

#################### PYOTE 5.7.11  session started: Sun Nov 23 12:30:34 2025  ####################

filename: C:/Users/Stefan/Pictures/2025/2025-11-23 Sternbed/1/lc-31.csv

==================== file header lines ====================
# PyMovie Version 4.1.5
# source: C:\Users\Stefan\Pictures\2025\2025-11-23 Sternbed\1\20251122_233538_816x620_G24dB_0066ms.adv
#
# Aperture photometry was used to extract the lightcurves
#
# lunar background: False
# yellow mask = default: False
#
# aperture name: target
# ____ aperture size: 31
# ____ x,y: (420, 322) at frame 680
# ____ threshold: 462
# ____ def mask radius: 4.0
# ____ color: green
# ____ joggable: False
# ____ auto textOut: False
# ____ thumbnail source: False
# ____ csv output order: 1
#
# aperture name: ref
# ____ aperture size: 31
# ____ x,y: (272, 482) at frame 680
# ____ threshold: 626
# ____ def mask radius: 4.0
# ____ color: red
# ____ joggable: False
# ____ auto textOut: False
# ____ thumbnail source: False
# ____ csv output order: 2
#
# aperture name: track
# ____ aperture size: 31
# ____ x,y: (356, 165) at frame 680
# ____ threshold: 666
# ____ def mask radius: 4.0
# ____ color: yellow
# ____ joggable: True
# ____ auto textOut: False
# ____ thumbnail source: False
# ____ csv output order: 3
#
# date at frame 0: 2025-11-22
#ACQUISITION-DELAY: 0.0
#ALTITUDE: 551.1
#AUTHOR: Stefan Meister
#BINNING-X: 2
#BINNING-Y: 2
#CAMERA-DRIVER-NAME: UVC
#CAMERA-FIRMWARE-VERSION: 1.3.3
#CAMERA-MODEL: DVTI+CAM
#CAMERA-SENSOR-INFO: Sony IMX430LLJ-C (9.2mm 1624x1240 4.5um CIS)
#CAMERA-SERIAL-NO: 17
#CAMERA-VENDOR-NAME: DVTI
#COMMENT: 
#HEIGHT: 620
#INSTRUMENT: DVTI+CAM #17 FW 1.3.3, Sensor IMX430
#LATITUDE: 47.5195733
#LONGITUDE: 8.5707244
#OBJNAME: (49100) 1998 RT74 occ. UCAC4 578-013417
#OBSERVER: Stefan Meister
#RECORDER-SOFTWARE: DvtiCamControl
#RECORDER-SOFTWARE-VERSION: 5.9.0-81
#TELESCOPE: Newton 2.5m
#WIDTH: 816
#
# Aperture photometry was used to extract the lightcurves
==================== end header lines ====================

No time step irregularities found.

timeDelta: 0.0659897 seconds per reading
timestamp error rate: 0.00%

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

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.

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.

Use min/max event to locate a "D and R" event has been selected

minEvent: 2  maxEvent: 5

Number of candidate solutions: 2706 (using event min/max entries)

New solver results...

Integer (non-subframe) solution...
B:8819.94  A:1870.46
in entryNum units: D: 329  R: 331

noise corr coefs: [1.00, 0.235, 0.146, 0.0629, 0.0862, 0.119, 0.121, 0.0885, 0.0594, 0.0537]  (based on 679 points)  sigmaB: 1168.79

noise corr coefs: [1.00, 0.235, 0.146, 0.0629, 0.0862, 0.119, 0.121, 0.0885, 0.0594, 0.0537]  (based on 679 points)  sigmaB: 1168.79

Subframe adjusted solution...
B:8819.94  A:1870.46
in entryNum units: D: 329  R: 331  D(subframe): 329.0000  R(subframe): 331.0000

in frameNum units: D: 329  R: 331  D(subframe): 329.0000  R(subframe): 331.0000

... end New solver results

signal-target is the target curve.

Calculating the noise-induced-drop probability - this can take many seconds!  Be patient.

Error bar report based on 50,000 simulations (units are readings)...

loDbar   @ .68 ci:  -0.0814
hiDbar   @ .68 ci:   0.0841
loDbar   @ .95 ci:  -0.2137
hiDbar   @ .95 ci:   0.2075
loDbar   @ .9973 ci:  -0.4018
hiDbar   @ .9973 ci:   0.3890

loDurBar @ .68 ci:  -0.1357
hiDurBar @ .68 ci:   0.1204
loDurBar @ .95 ci:  -0.2858
hiDurBar @ .95 ci:   0.2986
loDurBar @ .9973 ci:  -0.5226
hiDurBar @ .9973 ci:   0.5156

Timestamp validity check ...

