#################### PYOTE 5.1.6  session started: Wed Jun 21 18:44:59 2023  ####################

filename: E:/rickpp/OccVid/2023-06-21 16.54.11 20230621Hilda/RN-PyM-Hilda.csv

If the csv file came from PyMovie - columns with prefix: signal will be read.

fourcc code of avi: dvsd
fps: 29.97002997002997
avi contains 16939 frames

==================== file header lines ====================
# PyMovie Version 3.7.68z
# source: E:\rickpp\OccVid\2023-06-21 16.54.11 20230621Hilda.avi
#
# Aperture photometry was used to extract the lightcurves
#
# lunar background: False
# yellow mask = default: False
#
# aperture name: track1
# ____ aperture size: 51
# ____ x,y: (308, 229) at frame 16938
# ____ threshold: 99999
# ____ def mask radius: 4.0
# ____ color: yellow
# ____ joggable: False
# ____ auto textOut: False
# ____ thumbnail source: False
# ____ csv output order: 1
#
# aperture name: target
# ____ aperture size: 51
# ____ x,y: (289, 269) at frame 16938
# ____ threshold: 99999
# ____ def mask radius: 4.0
# ____ color: yellow
# ____ joggable: False
# ____ auto textOut: False
# ____ thumbnail source: False
# ____ csv output order: 3
#
# aperture name: ref
# ____ aperture size: 51
# ____ x,y: (578, 274) at frame 16938
# ____ threshold: 99999
# ____ def mask radius: 4.0
# ____ color: red
# ____ joggable: False
# ____ auto textOut: False
# ____ thumbnail source: False
# ____ csv output order: 4
#
# aperture name: empty
# ____ aperture size: 51
# ____ x,y: (196, 308) at frame 16938
# ____ threshold: 99999
# ____ def mask radius: 4.0
# ____ color: green
# ____ joggable: True
# ____ auto textOut: False
# ____ thumbnail source: False
# ____ csv output order: 5
#
#
# Aperture photometry was used to extract the lightcurves
==================== end header lines ====================

No time step irregularities found.

timeDelta: 0.0334000 seconds per reading
timestamp error rate: 0.00%

signal-target is the target curve.

signal-track1 is selected as the reference curve for normalization.

signal-track1 is the target curve.

signal-track1 is the target curve.

signal-track1 is the target curve.

signal-target is the target curve.

signal-target is the target curve.

Background region selected: [9496, 9531]

Baseline noise analysis done using 36 baseline points

noise corr coefs: [1.00, 0.131, 0.243]  (based on 36 points)  sigmaB: 102.82

mean baseline = 214.50

baseline snr = 2.09

signal-target is the target curve.

Background regions cleared.

signal-target is the target curve.

Lightcurve Model Parameters...

baseline intensity: 214.50 ADU
bottom   intensity: 17.20 ADU
magDrop: 2.7400

fresnel_length: 0.31 km

wavelength_nm: 540 nm
star_diameter_mas: 8.50 mas
star_diameter_km:  14.87 km
star_radius_km:    7.44 km
star_rho:          23.79 fresnel lengths

asteroid_diameter_km:  185.50 km
asteroid_diameter_mas: 106.01 mas
asteroid_rho:          296.72 fresnel lengths

asteroid_distance_AU:     2.41 AU
asteroid_distance_arcsec: 3.64 arcsec

shadow_speed: 1.6186 km/sec
sky_motion:   0.9250 mas/sec

frame_time: 0.0334 sec

D_limb_angle_degrees: 80.0 degrees
R_limb_angle_degrees: 45.0 degrees
chord_length_km:  19.75 km
chord_length_sec: 12.2000 sec

miss_distance_km: 0.00




Model used: edge on disk

D limb angle: 80.0
R limb angle: 45.0
signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

Fit improvement entered for first time.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

signal-target is the target curve.

Optimized fit found and is being displayed.

