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| Deletions are marked like this. | Additions are marked like this. |
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| This text file is created by [[residuals]] to report on bad landmarks. | This text file is created by [[residuals]] to report on bad landmarks. |
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| Here is a sample '''RESIDUALS.TXT''' file. Elements of the data in each of the three sections are explained below. | Here is a sample '''RESIDUALS.TXT''' file. Elements of the data in each of the four sections are explained below. |
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| IA1_01 T 0.0200 56.5481 140.8124 13.6146 | IA1_01 T 0.0200 56.5481 140.8124 13.6146 <- Section 1 |
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| A1_01 8.139 -6.853 10.640 0.01091 | A1_01 8.139 -6.853 10.640 0.01091 <- Section 2 |
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| IA1_01 42.78 | IA1_01 42.78 <- Section 3 |
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| Observation # = 360180 | Observation # = 360180 <- Section 4 |
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| * In between the dot rows: * The name of a landmark * T (landmark has a map with it) or F (flat landmark, no image) * Resolution * Lat of landmark * Wlon of landmark * Radius * Below the dot rows with the landmark name above them: |
Row between the dot rows includes: * '''col 1''' - The name of a landmark * '''col 2''' - T = landmark has a map with it; F = flat landmark, no image * '''col 3''' - Resolution * '''col 4''' - Lat of landmark * '''col 5''' - Wlon of landmark * '''col 6''' - Radius == Section 2 == Rows below the second dot row with the landmark name above include: |
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| * 1st column - picture name * 2nd column - PX residual (# of pixels in image resolution) * 3rd column - LN residual (# of pixels in image resolution) * 4th column - magnitude of PX and LN residuals (# of pixels in image resolution) * 5th column - the estimate linear residual (km) |
* '''col 1''' - picture name * '''col 2''' - PX residual (# of pixels in image resolution) * '''col 3''' - LN residual (# of pixels in image resolution) * '''col 4''' - magnitude of PX and LN residuals (# of pixels in image resolution) * '''col 5''' - the estimate linear residual (km) |
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| * 1st column - overlap name * 2nd column - X residual (km) * 3rd column - Y residual (km) * 4rd column - Z residual (km) * 5th column - estimate linear residual (km) |
* '''col 1''' - overlap name * '''col 2''' - X residual (km) * '''col 3''' - Y residual (km) * '''col 4''' - Z residual (km) * '''col 5''' - estimate linear residual (km) |
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| * 1st column - picture name * 2nd column - PX residual (# of pixels in image resolution) * 3rd column - LN residual (# of pixels in image resolution) * 4th column - magnitude of PX and LN residuals (# of pixels in image resolution) * 5th column - the estimate linear residual (km) * Below the images, overlaps, and limbs list for a landmark: * Landmark name * magnitude of RMS linear residual for landmark * Below the single dot row at the very bottom of the image: |
* '''col 1''' - picture name * '''col 2''' - PX residual (# of pixels in image resolution) * '''col 3''' - LN residual (# of pixels in image resolution) * '''col 4''' - magnitude of PX and LN residuals (# of pixels in image resolution) * '''col 5''' - the estimate linear residual (km) == Section 3 == Row below the images, overlaps, and limbs list for a landmark includes: * '''col 1' - landmark name * '''col 2' - magnitude of RMS linear residual for landmark == Section 4 == Rows below the single dot row at the very bottom for each image includes: |
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| The user should note that residuals are the difference between observed landmark positions and those predicted by the solution (SPC). | Residuals are the difference between observed landmark positions and those predicted by the solution (SPC). |
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| Observed landmark positions are exactly as the name suggests, positions of a landmark calculated by the code when it inputs pictures from the spacecraft of the object. | Observed landmark positions are positions of a landmark calculated by the code when it inputs pictures from the spacecraft of the object. |
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| Predicted landmark positions are those calculated by SPC when it inputs it generates a solution (map) from all the pictures collected. | Predicted landmark positions are those calculated by SPC. When it inputs, it generates a solution (map) from all the pictures collected. |
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| During iteration and refinement of the SPC solution, the position and attitude of the spacecraft are slightly changed over and over until the the maps match the images as best they can. At then end of each iteration SUMFILES are then updated for the new attitude and position. | During iteration and refinement of the SPC solution, the position and attitude of the spacecraft are slightly changed over and over until the maps match the images as best they can. At the end of each iteration, [[SUMFILES]] are then updated for the new attitude and position. |
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| Thus, when the RMS between landmark residuals is as low as possible the maps match the images well, which means the updated SUMFILE is the new estimate for space craft position and attitude. | When the RMS between landmark residuals is as low as possible, the maps match the images well. This means that the updated [[SUMFILE]] is the new estimate for spacecraft position and attitude. |
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| CategoryFiles | CategoryFiles CategoryOutputFiles |
RESIDUALS.TXT
Description
This text file is created by residuals to report on bad landmarks.