From timestamps at D and R, calculated 2 reading blocks.  From reading blocks, calculated 2 blocks.

Timestamps appear valid @ D and R

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

B: 8819.94  {+/- 44.89}  sigmaB: 1168.79

A: 1870.46  {+/- 97.65}  sigmaA: 97.65

magDrop report: percentDrop: 78.8  magDrop: 1.684  +/- 0.057  (0.68 ci)

DNR: 5.95

D: 329.00 {+0.08,-0.08} (frame number)
D: [23:36:00.1360]  {+0.0055,-0.0054} seconds

R: 331.00 {+0.08,-0.08} (frame number)
R: [23:36:00.2680]  {+0.0054,-0.0055} seconds

Duration (R - D): 2.0000 {+0.1281,-0.1281} readings
Duration (R - D): 0.1320 {+0.0085,-0.0085} seconds

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

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

B: 8819.94  {+/- 89.77}  sigmaB: 1168.79

A: 1870.46  {+/- 195.29}  sigmaA: 97.65

magDrop report: percentDrop: 78.8  magDrop: 1.684  +/- 0.114  (0.95 ci)

DNR: 5.95

D: 329.00 {+0.21,-0.21} (frame number)
D: [23:36:00.1360]  {+0.0137,-0.0141} seconds

R: 331.00 {+0.21,-0.21} (frame number)
R: [23:36:00.2680]  {+0.0141,-0.0137} seconds

Duration (R - D): 2.0000 {+0.2922,-0.2922} readings
Duration (R - D): 0.1320 {+0.0193,-0.0193} seconds

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

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

B: 8819.94  {+/- 134.66}  sigmaB: 1168.79

A: 1870.46  {+/- 292.94}  sigmaA: 97.65

magDrop report: percentDrop: 78.8  magDrop: 1.684  +/- 0.171  (0.9973 ci)

DNR: 5.95

D: 329.00 {+0.39,-0.40} (frame number)
D: [23:36:00.1360]  {+0.0257,-0.0265} seconds

R: 331.00 {+0.40,-0.39} (frame number)
R: [23:36:00.2680]  {+0.0265,-0.0257} seconds

Duration (R - D): 2.0000 {+0.5191,-0.5191} readings
Duration (R - D): 0.1320 {+0.0343,-0.0343} seconds

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

D frame number: 329.00
D: 0.6800 containment intervals:  {+/- 0.08} (readings)
D: 0.9500 containment intervals:  {+/- 0.21} (readings)
D: 0.9973 containment intervals:  {+/- 0.40} (readings)

R frame number: 331.00
R: 0.6800 containment intervals:  {+/- 0.08} (readings)
R: 0.9500 containment intervals:  {+/- 0.21} (readings)
R: 0.9973 containment intervals:  {+/- 0.40} (readings)

Duration (R - D): 2.0000 readings
Duration: 0.6800 containment intervals:  {+/- 0.1281} (readings)
Duration: 0.9500 containment intervals:  {+/- 0.2922} (readings)
Duration: 0.9973 containment intervals:  {+/- 0.5191} (readings)

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

This light curve has not been block integrated.

This light curve has been normalized against a reference star.
... signal-ref was used for normalization with X offset: 5
... 64 readings were used for smoothing



The observed drop has a probability of 1.5e-05 of being a noise-induced-event

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: 78.8  magDrop: 1.684  +/- 0.114  (0.95 ci)

DNR: 5.95

D time: [23:36:00.1360]
D: 0.6800 containment intervals:  {+/- 0.0055} seconds
D: 0.9500 containment intervals:  {+/- 0.0141} seconds
D: 0.9973 containment intervals:  {+/- 0.0265} seconds

R time: [23:36:00.2680]
R: 0.6800 containment intervals:  {+/- 0.0055} seconds
R: 0.9500 containment intervals:  {+/- 0.0141} seconds
R: 0.9973 containment intervals:  {+/- 0.0265} seconds

