or BDRF (Bi-Directional Reflectance) versus NIMS_band or wavelength. Nibble pixels may assume 3 values, representing background (usually 0), spectrum (usually 15), and an intermediate (gray) value used to display standard deviation over region. BDRF and radiance may coexist in each plot, with BDRF below a cutoff wavelength and radiance above. The cutoff is defined by: BDRF_RAD_TRANSITION_WAVELENGTH. The plot is of DN only if CORE_NAME in the QUBE object is RAW_DATA_NUMBER." BDRF_RAD_TRANSITION_WAVELENGTH = 0.68814 END_OBJECT = SAMPLE_SPECTRUM_QUBE ^QUBE = 758 OBJECT = QUBE /* Qube structure */ AXES = 3 AXIS_NAME = (SAMPLE,LINE,BAND) /* Core description */ CORE_ITEMS = (20,3,48) CORE_ITEM_BYTES = 4 CORE_ITEM_TYPE = VAX_REAL CORE_BASE = 0.0 CORE_MULTIPLIER = 1.0 /* Core scaling is: True_value = base + (multiplier * stored_value) */ CORE_VALID_MINIMUM = 16#FFEFFFFF# CORE_HIGH_REPR_SATURATION = 16#FFFBFFFF# CORE_HIGH_INSTR_SATURATION = 16#FFFCFFFF# CORE_LOW_INSTR_SATURATION = 16#FFFDFFFF# CORE_LOW_REPR_SATURATION = 16#FFFEFFFF# CORE_NULL = 16#FFFFFFFF# CORE_NAME = SPECTRAL_RADIANCE CORE_UNIT = 'uWATT*CM**-2*SR**-1*uM**-1' /* Core units: to convert these radiances to SI units (W/m^2/sr/uM), */ /* the data in the cube must be divided by 100. */ SPATIAL_BINNING_TYPE = FOOTPRINT_AVERAGE THRESHOLD_WEIGHT = 0.10000 FOOTPRINT_GRID_SIZE = 10 /* SPATIAL_BINNING_TYPE, FOOTPRINT_GRID_SIZE, THRESHOLD_WEIGHT, and */ /* (for certain projections) MAXIMUM_PIXEL_DISTORTION, are parameters */ /* that are not relevant to the Tube core data, but can be used in */ /* subsequent ISIS processing to generate a projected cube from a */ /* tube file with program NIMSGEOMF. Note that the value: */ /* SPATIAL_BINNING_TYPE = FOOTPRINT_AVERAGE */ /* does trigger the addition of two extra backplanes per grating */ /* position: the RIGHT_EDGE_PROJ_LINE/SAMPLE backplanes. */ EXPANDED_RADIUS = 85790.40 DARK_UPDATE_TYPE = NOUPDAT FILL_BOX_SIZE = 0 FILL_MIN_VALID_PIXELS = 0 PHOTOMETRIC_CORRECTION_TYPE = NONE /* Suffix description */ SUFFIX_BYTES = 4 SUFFIX_ITEMS = (0,0,1) BAND_SUFFIX_NAME = NATIVE_TIME BAND_SUFFIX_UNIT = SECOND BAND_SUFFIX_ITEM_BYTES = 4 BAND_SUFFIX_ITEM_TYPE = VAX_REAL BAND_SUFFIX_BASE = 0.000000 BAND_SUFFIX_MULTIPLIER = 63.000000 BAND_SUFFIX_VALID_MINIMUM = (16#FFEFFFFF#) BAND_SUFFIX_NULL = (16#FFFFFFFF#) BAND_SUFFIX_LOW_REPR_SAT = (16#FFFEFFFF#) BAND_SUFFIX_LOW_INSTR_SAT = (16#FFFDFFFF#) BAND_SUFFIX_HIGH_INSTR_SAT = (16#FFFCFFFF#) BAND_SUFFIX_HIGH_REPR_SAT = (16#FFFBFFFF#) /* The NATIVE TIME band of the suffix is the time in "chops" of */ /* the first grating position at the corresponding line and sample */ /* after the NATIVE START TIME, where 63 chops = 1 second. */" /* Data description: general */ DATA_SET_ID = 'GO-J-NIMS-3-TUBE-V1.0' SPACECRAFT_NAME = GALILEO_ORBITER MISSION_PHASE_NAME = CALLISTO_21_ENCOUNTER INSTRUMENT_NAME = 'NEAR INFRARED MAPPING SPECTROMETER' INSTRUMENT_ID = NIMS ^INSTRUMENT_DESCRIPTION = "NIMSINST.TXT" TARGET_NAME = CAL START_TIME = 1999-07-26T09:20:39Z STOP_TIME = 1999-07-26T09:22:48Z NATIVE_START_TIME = "5098554.00.0" NATIVE_STOP_TIME = "5098556.11" OBSERVATION_NAME = '21NNOPCAL_01R' NOTE = "Optical calibration of the NIMS grating // OPCAL // MIPL Systematic Processing Product" PRODUCT_ID = "21NNOPCAL_01R_MSY01.VTUB" PRODUCT_CREATION_DATE = 2000-10-16 IMAGE_ID = NULL MIN_SPACECRAFT_SOLAR_DISTANCE = 7.4637e+08 MAX_SPACECRAFT_SOLAR_DISTANCE = 7.4637e+08 MINIMUM_CENTRAL_BODY_DISTANCE = 6232960.00 MAXIMUM_CENTRAL_BODY_DISTANCE = 6232960.00 /* Data description: instrument status */ INSTRUMENT_MODE_ID = LONG_MAP GAIN_MODE_ID = 4 CHOPPER_MODE_ID = REFERENCE START_GRATING_POSITION = 00 OFFSET_GRATING_POSITION = 04 GRATING_POSITION_INCREMENT = 01 GRATING_POSITIONS = 24 MEAN_FOCAL_PLANE_TEMPERATURE = 65.00 MEAN_RAD_SHIELD_TEMPERATURE = 0.00 MEAN_TELESCOPE_TEMPERATURE = 0.00 MEAN_GRATING_TEMPERATURE = 130.00 MEAN_CHOPPER_TEMPERATURE = 0.00 MEAN_ELECTRONICS_TEMPERATURE = 0.00 MEAN_DARK_DATA_NUMBER = (27.66,27.27,29.67,26.02,24.92,22.31, 26.22,26.85,25.36,8.95,33.32,34.82,32.42,30.88,29.36,28.34, 26.65) /* The "mean dark data numbers" are the DN value of dark sky for each of the */ /* 17 NIMS detectors, averaged over the mirror-position-specific values used */ /* in the computation of radiance. The original dark values were obtained */ /* from either off-limb portions of the observation or special "heaven dark" */ /* observations for an encounter. */ THERMAL_DETECTOR_OFFSET = (515.50,516.03,514.03) THERMAL_DETECTOR_SENS_RATIO = (47.56,47.34,48.29) GROUP = BAND_BIN /* Spectral axis description */ BAND_BIN_CENTER = (0.6881,0.6960,0.7039,0.7118,0.7197,0.7275, 0.7354,0.7433,0.7512,0.7590,0.7669,0.7748,0.7827,0.7905, 0.7984,0.8063,0.8142,0.8221,0.8299,0.8378,0.8457,0.8536, 0.8614,0.8693,0.8271,0.8350,0.8429,0.8507,0.8586,0.8665, 0.8744,0.8823,0.8902,0.8981,0.9060,0.9139,0.9217,0.9296, 0.9375,0.9454,0.9533,0.9612,0.9691,0.9770,0.9848,0.9927, 1.0006,1.0085) BAND_BIN_UNIT = MICROMETER BAND_BIN_ORIGINAL_BAND = (1,2,3,4,5,6,7,8,9,10,11,12,13,14, 15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33, 34,35,36,37,38,39,40,41,42,43,44,45,46,47,48) BAND_BIN_GRATING_POSITION = (0,1,2,3,4,5,6,7,8,9,10,11,12,13, 14,15,16,17,18,19,20,21,22,23,0,1,2,3,4,5,6,7,8,9,10,11, 12,13,14,15,16,17,18,19,20,21,22,23) BAND_BIN_DETECTOR = (1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, 1,1,1,1,1,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2, 2) BAND_BIN_SOLAR_FLUX = (6293.8999,6159.9199,6027.3799,5896.3999, 5767.0698,5639.5098,5513.7798,5389.9702,5271.1699,5171.5400, 