D: [10:32:18.6245]

R: [10:32:30.6025]

Maximum improvement has been achieved with metric: 3.02019  

Lightcurve Model Parameters...

baseline intensity: 214.50 ADU
bottom   intensity: 17.20 ADU
magDrop: 2.7400

fresnel_length: 0.31 km

wavelength_nm: 540 nm
star_diameter_mas: 8.50 mas
star_diameter_km:  14.87 km
star_radius_km:    7.44 km
star_rho:          23.79 fresnel lengths

asteroid_diameter_km:  185.50 km
asteroid_diameter_mas: 106.01 mas
asteroid_rho:          296.72 fresnel lengths

asteroid_distance_AU:     2.41 AU
asteroid_distance_arcsec: 3.64 arcsec

shadow_speed: 1.6186 km/sec
sky_motion:   0.9250 mas/sec

frame_time: 0.0334 sec

D_limb_angle_degrees: 80.0 degrees
R_limb_angle_degrees: 17.0 degrees
chord_length_km:  19.41 km
chord_length_sec: 11.9900 sec

miss_distance_km: 0.00




Model used: edge on disk


D: [10:32:18.6245]

R: [10:32:30.6025]

D limb angle: 80.0
R limb angle: 17.0
Lightcurve Model Parameters...

baseline intensity: 214.50 ADU
bottom   intensity: 17.20 ADU
magDrop: 2.7400

fresnel_length: 0.31 km

wavelength_nm: 540 nm
star_diameter_mas: 8.50 mas
star_diameter_km:  14.87 km
star_radius_km:    7.44 km
star_rho:          23.79 fresnel lengths

asteroid_diameter_km:  185.50 km
asteroid_diameter_mas: 106.01 mas
asteroid_rho:          296.72 fresnel lengths

asteroid_distance_AU:     2.41 AU
asteroid_distance_arcsec: 3.64 arcsec

shadow_speed: 1.6186 km/sec
sky_motion:   0.9250 mas/sec

frame_time: 0.0334 sec

D_limb_angle_degrees: 80.0 degrees
R_limb_angle_degrees: 17.0 degrees
chord_length_km:  19.41 km
chord_length_sec: 11.9900 sec

miss_distance_km: 0.00




Model used: edge on disk

D limb angle: 80.0
R limb angle: 17.0


#################### PYOTE 5.1.6  session started: Mon Jun 26 23:15:20 2023  ####################

filename: D:/rickpp/OccVid/2023-06-21 16.54.11 20230621Hilda/RN-PyM-Hilda.csv

If the csv file came from PyMovie - columns with prefix: signal will be read.

video source file E:\rickpp\OccVid\2023-06-21 16.54.11 20230621Hilda.avi could not be found.

==================== file header lines ====================
# PyMovie Version 3.7.68z
# source: E:\rickpp\OccVid\2023-06-21 16.54.11 20230621Hilda.avi
#
# Aperture photometry was used to extract the lightcurves
#
# lunar background: False
# yellow mask = default: False
#
# aperture name: track1
# ____ aperture size: 51
# ____ x,y: (308, 229) at frame 16938
# ____ threshold: 99999
# ____ def mask radius: 4.0
# ____ color: yellow
# ____ joggable: False
# ____ auto textOut: False
# ____ thumbnail source: False
# ____ csv output order: 1
#
# aperture name: target
# ____ aperture size: 51
# ____ x,y: (289, 269) at frame 16938
# ____ threshold: 99999
# ____ def mask radius: 4.0
# ____ color: yellow
# ____ joggable: False
# ____ auto textOut: False
# ____ thumbnail source: False
# ____ csv output order: 3
#
# aperture name: ref
# ____ aperture size: 51
# ____ x,y: (578, 274) at frame 16938
# ____ threshold: 99999
# ____ def mask radius: 4.0
# ____ color: red
# ____ joggable: False
# ____ auto textOut: False
# ____ thumbnail source: False
# ____ csv output order: 4
#
# aperture name: empty
# ____ aperture size: 51
# ____ x,y: (196, 308) at frame 16938
# ____ threshold: 99999
# ____ def mask radius: 4.0
# ____ color: green
# ____ joggable: True
# ____ auto textOut: False
# ____ thumbnail source: False
# ____ csv output order: 5
#
#
# Aperture photometry was used to extract the lightcurves
==================== end header lines ====================

No time step irregularities found.

timeDelta: 0.0334000 seconds per reading
timestamp error rate: 0.00%

signal-target is the target curve.

Background regions cleared.

Background regions cleared.



#################### PYOTE 5.1.6  session started: Mon Jun 26 23:40:24 2023  ####################

filename: D:/rickpp/OccVid/2023-06-21 16.54.11 20230621Hilda/RN-PyM-Hilda.csv

If the csv file came from PyMovie - columns with prefix: signal will be read.

video source file E:\rickpp\OccVid\2023-06-21 16.54.11 20230621Hilda.avi could not be found.