Duration (R - D): 0.1320 seconds
Duration: 0.6800 containment intervals:  {+/- 0.0085} seconds
Duration: 0.9500 containment intervals:  {+/- 0.0193} seconds
Duration: 0.9973 containment intervals:  {+/- 0.0343} 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

fit metrics for signal-target

fit metrics === noiseSigmaDistance: 47.8

fit metrics === time error bar: +/- 0.0141 seconds

fit metrics === DNR: 5.95  
fit metrics === B: 8819.94  A: 1870.46 sigmaB: 1168.79  sigmaA: 97.65
fit metrics === magDrop report: percentDrop: 78.8  magDrop: 1.684  +/- 0.114  (0.95 ci)

fit metrics === D frame number: 329.0000

fit metrics === R frame number: 331.0000

fit metrics === duration: 0.1320 seconds

fit metrics === D time: [23:36:00.1360]

fit metrics === R time: [23:36:00.2680]




signal-target is the target curve.

Use min/max event to locate a "D and R" event has been selected

minEvent: 2  maxEvent: 5

Number of candidate solutions: 2706 (using event min/max entries)

New solver results...

Integer (non-subframe) solution...
B:8819.94  A:1870.46
in entryNum units: D: 329  R: 331

noise corr coefs: [1.00, 0.235, 0.146, 0.0629, 0.0862, 0.119, 0.121, 0.0885, 0.0594, 0.0537]  (based on 679 points)  sigmaB: 1168.79

noise corr coefs: [1.00, 0.235, 0.146, 0.0629, 0.0862, 0.119, 0.121, 0.0885, 0.0594, 0.0537]  (based on 679 points)  sigmaB: 1168.79

Subframe adjusted solution...
B:8819.94  A:1870.46
in entryNum units: D: 329  R: 331  D(subframe): 329.0000  R(subframe): 331.0000

in frameNum units: D: 329  R: 331  D(subframe): 329.0000  R(subframe): 331.0000

... end New solver results

signal-target is the target curve.

Calculating the noise-induced-drop probability - this can take many seconds!  Be patient.

Error bar report based on 50,000 simulations (units are readings)...

loDbar   @ .68 ci:  -0.0789
hiDbar   @ .68 ci:   0.0873
loDbar   @ .95 ci:  -0.2225
hiDbar   @ .95 ci:   0.1992
loDbar   @ .9973 ci:  -0.4115
hiDbar   @ .9973 ci:   0.3809

loDurBar @ .68 ci:  -0.1321
hiDurBar @ .68 ci:   0.1260
loDurBar @ .95 ci:  -0.2937
hiDurBar @ .95 ci:   0.2847
loDurBar @ .9973 ci:  -0.4948
hiDurBar @ .9973 ci:   0.5056

Timestamp validity check ...

From timestamps at D and R, calculated 2 reading blocks.  From reading blocks, calculated 2 blocks.

Timestamps appear valid @ D and R

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

B: 8819.94  {+/- 44.89}  sigmaB: 1168.79

A: 1870.46  {+/- 97.65}  sigmaA: 97.65

magDrop report: percentDrop: 78.8  magDrop: 1.684  +/- 0.057  (0.68 ci)

DNR: 5.95

D: 329.00 {+0.09,-0.08} (frame number)
D: [23:36:00.1360]  {+0.0058,-0.0052} seconds

R: 331.00 {+0.08,-0.09} (frame number)
R: [23:36:00.2680]  {+0.0052,-0.0058} seconds

Duration (R - D): 2.0000 {+0.1291,-0.1291} readings
Duration (R - D): 0.1320 {+0.0085,-0.0085} seconds

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

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

B: 8819.94  {+/- 89.77}  sigmaB: 1168.79

A: 1870.46  {+/- 195.29}  sigmaA: 97.65

magDrop report: percentDrop: 78.8  magDrop: 1.684  +/- 0.114  (0.95 ci)

DNR: 5.95

D: 329.00 {+0.20,-0.22} (frame number)
D: [23:36:00.1360]  {+0.0131,-0.0147} seconds

R: 331.00 {+0.22,-0.20} (frame number)
R: [23:36:00.2680]  {+0.0147,-0.0131} seconds

Duration (R - D): 2.0000 {+0.2892,-0.2892} readings
Duration (R - D): 0.1320 {+0.0191,-0.0191} seconds