5073.1099,4975.9399,4880.0801,4785.5400,4692.3901,4604.7300, 4519.3599,4435.2402,4352.3799,4270.7998,4190.5200,4111.5400, 4033.8501,3957.4900,4382.2300,4300.0498,4219.1699,4139.5898, 4061.3201,3984.3601,3908.7100,3834.3799,3761.3501,3689.6201, 3628.7100,3571.7500,3515.6499,3460.3999,3406.0000,3352.4399, 3299.7300,3247.8601,3196.8301,3146.6201,3097.2400,3048.6799, 3000.8000,2952.2900) BAND_BIN_SENSITIVITY = (0.6599,0.7307,0.8143,0.9100,0.9943, 1.0719,1.1516,1.2313,1.3013,1.3062,1.2861,1.2504,1.2379, 1.2356,1.2739,1.3007,1.3096,1.2678,1.2010,1.1177,1.0322, 0.9763,0.9683,0.9760,1.1611,1.0704,1.0453,1.0341,1.0098, 0.9515,0.8876,0.8679,0.8835,0.8946,0.8604,0.7688,0.6416, 0.5337,0.4617,0.4195,0.3928,0.3643,0.3238,0.2759,0.2272, 0.1738,0.1298,0.0893) /* "Band Bin Sensitivity" is the sensitivity for each band, in units of */ /* DN/radiance_unit (see CORE UNIT). These values are functions of */ /* reported focal plane assembly temperature during the observation and */ /* of ground and flight calibration data. They may be used to construct */ /* "idealized data numbers" (DNs which would have been measured by an */ /* anomaly-free instrument) by the formula: */ /* DN = dark_value + sensitivity * radiance, */ /* where 'dark_value' is approximated by the MEAN_DARK_DATA_NUMBER array, */ /* preceding the BAND_BIN group. */ /* Note that actually measured raw DNs are not obtainable in this way, */ /* due to corrections for instrument anomalies (see the referenced */ /* INSTRUMENT_DESCRIPTION for details) and possible resampling of the */ /* data. The above formula for DN also does not hold for the higher */ /* intensity regime in the thermal detectors (15-17), for which the */ /* following formula applies: */ /* DN = thermal_offset + sensitivity * radiance / sens_ratio */ /* where 'thermal_offset' and 'sens_ratio' for detectors 15, 16, and 17 are */ /* given by the THERMAL_DETECTOR_OFFSET and THERMAL_DETECTOR_SENS_RATIO */ /* arrays, preceding the BAND_BIN group. */ /* The radiances for which the above formula applies, are those lying above: */ /* Cutoff_radiance = thermal_offset / sensitivity */ END_GROUP = BAND_BIN END_OBJECT = QUBE END GROUP = VISIS2 VERSION_DATE = 2000-01-26 DATE_TIME = 2000-10-16T08:19:10 NODE_NAME = "MIPL" USER_NAME = "FrankLeader/43214" SOFTWARE_DESC = "ISIS cube file with PDS label has been generated as systematic product by MIPL using the following programs: NIMSMERGE2 to create EDRs; NIMSCMM2 to create the merged mosaic & geometry cube; HIST2D to create a two-dimensional histogram; SPECPLOT to create the spectral plots; VISIS2 to create the ISIS cube." USERNOTE = "MIPL Systematic Processing Product" GROUP = PARAMETERS EDR_FILE_NAME = "NE:21NNOPCAL_01R.2" PLATFORM_CKERNEL_NAME = " " ROTOR_CKERNEL_NAME = " " SP_KERNEL_FILE_NAME = "SPICEKER:S980928A.BSP" I_KERNEL_FILE_NAME = "NDAT:NIMS_IKERNEL_MAB5.DAT" SPIKE_FILE_NAME = "DUMMY_DSPK.DAT" BOOM_FILE_NAME = "GLL:[NIMS.CAL]BOOM_OBSCURATION.NIM" DARK_VALUE_FILE_NAME = "NCAL:16HNDARKCL04A_FEL02.DRK" CALIBRATION_FILE_NAME = "NCAL:N1999A_GS4_06_C21.CAL" SOLAR_FLUX_FILE_NAME = "NCAL:NIMS_SOLAR.DAT" MERGED_MOSAIC_FILE_NAME = "GLLNIMS:21NNOPCAL_01R_MSY01.TUB" GRATING_POSITION_CORRECTION = 1.5750 GRATING_STEP_INFLATION = 0.2100 /* The "Grating Position Correction" and "Grating Step Inflation" are */ /* adjustments to the nominal grating positions, based on flight calibrations */ /* and known sharp spectral features of the target, used in determination of */ /* wavelengths. GRATING_POSITION_CORRECTION is an additive term to the */ /* grating position and (1.0 + GRATING_STEP_INFLATION) is a multiplicative */ /* term modifying the grating stepsize. */ SUMMARY_IMAGE_RED_ID = 0 SUMMARY_IMAGE_GREEN_ID = 0 SUMMARY_IMAGE_BLUE_ID = 0 ADAPT_STRETCH_SAT_FRAC = 0.0000 ADAPT_STRETCH_SAMP_FRAC = 0.0000 RED_STRETCH_RANGE = ( 0, 0) GREEN_STRETCH_RANGE = ( 0, 0) BLUE_STRETCH_RANGE = ( 0, 0) END_GROUP = PARAMETERS END_GROUP = VISIS2 END mmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmЎЎЎЎЎЎЎЎmmmmmmmmmmmmmmmmЎЎЎЎЎЎЎЎmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmлллллллллmmmmmmmmmmmmmmmmmЎЎЎЎЎЎЎЎmmmmmmmmЎЎЎЎЎЎЎЎЎmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmлллллллллmmmmmmmmmmmmmmmmmЎЎЎЎЎЎЎЎЎЎЎЎЎЎЎЎЎmmmmmmmmmmmmmmmmmЎЎЎЎЎЎЎЎллллллллmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmmллллллллЎЎЎЎЎЎЎЎmmmmmmmmmmmmmmmmmmmmmmmmmлллллллллЎЎЎЎЎЎЎЎЎmmmmmmmmmmmmmmmmmmўўўўўўўўўЎЎЎЎЎЎЎЎўўўўўўўўmmmmmmmmmЎЎЎЎЎЎЎЎЎЎЎЎЎЎЎЎЎўўўўўўўўўЎЎЎЎЎЎЎЎЎmmmmmmmmmmmmmmmmmўўўўўўўўўmmmmmmmmллллллллmmmmmmmmmmmmmmmmmmmmmmmmmmџџџ№№№№№№№№№№№№№№№џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ№џ№џ№№№№№№№џџ№№№№№џ№№№№№№№№џџ№№№№№№№№џ№№№№№№№№џџџ№№№№№№№№џ№№№№№№№№џџ№№№№№№№№џ№№№№№џџџ№№№№№№№№№№№№№№џ№№№№№№џџџ№№џ№џ№№№№№№№№№џџџ№№№№№џ№№№№№№№№џџ№№№№№№№№џ№№№P№P№P№№№№№№џџџ№P№P№P№№№№№џ№№№№№№№№џџ№№№№№№№№џ№№№№№џџџ№№№№№№№№№№№№№№џ№№№№№№џџџ№№џ№џ№№№№№№№№џџ№џџ№P№№№№№№№Pџ№№№№№№№№џџ№№№№№№№№џ№№№№№№№№џџџ№№№№№№№№PPџ№P№№№№№№№№№P№P№№№џџ№№№№№№№№џ№№№№№№џџ№№№№№№№№№№№№№№№№№№№№џџџ№№џ№џ№№№№№№№№џџџ№№№№№џ№№№№№№№№№џџ№№№№№№№№№№џ№№№№№№№№№џџџ№№№№№№№№№№џ№№№№№№№№џџ№№№№№№№№№№№џ№№№№№№№№џ№№№№№№№№№№№№№џџџ№џ№№№џ№џџ№№№№№№№№№№№№№№№№№џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ№џ№џ№№№№№№№№№џџ№џ№№№№№џ№№№№№№№№џџ№№№№№№№№№№№џ№№№№№№№№џџџ№№№№№№№№џ№№№№№№№№џџ№№№№№№№№џ№№№№№џџ№џџ№№№№№џџ№№№џџџ№№№№№№№№џ№№№№№џ№№№№№№№№џџ№№№№№№№№џ№№№№№№№№џџџ№№№№№№№№џ№№№№№№№P№Pџџ№P№P№P№P№P№P№P№Pџ№P№P№U№U№Uџџ№џ№U№№№№Uџџ№№№U№№№№џџџ№U№џ№№U№№№№№№Uџ№џ№U№U№U№U№Uџ№U№U№U№U№U№U№U№Uџџ№U№U№U№U№U№U№U№Uџ№U№U№U№U№U№U№U№_џџџ№_№_№U№U№U№U№U№Uџ№ѕ№ѕ№ѕ№U№U№U№U№Uџџ№U№U№U№U№U№U№U№Uџ№U№U№U№U№Uџџџ№№U№№№№U№џџ№Uџ№џџџ№U№№