==================== file header lines ====================
# PyMovie Version 3.7.68z
# source: E:\rickpp\OccVid\2023-06-21 16.54.11 20230621Hilda.avi
#
# Aperture photometry was used to extract the lightcurves
#
# lunar background: False
# yellow mask = default: False
#
# aperture name: track1
# ____ aperture size: 51
# ____ x,y: (308, 229) at frame 16938
# ____ threshold: 99999
# ____ def mask radius: 4.0
# ____ color: yellow
# ____ joggable: False
# ____ auto textOut: False
# ____ thumbnail source: False
# ____ csv output order: 1
#
# aperture name: target
# ____ aperture size: 51
# ____ x,y: (289, 269) at frame 16938
# ____ threshold: 99999
# ____ def mask radius: 4.0
# ____ color: yellow
# ____ joggable: False
# ____ auto textOut: False
# ____ thumbnail source: False
# ____ csv output order: 3
#
# aperture name: ref
# ____ aperture size: 51
# ____ x,y: (578, 274) at frame 16938
# ____ threshold: 99999
# ____ def mask radius: 4.0
# ____ color: red
# ____ joggable: False
# ____ auto textOut: False
# ____ thumbnail source: False
# ____ csv output order: 4
#
# aperture name: empty
# ____ aperture size: 51
# ____ x,y: (196, 308) at frame 16938
# ____ threshold: 99999
# ____ def mask radius: 4.0
# ____ color: green
# ____ joggable: True
# ____ auto textOut: False
# ____ thumbnail source: False
# ____ csv output order: 5
#
#
# Aperture photometry was used to extract the lightcurves
==================== end header lines ====================

No time step irregularities found.

timeDelta: 0.0334000 seconds per reading
timestamp error rate: 0.00%

signal-target is the target curve.

D zone selected: [9465, 9538]

R zone selected: [9830, 9924]

Locate a "D and R" event has been selected

Number of candidate solutions: 7030 (using D/R region selections)

New solver results...

Integer (non-subframe) solution...
sigB:96.07  sigA:58.82 B:378.70 A:98.77
in entryNum units: D: 9516  R: 9873

noise corr coefs: [1.00, 0.127]  (based on 16552 points)  sigmaB: 95.25

Subframe adjusted solution...
sigB:95.25  sigA:58.46 B:378.70 A:98.77
in entryNum units: D: 9516  R: 9873  D(subframe): 9516.0000  R(subframe): 9873.0000

in frameNum units: D: 9546  R: 9903  D(subframe): 9546.0000  R(subframe): 9903.0000

... end New solver results

Error bar report based on 100,000 simulations (units are readings)...

loDbar   @ .68 ci:  -0.3036
hiDbar   @ .68 ci:   0.3270
loDbar   @ .95 ci:  -0.9113
hiDbar   @ .95 ci:   0.7598
loDbar   @ .9973 ci:  -2.3704
hiDbar   @ .9973 ci:   2.0702

loDurBar @ .68 ci:  -0.4772
hiDurBar @ .68 ci:   0.5031
loDurBar @ .95 ci:  -1.1993
hiDurBar @ .95 ci:   1.2009
loDurBar @ .9973 ci:  -2.7198
hiDurBar @ .9973 ci:   2.8649

Timestamp validity check ...

From timestamps at D and R, calculated 357 reading blocks.  From reading blocks, calculated 357 blocks.

Timestamps appear valid @ D and R

================= 0.68 containment interval report =================

B: 378.70  {+/- 0.74}  sigmaB: 95.25

A: 98.77  {+/- 3.10}  sigmaA: 58.46

magDrop report: percentDrop: 73.9  magDrop: 1.459  +/- 0.034  (0.68 ci)

snr: 2.94

D: 9546.00 {+0.33,-0.30} (frame number)
D: [10:32:18.3060]  {+0.0109,-0.0101} seconds

R: 9903.00 {+0.30,-0.33} (frame number)
R: [10:32:30.2179]  {+0.0101,-0.0109} seconds

Duration (R - D): 357.0000 {+0.4902,-0.4902} readings
Duration (R - D): 11.9119 {+0.0164,-0.0164} seconds