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

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

B: 8819.94  {+/- 134.66}  sigmaB: 1168.79

A: 1870.46  {+/- 292.94}  sigmaA: 97.65

magDrop report: percentDrop: 78.8  magDrop: 1.684  +/- 0.171  (0.9973 ci)

DNR: 5.95

D: 329.00 {+0.38,-0.41} (frame number)
D: [23:36:00.1360]  {+0.0251,-0.0272} seconds

R: 331.00 {+0.41,-0.38} (frame number)
R: [23:36:00.2680]  {+0.0272,-0.0251} seconds

Duration (R - D): 2.0000 {+0.5002,-0.5002} readings
Duration (R - D): 0.1320 {+0.0330,-0.0330} seconds

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

D frame number: 329.00
D: 0.6800 containment intervals:  {+/- 0.09} (readings)
D: 0.9500 containment intervals:  {+/- 0.22} (readings)
D: 0.9973 containment intervals:  {+/- 0.41} (readings)

R frame number: 331.00
R: 0.6800 containment intervals:  {+/- 0.09} (readings)
R: 0.9500 containment intervals:  {+/- 0.22} (readings)
R: 0.9973 containment intervals:  {+/- 0.41} (readings)

Duration (R - D): 2.0000 readings
Duration: 0.6800 containment intervals:  {+/- 0.1291} (readings)
Duration: 0.9500 containment intervals:  {+/- 0.2892} (readings)
Duration: 0.9973 containment intervals:  {+/- 0.5002} (readings)

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

This light curve has not been block integrated.

This light curve has been normalized against a reference star.
... signal-ref was used for normalization with X offset: 5
... 64 readings were used for smoothing



The observed drop has a probability of 1.3e-05 of being a noise-induced-event

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: 78.8  magDrop: 1.684  +/- 0.114  (0.95 ci)

DNR: 5.95

D time: [23:36:00.1360]
D: 0.6800 containment intervals:  {+/- 0.0058} seconds
D: 0.9500 containment intervals:  {+/- 0.0147} seconds
D: 0.9973 containment intervals:  {+/- 0.0272} seconds

R time: [23:36:00.2680]
R: 0.6800 containment intervals:  {+/- 0.0058} seconds
R: 0.9500 containment intervals:  {+/- 0.0147} seconds
R: 0.9973 containment intervals:  {+/- 0.0272} seconds

Duration (R - D): 0.1320 seconds
Duration: 0.6800 containment intervals:  {+/- 0.0085} seconds
Duration: 0.9500 containment intervals:  {+/- 0.0191} seconds
Duration: 0.9973 containment intervals:  {+/- 0.0330} 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

fit metrics for signal-target

fit metrics === noiseSigmaDistance: 48.0

fit metrics === time error bar: +/- 0.0147 seconds

fit metrics === DNR: 5.95  
fit metrics === B: 8819.94  A: 1870.46 sigmaB: 1168.79  sigmaA: 97.65
fit metrics === magDrop report: percentDrop: 78.8  magDrop: 1.684  +/- 0.114  (0.95 ci)

fit metrics === D frame number: 329.0000

fit metrics === R frame number: 331.0000

fit metrics === duration: 0.1320 seconds

fit metrics === D time: [23:36:00.1360]

fit metrics === R time: [23:36:00.2680]




signal-target is the target curve.

Data trimmed/selected using points: [139, 534]

signal-target is the target curve.

Use min/max event to locate a "D and R" event has been selected

minEvent: 1  maxEvent: 5

Number of candidate solutions: 1566 (using event min/max entries)

New solver results...

Integer (non-subframe) solution...
B:8807.10  A:1850.40
in entryNum units: D: 329  R: 331

noise corr coefs: [1.00, 0.258, 0.146, 0.0648, 0.0764, 0.104, 0.170, 0.110, 0.0625]  (based on 394 points)  sigmaB: 1267.40

noise corr coefs: [1.00, 0.258, 0.146, 0.0648, 0.0764, 0.104, 0.170, 0.110, 0.0625]  (based on 394 points)  sigmaB: 1267.40

Subframe adjusted solution...
B:8807.10  A:1850.40
in entryNum units: D: 329  R: 331  D(subframe): 329.0000  R(subframe): 331.0000

in frameNum units: D: 329  R: 331  D(subframe): 329.0000  R(subframe): 331.0000

... end New solver results

signal-target is the target curve.

