#################### PYOTE 3.7.4 session started: Tue Jul 6 17:32:14 2021 #################### filename: C:\Users\aschw\Desktop\roudebush\pymovie_lc.csv Secondary reference 2 selected. PyMovie aperture name: ref ==================== file header lines ==================== # PyMovie Version 2.9.7 # source: C:/Users/aschw/Desktop/DvtiData/20210705_235119_960x600_G24dB_0100ms.adv # # lunar background: False # yellow mask = default: False # # aperture name: target # ____ x,y: (478, 297) # ____ frame: 554 # ____ threshold: 104 # ____ def mask radius: 3.2 # ____ color: red # ____ joggable: False # ____ auto textOut: False # ____ thumbnail source: False # ____ csv output order: 2 # # aperture name: ref # ____ x,y: (445, 303) # ____ frame: 554 # ____ threshold: 104 # ____ def mask radius: 3.2 # ____ color: yellow # ____ joggable: True # ____ auto textOut: True # ____ thumbnail source: True # ____ csv output order: 3 # # date at frame 0: 2021-07-05 ==================== end header lines ==================== timeDelta: 0.100245 seconds per reading timestamp error rate: 0.00% Secondary reference 2 selected. PyMovie aperture name: ref Secondary reference 2 selected. PyMovie aperture name: ref #################### PYOTE 3.7.4 session started: Tue Jul 6 17:32:46 2021 #################### filename: C:/Users/aschw/Desktop/roudebush/pymovie_lc.csv Analyze light curve 2 selected. PyMovie aperture name: ref Secondary reference 1 selected. PyMovie aperture name: target Secondary reference 2 selected. PyMovie aperture name: ref Analyze light curve 1 selected. PyMovie aperture name: target ==================== file header lines ==================== # PyMovie Version 2.9.7 # source: C:/Users/aschw/Desktop/DvtiData/20210705_235119_960x600_G24dB_0100ms.adv # # lunar background: False # yellow mask = default: False # # aperture name: target # ____ x,y: (478, 297) # ____ frame: 554 # ____ threshold: 104 # ____ def mask radius: 3.2 # ____ color: red # ____ joggable: False # ____ auto textOut: False # ____ thumbnail source: False # ____ csv output order: 2 # # aperture name: ref # ____ x,y: (445, 303) # ____ frame: 554 # ____ threshold: 104 # ____ def mask radius: 3.2 # ____ color: yellow # ____ joggable: True # ____ auto textOut: True # ____ thumbnail source: True # ____ csv output order: 3 # # date at frame 0: 2021-07-05 ==================== end header lines ==================== timeDelta: 0.100245 seconds per reading timestamp error rate: 0.00% #################### PYOTE 3.7.4 session started: Tue Jul 6 17:33:10 2021 #################### filename: C:/Users/aschw/Desktop/roudebush/pymovie_lc.csv Analyze light curve 2 selected. PyMovie aperture name: ref Secondary reference 1 selected. PyMovie aperture name: target Secondary reference 2 selected. PyMovie aperture name: ref Analyze light curve 1 selected. PyMovie aperture name: target ==================== file header lines ==================== # PyMovie Version 2.9.7 # source: C:/Users/aschw/Desktop/DvtiData/20210705_235119_960x600_G24dB_0100ms.adv # # lunar background: False # yellow mask = default: False # # aperture name: target # ____ x,y: (478, 297) # ____ frame: 554 # ____ threshold: 104 # ____ def mask radius: 3.2 # ____ color: red # ____ joggable: False # ____ auto textOut: False # ____ thumbnail source: False # ____ csv output order: 2 # # aperture name: ref # ____ x,y: (445, 303) # ____ frame: 554 # ____ threshold: 104 # ____ def mask radius: 3.2 # ____ color: yellow # ____ joggable: True # ____ auto textOut: True # ____ thumbnail source: True # ____ csv output order: 3 # # date at frame 0: 2021-07-05 ==================== end header lines ==================== timeDelta: 0.100245 seconds per reading timestamp error rate: 0.00% D zone selected: [275, 284] R zone selected: [286, 293] Locate a "D and R" event triggered minEvent: maxEvent: Number of candidate solutions: 80 (using D/R region selections) New solver results... Integer (non-subframe) solution... sigB:597.09 sigA:150.61 B:2363.78 A:119.80 in entryNum units: D: 281 R: 287 noise corr coefs: [1.00] (based