=============== end 0.68 containment interval report ===============

================= 0.95 containment interval report =================

B: 378.70  {+/- 1.48}  sigmaB: 95.25

A: 98.77  {+/- 6.20}  sigmaA: 58.46

magDrop report: percentDrop: 73.9  magDrop: 1.459  +/- 0.068  (0.95 ci)

snr: 2.94

D: 9546.00 {+0.76,-0.91} (frame number)
D: [10:32:18.3060]  {+0.0254,-0.0304} seconds

R: 9903.00 {+0.91,-0.76} (frame number)
R: [10:32:30.2179]  {+0.0304,-0.0254} seconds

Duration (R - D): 357.0000 {+1.2001,-1.2001} readings
Duration (R - D): 11.9119 {+0.0401,-0.0401} seconds

=============== end 0.95 containment interval report ===============

================= 0.9973 containment interval report ===============

B: 378.70  {+/- 2.22}  sigmaB: 95.25

A: 98.77  {+/- 9.30}  sigmaA: 58.46

magDrop report: percentDrop: 73.9  magDrop: 1.459  +/- 0.102  (0.9973 ci)

snr: 2.94

D: 9546.00 {+2.07,-2.37} (frame number)
D: [10:32:18.3060]  {+0.0691,-0.0792} seconds

R: 9903.00 {+2.37,-2.07} (frame number)
R: [10:32:30.2179]  {+0.0792,-0.0691} seconds

Duration (R - D): 357.0000 {+2.7924,-2.7924} readings
Duration (R - D): 11.9119 {+0.0933,-0.0933} seconds

=============== end 0.9973 containment interval report =============

D frame number: 9546.00
D: 0.6800 containment intervals:  {+/- 0.33} (readings)
D: 0.9500 containment intervals:  {+/- 0.91} (readings)
D: 0.9973 containment intervals:  {+/- 2.37} (readings)

R frame number: 9903.00
R: 0.6800 containment intervals:  {+/- 0.33} (readings)
R: 0.9500 containment intervals:  {+/- 0.91} (readings)
R: 0.9973 containment intervals:  {+/- 2.37} (readings)

Duration (R - D): 357.0000 readings
Duration: 0.6800 containment intervals:  {+/- 0.4902} (readings)
Duration: 0.9500 containment intervals:  {+/- 1.2001} (readings)
Duration: 0.9973 containment intervals:  {+/- 2.7924} (readings)

=============== Summary report for Excel file =====================

This light curve has not been block integrated.


This 'drop' has a zero probability of being an artifact of noise.
>>>> probability > 0.0000 indicates the 'drop' may be spurious (a noise artifact). Consult with an IOTA Regional Coordinator.
>>>> probability = 0.0000 indicates the 'drop' is unlikely to be a noise artifact, but does not prove that the 'drop' is due to an occultation
>>>> Consider 'drop' shape, timing, mag drop, duration and other positive observer chords before reporting the 'drop' as a positive.

All times are calculated/reported based on the assumption that timestamps are start-of-exposure times.

It is critical that you make appropriate time adjustments when timestamps are NOT start-of-exposure times.
If you use the North American Excel Spreadsheet report, all times will be properly corrected
for camera delay and reported start-of-exposure times.
For other users worldwide, use the appropriate corrections documented in the North American Spreadsheet report form - use
the documentation shown on the Corrections Tables tab.

magDrop report: percentDrop: 73.9  magDrop: 1.459  +/- 0.068  (0.95 ci)

snr: 2.94

D time: [10:32:18.3060]
D: 0.6800 containment intervals:  {+/- 0.0109} seconds
D: 0.9500 containment intervals:  {+/- 0.0304} seconds
D: 0.9973 containment intervals:  {+/- 0.0792} seconds

R time: [10:32:30.2179]
R: 0.6800 containment intervals:  {+/- 0.0109} seconds
R: 0.9500 containment intervals:  {+/- 0.0304} seconds
R: 0.9973 containment intervals:  {+/- 0.0792} seconds

Duration (R - D): 11.9119 seconds
Duration: 0.6800 containment intervals:  {+/- 0.0164} seconds
Duration: 0.9500 containment intervals:  {+/- 0.0401} seconds
Duration: 0.9973 containment intervals:  {+/- 0.0933} seconds

Enter D and R error bars for each containment interval in Excel spreadsheet without + or - sign (assumed to be +/-)

=========== end Summary report for Excel file =====================

Solution 'envelope' in the main plot drawn using 0.95 containment interval error bars