№U№№№№№Uџџ№№џ№U№U№U№U№Pџ№P№P№P№P№P№P№P№Pџџ№P№P№P№P№P№P№P№Pџ№P№P№P№P№P№P№P№Pџџџ№P№P№P№P№P№PP№PP№P№Pџ№P№U№PP№U№№PPU№№PPU№№PPPU№PPPU№PPPU№PPUѕџџ№№PUѕ№№џUџP№№џU_P№_Pџѕ_№№UPPѕU№№№PPPPџU№џ№№ѕ_PP_№UPџ№№№№_P№_№U_џ№№№№Pџ_P№U№U№P№№№P_PP№UU№P№№џ№PPU№ѕU№P№№№P_U№ѕ№P№№№PU№ѕџ№№PPPU№№№№PP№№№№№№џџџ№џ№№№џџџџ№№№№№№№№№№№№№№№џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ№џ№џ№№№№№№№џџ№№№№№џ№№№№№№№№џџ№№№№№№№№џ№№№№№№№№џџџ№№№№№№№№џ№№№№№№№№џџ№№№№№№№№џ№№№№№џџџ№№№№№№№№№№№№№№џ№№№№№№џџџ№№џ№џ№№№№№№№№№џџџ№№№№№џ№№№№№№№№џџ№№№№№№№№џ№№№№№№№№џџџ№№№№P№P№№№№№№џ№P№P№№№№№№џџ№№№№№№№№џ№№№№№џџџ№№№№№№№№№№№№№№џ№№№№№№џџџ№№џ№џ№№№№№№№№џџ№џџ№№№№№џ№№№№№№№№џџ№№№№№№№№џ№№№№№№№№џџџ№№№№№№№№џ№№№№№№№№џџ№№№№№№№№џ№№№№№№џџ№№№№№№№№№№№№№№№№№№№№џџџ№№џ№џ№№№№№№№№№џџџ№№№№№P№№џ№№№№№№№№№№№џџ№№№№№№№№џ№№№№№№№№џџџ№№№№№№№№џ№№№№№№№№џџ№№№№№№№№№№№џ№№№№№№№џ№№№№№№№џ№№№№№№џџџ№џ№№№џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ{СЩЕЈСЃlqСšoС"–џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ@УL@Шn>Рs~6Р–nџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ{СЩЕoСмqСšoС"–џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџdСо СaHс?й7yСІИџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ@dŒVРЪmРЛP?‰џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ СaHdСоСyСІИџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџСтGBСŠ]CСЧчРџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџў?)~%@tЈРэ\Р„дџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџKСтїˆСЖzCСЧ&@‹џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџтР+у7С;Х<С`HСеƒџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ,РНw,РНwД?зoР%rџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџтР+утР+у<С`HСеƒџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ'С СМ. СФVСYџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџа?mѓПb—ќПЁз@~eџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ'С НРЈЁ СФVНРсDџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџРСlСSС&юнР%џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџИ? ЯРСl™?mˆKРJџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџСSСSШР*rнР%џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџСF: СѕoЅР<ЙЃРђiџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџРЁQвПОPкПyMы?#‡џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџСF: Сѕo СoЃРђiџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ ?лтСг Сd:РРДqџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ ?лт ?лт РЂї>5„џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџўПёСгЎРЭСX3џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџŸ?AРЮф’Р0ЉђРбњџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџъП~2КПšСП#1а?‘oџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџРnF*СNЯ’Р0ЉРъџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџžР~žР~С~> СКГџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ—?