on 548 points) sigmaB: 595.8 Subframe adjusted solution... sigB:595.82 sigA:595.82 B:2363.14 A:113.50 in entryNum units: D: 282 R: 287 D(subframe): 282.0000 R(subframe): 287.0000 in frameNum units: D: 282 R: 287 D(subframe): 282.0000 R(subframe): 287.0000 ... end New solver results Error bar report based on 100,000 simulations (units are readings)... loDbar @ .68 ci: -0.3095 hiDbar @ .68 ci: 0.3122 loDbar @ .95 ci: -0.7978 hiDbar @ .95 ci: 0.8035 loDbar @ .9973 ci: -1.8629 hiDbar @ .9973 ci: 1.8800 loDurBar @ .68 ci: -0.4815 hiDurBar @ .68 ci: 0.4787 loDurBar @ .95 ci: -1.1211 hiDurBar @ .95 ci: 1.1102 loDurBar @ .9973 ci: -2.4022 hiDurBar @ .9973 ci: 2.2613 Timestamp validity check ... From timestamps at D and R, calculated 5 reading blocks. From reading blocks, calculated 5 blocks. Timestamps appear valid @ D and R ================= 0.68 confidence interval report ================= B: 2363.14 {+/- 25.43} A: 113.50 {+/- 297.91} minimum magDrop: 1.89 nominal magDrop: > 2.25 maximum magDrop: > 2.26 snr: 3.78 D: 282.00 {+0.31,-0.31} (frame number) D: [23:51:48.0900] {+0.0312,-0.0312} seconds R: 287.00 {+0.31,-0.31} (frame number) R: [23:51:48.5920] {+0.0312,-0.0312} seconds Duration (R - D): 5.0000 {+0.4801,-0.4801} readings Duration (R - D): 0.5020 {+0.0481,-0.0481} seconds =============== end 0.68 confidence interval report =============== ================= 0.95 confidence interval report ================= B: 2363.14 {+/- 50.86} A: 113.50 {+/- 595.82} minimum magDrop: 1.28 nominal magDrop: > 2.25 maximum magDrop: > 2.27 snr: 3.78 D: 282.00 {+0.80,-0.80} (frame number) D: [23:51:48.0900] {+0.0803,-0.0803} seconds R: 287.00 {+0.80,-0.80} (frame number) R: [23:51:48.5920] {+0.0803,-0.0803} seconds Duration (R - D): 5.0000 {+1.1157,-1.1157} readings Duration (R - D): 0.5020 {+0.1118,-0.1118} seconds =============== end 0.95 confidence interval report =============== ================= 0.9973 confidence interval report =============== B: 2363.14 {+/- 76.29} A: 113.50 {+/- 893.72} minimum magDrop: 0.89 nominal magDrop: > 2.25 maximum magDrop: > 2.28 snr: 3.78 D: 282.00 {+1.87,-1.87} (frame number) D: [23:51:48.0900] {+0.1876,-0.1876} seconds R: 287.00 {+1.87,-1.87} (frame number) R: [23:51:48.5920] {+0.1876,-0.1876} seconds Duration (R - D): 5.0000 {+2.3317,-2.3317} readings Duration (R - D): 0.5020 {+0.2337,-0.2337} seconds =============== end 0.9973 confidence interval report ============= D frame number: 282.00 D: 0.6800 confidence intervals: {+/- 0.31} (readings) D: 0.9500 confidence intervals: {+/- 0.80} (readings) D: 0.9973 confidence intervals: {+/- 1.88} (readings) R frame number: 287.00 R: 0.6800 confidence intervals: {+/- 0.31} (readings) R: 0.9500 confidence intervals: {+/- 0.80} (readings) R: 0.9973 confidence intervals: {+/- 1.88} (readings) Duration (R - D): 5.0000 readings Duration: 0.6800 confidence intervals: {+/- 0.4801} (readings) Duration: 0.9500 confidence intervals: {+/- 1.1157} (readings) Duration: 0.9973 confidence intervals: {+/- 2.3317} (readings) =============== Summary report for Excel file ===================== This light curve has not been block integrated. The following lightcurve parameters were utilized: ==== use diff: is checked ==== exp: 0.100245 This 'drop' has a 0.0000 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 timestamps are treated as being start-of-exposure times. 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. nominal magDrop: > 2.25 snr: 3.78 D time: [23:51:48.0900] D: 0.6800 confidence intervals: {+/- 0.0313} seconds D: 0.9500 confidence intervals: {+/- 0.0806} seconds D: 0.9973 confidence intervals: {+/- 0.1885} seconds R time: [23:51:48.5920] R: 0.6800 confidence intervals: {+/- 0.0313} seconds R: 0.9500 confidence intervals: {+/- 0.0806} seconds R: 0.9973 confidence intervals: {+/- 0.1885} seconds Duration (R - D): 0.5020 seconds Duration: 0.6800 confidence intervals: {+/- 0.0481} seconds Duration: 0.9500 confidence intervals: {+/- 0.1118} seconds Duration: 0.9973 confidence intervals: {+/- 0.2337} seconds Enter D and R error bars for