Calculating the noise-induced-drop probability - this can take many seconds!  Be patient.

Error bar report based on 50,000 simulations (units are readings)...

loDbar   @ .68 ci:  -0.0887
hiDbar   @ .68 ci:   0.0900
loDbar   @ .95 ci:  -0.2416
hiDbar   @ .95 ci:   0.2149
loDbar   @ .9973 ci:  -0.4163
hiDbar   @ .9973 ci:   0.4185

loDurBar @ .68 ci:  -0.1384
hiDurBar @ .68 ci:   0.1392
loDurBar @ .95 ci:  -0.3131
hiDurBar @ .95 ci:   0.3084
loDurBar @ .9973 ci:  -0.5330
hiDurBar @ .9973 ci:   0.5233

Timestamp validity check ...

From timestamps at D and R, calculated 2 reading blocks.  From reading blocks, calculated 2 blocks.

Timestamps appear valid @ D and R

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

B: 8807.10  {+/- 63.93}  sigmaB: 1267.40

A: 1850.40  {+/- 96.60}  sigmaA: 96.60

magDrop report: percentDrop: 79.0  magDrop: 1.694  +/- 0.057  (0.68 ci)

DNR: 5.49

D: 329.00 {+0.09,-0.09} (frame number)
D: [23:36:00.1360]  {+0.0059,-0.0059} seconds

R: 331.00 {+0.09,-0.09} (frame number)
R: [23:36:00.2680]  {+0.0059,-0.0059} seconds

Duration (R - D): 2.0000 {+0.1388,-0.1388} readings
Duration (R - D): 0.1320 {+0.0092,-0.0092} seconds

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

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

B: 8807.10  {+/- 127.86}  sigmaB: 1267.40

A: 1850.40  {+/- 193.20}  sigmaA: 96.60

magDrop report: percentDrop: 79.0  magDrop: 1.694  +/- 0.114  (0.95 ci)

DNR: 5.49

D: 329.00 {+0.21,-0.24} (frame number)
D: [23:36:00.1360]  {+0.0142,-0.0159} seconds

R: 331.00 {+0.24,-0.21} (frame number)
R: [23:36:00.2680]  {+0.0159,-0.0142} seconds

Duration (R - D): 2.0000 {+0.3107,-0.3107} readings
Duration (R - D): 0.1320 {+0.0205,-0.0205} seconds

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

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

B: 8807.10  {+/- 191.80}  sigmaB: 1267.40

A: 1850.40  {+/- 289.80}  sigmaA: 96.60

magDrop report: percentDrop: 79.0  magDrop: 1.694  +/- 0.172  (0.9973 ci)

DNR: 5.49

D: 329.00 {+0.42,-0.42} (frame number)
D: [23:36:00.1360]  {+0.0276,-0.0275} seconds

R: 331.00 {+0.42,-0.42} (frame number)
R: [23:36:00.2680]  {+0.0275,-0.0276} seconds

Duration (R - D): 2.0000 {+0.5282,-0.5282} readings
Duration (R - D): 0.1320 {+0.0349,-0.0349} seconds

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

D frame number: 329.00
D: 0.6800 containment intervals:  {+/- 0.09} (readings)
D: 0.9500 containment intervals:  {+/- 0.24} (readings)
D: 0.9973 containment intervals:  {+/- 0.42} (readings)

R frame number: 331.00
R: 0.6800 containment intervals:  {+/- 0.09} (readings)
R: 0.9500 containment intervals:  {+/- 0.24} (readings)
R: 0.9973 containment intervals:  {+/- 0.42} (readings)

Duration (R - D): 2.0000 readings
Duration: 0.6800 containment intervals:  {+/- 0.1388} (readings)
Duration: 0.9500 containment intervals:  {+/- 0.3107} (readings)
Duration: 0.9973 containment intervals:  {+/- 0.5282} (readings)

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

This light curve has not been block integrated.

This light curve has been normalized against a reference star.
... signal-ref was used for normalization with X offset: 5
... 64 readings were used for smoothing

This light curve has been trimmed.