Љ—?Љ{? §&Рkгџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ—?ЉžР~С~>щ>RџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџС0$,С~в-СYЗѕРЎзџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџЁ?t!б?WХУПеwЛП2џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџС0$іРh”РŠcѕРЎзџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџС{ПС{ПЋРЪдСDяџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџћП4 ž? mЋРЪдk@—3џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџЅРт ЅРт Сoѓ>eЛџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ9СЪоџРvЕС€Ш˜Р џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџЇ?hУПЈІв?Ч‚ТП”|џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџСз+џРvЕС€Ш˜Р џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ ??RЇР† С@НС#ЎџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџўПэ ўПэ Рг–і>ЛЅџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџЇР†С Y С@НС#ЎџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџС"cјРB•РвјРи6џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџЂ?fЏОП"ХП•ZНПfџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџЂ?fЏјРBњРcM“РyЛџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџёПƒVёПƒVЅР0 СуJџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ˜?MёПƒVРcŽъ>OџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџёПƒV˜?MЅР0ъ>Oџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџž?џ>Ю?їППјЯ?Мџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџž?џ>ИПяёППјЗП*иџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџž?џ>РѕљЦ?ф§•@ш„џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџB SB SB€BаQџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџœ?ч?їП7˜?•Ю№>!bџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџЁA 5ЁA 5ŸAѕ›A”2џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџLCL‚?C ˜BCTнBC яџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџЌ?Xр?мЃбПаRШПђvџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ DЌЕDEЈDF™DШVџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ Р m Р mРXlBРэѕџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџWDixNDоSD0ВRDSПџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџШ?йЦ@AБѓП@dџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџFD=Dbу?DІоBDФџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџЪ?ечЕ@–еЈ?3‘?­џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџсCїњйCuјоC„рCI,џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџРы_њПў#ХРй @KџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџNC›FC8OJCИ#MCЭ‡џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџЪ?-јЪ?-ј1Р§ќ??!џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџ CХKC˜дC  CфџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџЯПt[M?šѕ?}ƒП!=џџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџџНBaЎДBР­B