RESIDUALS.TXT captures and reports three types of information:
- The post-fit residuals between predicted and actual control point positions in all images.
- The post-fit residuals between predicted and actual control point difference between adjacent, overlapping maplets.
- Outliers in both quantities are flagged automatically based on input threshold criteria.
Here is a sample RESIDUALS.TXT file. Elements of the data in each of the four sections are explained below.
..................................................
IA1_01 T 0.0200 56.5481 140.8124 13.6146 <- Section 1
..................................................
A1_01 8.139 -6.853 10.640 0.01091 <- Section 2
A2_05 -28.427 49.215 56.835 0.04250
B1_01 -3.517 52.347 52.465 0.04857
B1_03 -18.475 -57.091 60.006 0.05509
IA1_01 42.78 <- Section 3
..................................................
IA1_03 T 0.0200 36.4771 136.8269 11.4593
..................................................
A1_03 -29.498 -12.161 31.906 0.04002
A2_03 -71.840 23.961 75.731 0.07142
A2_04 -3.885 -4.689 6.089 0.00643
A2_05 -34.754 95.249 101.392 0.10527
B1_01 64.895 -21.470 68.354 0.07337
B1_03 11.000 59.329 60.340 0.06832
B2_04 97.637 29.005 101.855 0.11002
B2_05 42.109 41.562 59.165 0.07455
IA1_03 75.45
.........
Observation # = 360180 <- Section 4
RMS Residual (m) = 0.78928860594347106
Section 1
Row between the dot rows includes:
col 1 - The name of a landmark
col 2 - T = landmark has a map with it; F = flat landmark, no image
col 3 - Resolution
col 4 - Lat of landmark
col 5 - Wlon of landmark
col 6 - Radius
Section 2
Rows below the second dot row with the landmark name above include:
- For each image:
col 1 - picture name
col 2 - PX residual (# of pixels in image resolution)
col 3 - LN residual (# of pixels in image resolution)
col 4 - magnitude of PX and LN residuals (# of pixels in image resolution)
col 5 - the estimate linear residual (km)
- For each overlap:
col 1 - overlap name
col 2 - X residual (km)
col 3 - Y residual (km)
col 4 - Z residual (km)
col 5 - estimate linear residual (km)
- For each limb apperation:
col 1 - picture name
col 2 - PX residual (# of pixels in image resolution)
col 3 - LN residual (# of pixels in image resolution)
col 4 - magnitude of PX and LN residuals (# of pixels in image resolution)
col 5 - the estimate linear residual (km)
Section 3
Row below the images, overlaps, and limbs list for a landmark includes:
col 1' - landmark name
col 2' - magnitude of RMS linear residual for landmark
Section 4
Rows below the single dot row at the very bottom for each image includes:
- Observations - how many IMAGEFILES, overlaps, and limbs for all landmarks
- RMS RESIDUAL - overall RMS linear residual in meters.
Residuals are the difference between observed landmark positions and those predicted by the solution (SPC).
Observed landmark positions are positions of a landmark calculated by the code when it inputs pictures from the spacecraft of the object.
Predicted landmark positions are those calculated by SPC. When it inputs, it generates a solution (map) from all the pictures collected.
During iteration and refinement of the SPC solution, the position and attitude of the spacecraft are slightly changed over and over until the maps match the images as best they can. At the end of each iteration, SUMFILES are then updated for the new attitude and position.
When the RMS between landmark residuals is as low as possible, the maps match the images well. This means that the updated SUMFILE is the new estimate for spacecraft position and attitude.
(Compiled by KD)