The observed drop has a probability of 1.7e-04 of being a noise-induced-event

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: 79.0  magDrop: 1.694  +/- 0.114  (0.95 ci)

DNR: 5.49

D time: [23:36:00.1360]
D: 0.6800 containment intervals:  {+/- 0.0059} seconds
D: 0.9500 containment intervals:  {+/- 0.0159} seconds
D: 0.9973 containment intervals:  {+/- 0.0276} seconds

R time: [23:36:00.2680]
R: 0.6800 containment intervals:  {+/- 0.0059} seconds
R: 0.9500 containment intervals:  {+/- 0.0159} seconds
R: 0.9973 containment intervals:  {+/- 0.0276} seconds

Duration (R - D): 0.1320 seconds
Duration: 0.6800 containment intervals:  {+/- 0.0092} seconds
Duration: 0.9500 containment intervals:  {+/- 0.0205} seconds
Duration: 0.9973 containment intervals:  {+/- 0.0349} 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

fit metrics for signal-target

fit metrics === noiseSigmaDistance: 41.4

fit metrics === time error bar: +/- 0.0159 seconds

fit metrics === DNR: 5.49  
fit metrics === B: 8807.10  A: 1850.40 sigmaB: 1267.40  sigmaA: 96.60
fit metrics === magDrop report: percentDrop: 79.0  magDrop: 1.694  +/- 0.114  (0.95 ci)

fit metrics === D frame number: 329.0000

fit metrics === R frame number: 331.0000

fit metrics === duration: 0.1320 seconds

fit metrics === D time: [23:36:00.1360]

fit metrics === R time: [23:36:00.2680]




signal-target is the target curve.

signal-target is the target curve.

D zone selected: [317, 322]

R zone selected: [324, 326]

Locate a "D and R" event has been selected

Number of candidate solutions: 18 (using D/R region selections)

New solver results...

Integer (non-subframe) solution...
B:8807.10  A:1850.40
in entryNum units: D: 329  R: 331

noise corr coefs: [1.00, 0.258, 0.146, 0.0648, 0.0764, 0.104, 0.170, 0.110, 0.0625]  (based on 394 points)  sigmaB: 1267.40

noise corr coefs: [1.00, 0.258, 0.146, 0.0648, 0.0764, 0.104, 0.170, 0.110, 0.0625]  (based on 394 points)  sigmaB: 1267.40

Subframe adjusted solution...
B:8807.10  A:1850.40
in entryNum units: D: 329  R: 331  D(subframe): 329.0000  R(subframe): 331.0000

in frameNum units: D: 329  R: 331  D(subframe): 329.0000  R(subframe): 331.0000

... end New solver results

signal-target is the target curve.

Calculating the noise-induced-drop probability - this can take many seconds!  Be patient.

Error bar report based on 50,000 simulations (units are readings)...

loDbar   @ .68 ci:  -0.0857
hiDbar   @ .68 ci:   0.0929
loDbar   @ .95 ci:  -0.2350
hiDbar   @ .95 ci:   0.2144
loDbar   @ .9973 ci:  -0.4409
hiDbar   @ .9973 ci:   0.4074

loDurBar @ .68 ci:  -0.1428
hiDurBar @ .68 ci:   0.1319
loDurBar @ .95 ci:  -0.3191
hiDurBar @ .95 ci:   0.3043
loDurBar @ .9973 ci:  -0.5281
hiDurBar @ .9973 ci:   0.5639

Timestamp validity check ...

From timestamps at D and R, calculated 2 reading blocks.  From reading blocks, calculated 2 blocks.

Timestamps appear valid @ D and R

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

B: 8807.10  {+/- 63.93}  sigmaB: 1267.40

A: 1850.40  {+/- 96.60}  sigmaA: 96.60

magDrop report: percentDrop: 79.0  magDrop: 1.694  +/- 0.057  (0.68 ci)

DNR: 5.49

D: 329.00 {+0.09,-0.09} (frame number)
D: [23:36:00.1360]  {+0.0061,-0.0057} seconds

R: 331.00 {+0.09,-0.09} (frame number)
R: [23:36:00.2680]  {+0.0057,-0.0061} seconds

Duration (R - D): 2.0000 {+0.1374,-0.1374} readings
Duration (R - D): 0.1320 {+0.0091,-0.0091} seconds

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

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

B: 8807.10  {+/- 127.86}  sigmaB: 1267.40

A: 1850.40  {+/- 193.20}  sigmaA: 96.60

magDrop report: percentDrop: 79.0  magDrop: 1.694  +/- 0.114  (0.95 ci)

DNR: 5.49

D: 329.00 {+0.21,-0.24} (frame number)
D: [23:36:00.1360]  {+0.0141,-0.0155} seconds

