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| '''Data:''' Approach, Preliminary Survey, and Detailed Survey PolyCam and MapCam Images | '''Data:''' Approach, Preliminary Survey, and Detailed Survey PolyCam and MapCam Images: * All NOMINALS and SUMFILES are perturbed as per F1A - Baseline. * All perturbations are random, no systematic perturbation are included (i.e. there is no simulation of spacecraft position or pointing drift). * Detailed Survey Images: * Equatorial Stations MapCam images at approx. 30cm and 20cm pixel resolution. * Baseball Diamond Nadir (10am and 2pm stations) PolyCam images at approx. 5cm pixel resolution. * Baseball Diamond Off-Nadir (10am station looking at 12pm, and 2pm station looking at 12pm) PolyCam images at approx. 5cm pixel resolution. |
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| * Extended TAG Site 1 (50x50m) at 10cm, centered at -8.027, 262.768 (lat, wlong). * Extended TAG Site 1 (50x50m) at 5cm, centered at -8.027, 262.768 (lat, wlong). |
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| * Run with 3x, 2x, 1.5x, 1x, 0.75x, 0.5x, 0.25x the expected error. | * Run with 3x, 2x, 1.5x, 1x, 0.75x, 0.5x, 0.25x the baseline perturbation. * Only Detailed Survey PolyCam perturbations altered. |
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| Summary: * Create a large BIGMAP at a resolution of 20cm with a width of 50m. Register all images to this larger TAG site. Once this is done, we run GEOMETRY, option 2 to update the position of the spacecraft. |
Summary: <<BR>> Ingest Images: * Ingest and register the Detailed Survey MapCam and PolyCam images. * Autoregister the MapCam images to the 150cm, 75cm, and 35cm maplets in a 100m x 100m region centered on TAG site 1. * Iterate maplets contained in a 100m x 100m region centered on TAG site 1. * Clean until tiled and correlated states achieved. 20cm Tiling: * Create a large BIGMAP at a resolution of 20cm with a width of 50m. * Iterate maplets contained in a 100m x 100m region centered on TAG site 1. * Clean until tiled and correlated states achieved. 10cm Tiling: * Create a large BIGMAP at a resolution of 10cm with a width of 50m. * Iterate maplets contained in a 100m x 100m region centered on TAG site 1. * Clean until tiled and correlated states achieved. * Run GEOMETRY, option 2 to update the position of the spacecraft. * Iterate maplets contained in a 100m x 100m region centered on TAG site 1. * Clean until tiled and correlated states achieved. 5cm Tiling: * Create a large BIGMAP at a resolution of 5cm with a width of 50m. * Iterate maplets contained in a 100m x 100m region centered on TAG site 1. * Clean until tiled and correlated states achieved. * Achieve imaged state. * Achieve fitted state. * Run GEOMETRY, option 2 to update the position of the spacecraft. * Achieve residualed state. * Achieve re-tiled state. * Achieve sigma'ed state. |
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| * Evaluate the accuracy a 20mx20m region centered on TAG Site 1. | * Evaluate the accuracy of a 20mx20m region centered on TAG Site 1. |
Test F3G - Navigation Error
Goal: Identify a limit to how large the navigation error can be and still get a good solution. Also, see if small errors converge to the same state (i.e. that within certain boundaries, error is fully removed)
Test Set Up
Data: Approach, Preliminary Survey, and Detailed Survey PolyCam and MapCam Images:
- All NOMINALS and SUMFILES are perturbed as per F1A - Baseline.
- All perturbations are random, no systematic perturbation are included (i.e. there is no simulation of spacecraft position or pointing drift).
- Detailed Survey Images:
Equatorial Stations MapCam images at approx. 30cm and 20cm pixel resolution.
Baseball Diamond Nadir (10am and 2pm stations) PolyCam images at approx. 5cm pixel resolution.
Baseball Diamond Off-Nadir (10am station looking at 12pm, and 2pm station looking at 12pm) PolyCam images at approx. 5cm pixel resolution.
Start: 35cm Preliminary Shape Model and 150cm, 75cm, and 35cm global maplets
Build:
- Extended TAG Site 1 (50x50m) at 20cm, centered at -8.027, 262.768 (lat, wlong).
- Extended TAG Site 1 (50x50m) at 10cm, centered at -8.027, 262.768 (lat, wlong).
- Extended TAG Site 1 (50x50m) at 5cm, centered at -8.027, 262.768 (lat, wlong).
- Evaluate 20mx20m region centered on TAG Site 1, images TBD which are fully contained in the TAG site and fully cover a single 5cm maplet near the center of the TAG site.
Sub-Test F3G-1 to F3G- 7
- Run with 3x, 2x, 1.5x, 1x, 0.75x, 0.5x, 0.25x the baseline perturbation.
Only Detailed Survey PolyCam perturbations altered.
Test Procedures
Summary:
Ingest Images:
Ingest and register the Detailed Survey MapCam and PolyCam images.
Autoregister the MapCam images to the 150cm, 75cm, and 35cm maplets in a 100m x 100m region centered on TAG site 1.
- Iterate maplets contained in a 100m x 100m region centered on TAG site 1.
- Clean until tiled and correlated states achieved.
20cm Tiling:
- Create a large BIGMAP at a resolution of 20cm with a width of 50m.
- Iterate maplets contained in a 100m x 100m region centered on TAG site 1.
- Clean until tiled and correlated states achieved.
10cm Tiling:
- Create a large BIGMAP at a resolution of 10cm with a width of 50m.
- Iterate maplets contained in a 100m x 100m region centered on TAG site 1.
- Clean until tiled and correlated states achieved.
- Run GEOMETRY, option 2 to update the position of the spacecraft.
- Iterate maplets contained in a 100m x 100m region centered on TAG site 1.
- Clean until tiled and correlated states achieved.
5cm Tiling:
- Create a large BIGMAP at a resolution of 5cm with a width of 50m.
- Iterate maplets contained in a 100m x 100m region centered on TAG site 1.
- Clean until tiled and correlated states achieved.
- Achieve imaged state.
- Achieve fitted state.
- Run GEOMETRY, option 2 to update the position of the spacecraft.
- Achieve residualed state.
- Achieve re-tiled state.
- Achieve sigma'ed state.
Full details contained here: Test F3G-Navigation Error - Test Procedure.
Evaluate:
- Change in Spacecraft Position/Pointing - evaluate the observed-actual spacecraft position and pointing;
- Evaluate the accuracy of a 20mx20m region centered on TAG Site 1.