each confidence 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 confidence interval error bars Error bar report based on 100,000 simulations (units are readings)... loDbar @ .68 ci: -0.3098 hiDbar @ .68 ci: 0.3098 loDbar @ .95 ci: -0.7889 hiDbar @ .95 ci: 0.8003 loDbar @ .9973 ci: -1.9376 hiDbar @ .9973 ci: 1.9172 loDurBar @ .68 ci: -0.4764 hiDurBar @ .68 ci: 0.4765 loDurBar @ .95 ci: -1.0989 hiDurBar @ .95 ci: 1.0903 loDurBar @ .9973 ci: -2.3672 hiDurBar @ .9973 ci: 2.4025 Timestamp validity check ... From timestamps at D and R, calculated 5 reading blocks. From reading blocks, calculated 5 blocks. Timestamps appear valid @ D and R ================= 0.68 confidence interval report ================= B: 2363.14 {+/- 25.43} A: 113.50 {+/- 297.91} minimum magDrop: 1.89 nominal magDrop: > 2.25 maximum magDrop: > 2.26 snr: 3.78 D: 282.00 {+0.31,-0.31} (frame number) D: [23:51:48.0900] {+0.0311,-0.0311} seconds R: 287.00 {+0.31,-0.31} (frame number) R: [23:51:48.5920] {+0.0311,-0.0311} seconds Duration (R - D): 5.0000 {+0.4765,-0.4765} readings Duration (R - D): 0.5020 {+0.0478,-0.0478} seconds =============== end 0.68 confidence interval report =============== ================= 0.95 confidence interval report ================= B: 2363.14 {+/- 50.86} A: 113.50 {+/- 595.82} minimum magDrop: 1.28 nominal magDrop: > 2.25 maximum magDrop: > 2.27 snr: 3.78 D: 282.00 {+0.79,-0.79} (frame number) D: [23:51:48.0900] {+0.0797,-0.0797} seconds R: 287.00 {+0.79,-0.79} (frame number) R: [23:51:48.5920] {+0.0797,-0.0797} seconds Duration (R - D): 5.0000 {+1.0946,-1.0946} readings Duration (R - D): 0.5020 {+0.1097,-0.1097} seconds =============== end 0.95 confidence interval report =============== ================= 0.9973 confidence interval report =============== B: 2363.14 {+/- 76.29} A: 113.50 {+/- 893.72} minimum magDrop: 0.89 nominal magDrop: > 2.25 maximum magDrop: > 2.28 snr: 3.78 D: 282.00 {+1.93,-1.93} (frame number) D: [23:51:48.0900] {+0.1932,-0.1932} seconds R: 287.00 {+1.93,-1.93} (frame number) R: [23:51:48.5920] {+0.1932,-0.1932} seconds Duration (R - D): 5.0000 {+2.3849,-2.3849} readings Duration (R - D): 0.5020 {+0.2391,-0.2391} seconds =============== end 0.9973 confidence interval report ============= D frame number: 282.00 D: 0.6800 confidence intervals: {+/- 0.31} (readings) D: 0.9500 confidence intervals: {+/- 0.80} (readings) D: 0.9973 confidence intervals: {+/- 1.94} (readings) R frame number: 287.00 R: 0.6800 confidence intervals: {+/- 0.31} (readings) R: 0.9500 confidence intervals: {+/- 0.80} (readings) R: 0.9973 confidence intervals: {+/- 1.94} (readings) Duration (R - D): 5.0000 readings Duration: 0.6800 confidence intervals: {+/- 0.4765} (readings) Duration: 0.9500 confidence intervals: {+/- 1.0946} (readings) Duration: 0.9973 confidence intervals: {+/- 2.3849} (readings) =============== Summary report for Excel file ===================== This light curve has not been block integrated. The following lightcurve parameters were utilized: ==== use diff: is checked ==== exp: 0.100245 This 'drop' has a 0.0000 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 timestamps are treated as being start-of-exposure times. 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. nominal magDrop: > 2.25 snr: 3.78 D time: [23:51:48.0900] D: 0.6800 confidence intervals: {+/- 0.0311} seconds D: 0.9500 confidence intervals: {+/- 0.0803} seconds D: 0.9973 confidence intervals: {+/- 0.1942} seconds R time: [23:51:48.5920] R: 0.6800 confidence intervals: {+/- 0.0311} seconds R: 0.9500 confidence intervals: {+/- 0.0803} seconds R: 0.9973 confidence intervals: {+/- 0.1942} seconds Duration (R - D): 0.5020 seconds Duration: 0.6800 confidence intervals: {+/- 0.0478} seconds Duration: 0.9500 confidence intervals: {+/- 0.1097} seconds Duration: 0.9973 confidence intervals: {+/- 0.2391} seconds Enter D and R error bars for each confidence 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 confidence interval error bars #################### Session ended: Tue Jul 6 17:42:29 2021 ####################