R: 331.00 {+0.24,-0.21} (frame number)
R: [23:36:00.2680]  {+0.0155,-0.0141} seconds

Duration (R - D): 2.0000 {+0.3117,-0.3117} readings
Duration (R - D): 0.1320 {+0.0206,-0.0206} seconds

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

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

B: 8807.10  {+/- 191.80}  sigmaB: 1267.40

A: 1850.40  {+/- 289.80}  sigmaA: 96.60

magDrop report: percentDrop: 79.0  magDrop: 1.694  +/- 0.172  (0.9973 ci)

DNR: 5.49

D: 329.00 {+0.41,-0.44} (frame number)
D: [23:36:00.1360]  {+0.0269,-0.0291} seconds

R: 331.00 {+0.44,-0.41} (frame number)
R: [23:36:00.2680]  {+0.0291,-0.0269} seconds

Duration (R - D): 2.0000 {+0.5460,-0.5460} readings
Duration (R - D): 0.1320 {+0.0360,-0.0360} seconds

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

D frame number: 329.00
D: 0.6800 containment intervals:  {+/- 0.09} (readings)
D: 0.9500 containment intervals:  {+/- 0.24} (readings)
D: 0.9973 containment intervals:  {+/- 0.44} (readings)

R frame number: 331.00
R: 0.6800 containment intervals:  {+/- 0.09} (readings)
R: 0.9500 containment intervals:  {+/- 0.24} (readings)
R: 0.9973 containment intervals:  {+/- 0.44} (readings)

Duration (R - D): 2.0000 readings
Duration: 0.6800 containment intervals:  {+/- 0.1374} (readings)
Duration: 0.9500 containment intervals:  {+/- 0.3117} (readings)
Duration: 0.9973 containment intervals:  {+/- 0.5460} (readings)

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

This light curve has not been block integrated.

This light curve has been normalized against a reference star.
... signal-ref was used for normalization with X offset: 5
... 64 readings were used for smoothing

This light curve has been trimmed.


The observed drop has a probability of 7.5e-05 of being a noise-induced-event

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: 79.0  magDrop: 1.694  +/- 0.114  (0.95 ci)

DNR: 5.49

D time: [23:36:00.1360]
D: 0.6800 containment intervals:  {+/- 0.0061} seconds
D: 0.9500 containment intervals:  {+/- 0.0155} seconds
D: 0.9973 containment intervals:  {+/- 0.0291} seconds

R time: [23:36:00.2680]
R: 0.6800 containment intervals:  {+/- 0.0061} seconds
R: 0.9500 containment intervals:  {+/- 0.0155} seconds
R: 0.9973 containment intervals:  {+/- 0.0291} seconds

Duration (R - D): 0.1320 seconds
Duration: 0.6800 containment intervals:  {+/- 0.0091} seconds
Duration: 0.9500 containment intervals:  {+/- 0.0206} seconds
Duration: 0.9973 containment intervals:  {+/- 0.0360} 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

fit metrics for signal-target

fit metrics === noiseSigmaDistance: 40.7

fit metrics === time error bar: +/- 0.0155 seconds

fit metrics === DNR: 5.49  
fit metrics === B: 8807.10  A: 1850.40 sigmaB: 1267.40  sigmaA: 96.60
fit metrics === magDrop report: percentDrop: 79.0  magDrop: 1.694  +/- 0.114  (0.95 ci)

fit metrics === D frame number: 329.0000

fit metrics === R frame number: 331.0000

fit metrics === duration: 0.1320 seconds

fit metrics === D time: [23:36:00.1360]

fit metrics === R time: [23:36:00.2680]




signal-target is the target curve.

Background region selected: [345, 526]

Background region selected: [147, 319]

signal-target is the light curve undergoing "selected points" noise analysis.
...This noise analysis uses 355 points

noise corr coefs: [1.00, 0.205, 0.182, 0.158, 0.131, 0.133, 0.190, 0.0963]  (based on 355 points)  sigmaB: 1054.29

statistics of selected points:
...mean(selected points): 8793.09
...std(selected points) : 1190.114
...std(detrended points): 1054.290  (Warning: this sets sigmaB for the remainder of this session)
...baseline snr: 8.34  (using detrended std)



#################### Session ended: Sun Nov 23 12:43:14 2025  ####################

