M16 - Eagle Nebula - V1.5.363
Posted: Thu Aug 22, 2019 9:36 pm
I just finished processing The Eagle Nebula using the latest "test" version of StarTools. It was my first time using V1.5 and I think the processing flow, using "mostly" the defaults, worked just fine. I was hoping if someone could help me improve my StarTools post-processing skills by taking their own try at it. I am having trouble controlling "Color Fringing" on my white stars.
I will provide a Dropbox link to the Eagle Nebula.fit which was stacked/created in PixInsight. No post-processing was performed in PixInsight.
Exposure:
Total Lights(OSC): 120 minutes
40 x 180 seconds
101 Flats
101 Dark Flats
101 x 180 seconds Darks
Hardware:
ZWO ASI1600-MC Pro (Gain:75 Offset:12)
Celestron Edge HD 800
Software:
PixInsight (Stacking)
PHD2 Guiding
StarTools
Here is the dropbox link to the fit file:
https://www.dropbox.com/s/nv75qvf4vs8mp ... a.fit?dl=0
Here is my post-processing result using StarTools:
Here is the log:
-----------------------------------------------------------
StarTools 1.5.363
Thu Aug 22 15:06:39 2019
-----------------------------------------------------------
File loaded [D:\AstroImages\Eagle (or Star Queen) Nebula\Subframeselector\Debayered\registered\Eagle Nebula.fit].
Image size is 4656 x 3520
---
Type of Data: Linear and was Bayered, but not whitebalanced
--- Auto Develop
Parameter [Ignore Fine Detail <] set to [2.0 pixels]
Parameter [Outside RoI Influence] set to [50 %]
Parameter [RoI X1] set to [0 pixels]
Parameter [RoI Y1] set to [0 pixels]
Parameter [RoI X2] set to [4656 pixels (-0)]
Parameter [RoI Y2] set to [3520 pixels (-0)]
--- Crop
Parameter [X1] set to [17 pixels]
Parameter [Y1] set to [226 pixels]
Parameter [X2] set to [4531 pixels (-125)]
Parameter [Y2] set to [3457 pixels (-63)]
Image size is 4514 x 3231
--- Bin
Parameter [Scale] set to [(scale/noise reduction 50.00%)/(400.00%)/(+2.00 bits)]
Image size is 2257 x 1615
--- Wipe
Parameter [Mode] set to [Correct Color & Brightness]
Parameter [Precision] set to [256 x 256 pixels]
Parameter [Dark Anomaly Filter] set to [1 pixels]
Parameter [Drop Off Point] set to [100 %]
Parameter [Corner Aggressiveness] set to [100 %]
Parameter [Aggressiveness] set to [75 %]
--- Develop
Parameter [White Calibration] set to [Use Stars]
Parameter [Gamma] set to [1.00]
Parameter [Skyglow] set to [0 %]
Parameter [Digital Development] set to [96.43 %]
Parameter [Blue Luminance Contrib.] set to [100 %]
Parameter [Green Luminance Contrib.] set to [100 %]
Parameter [Red Luminance Contrib.] set to [100 %]
Parameter [Dark Anomaly Headroom] set to [5 %]
Parameter [Dark Anomaly Filter] set to [2.0 pixels]
Mask used (BASE64 PNG encoded)
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
--- Deconvolution
Parameter [Image Type] set to [Deep Space]
Parameter [Mask Behavior] set to [De-ring Mask Gaps, Hide Result]
Parameter [Radius] set to [1.5 pixels]
Parameter [Iterations] set to [6]
Parameter [Regularization] set to [1.00 (optimal noise and detail)]
Parameter [Mask Fuzz] set to [4.0 pixels]
--- Wavelet Sharpen
Parameter [Structure Size] set to [Large]
--- Wavelet Sharpen
Parameter [Intelligent Enhance] set to [Yes]
Parameter [Scale 1] set to [100 %]
Parameter [Scale 2] set to [100 %]
Parameter [Scale 3] set to [100 %]
Parameter [Scale 4] set to [100 %]
Parameter [Scale 5] set to [100 %]
Parameter [Mask Fuzz] set to [8.0 pixels]
Parameter [Amount] set to [100 %]
Parameter [Small Detail Bias] set to [75 %]
--- Contrast
Parameter [Expose Dark Areas] set to [No]
Parameter [Compensate Gamma] set to [No]
Parameter [Precision] set to [256 x 256 pixels]
Parameter [Dark Anomaly Filter] set to [10 pixels]
Parameter [Aggressiveness] set to [75 %]
Parameter [Dark Anomaly Headroom] set to [15 %]
--- HDR
Parameter [Small Detail Precision] set to [Max]
Parameter [Channels] set to [Brightness Only]
Parameter [Algorithm] set to [Reveal All]
Parameter [Dark/Bright Response] set to [1.00]
Parameter [Detail Size Range] set to [1000 pixels]
Parameter [Strength] set to [1.2]
---
Parameter [UNKNOWN] set to [Small]
--- Fractal Flux
Parameter [Brightness Mask Mode] set to [Off]
Parameter [Algorithm] set to [Modulate Unsharp Mask]
Parameter [Negative Flux] set to [0 %]
Parameter [Positive Flux] set to [500 %]
Parameter [Detail Filter] set to [1.0 pixels]
Parameter [Filter Fuzz] set to [1.0 pixels]
Parameter [Filter Radius] set to [1.5 pixels]
Parameter [Filter Amount] set to [200 %]
Parameter [Mask Fuzz] set to [1.0 pixels]
Parameter [Brightness Mask Power] set to [1.00]
--- Color
Parameter [Cap Green] set to [Sliders Reduce Color Bias]
Parameter [Bias Slider Mode] set to [Scientific (Color Constancy)]
Parameter [Style] set to [Straight CIELab Luminance Retention]
Parameter [LRGB Method Emulation] set to [UNKNOWN]
Parameter [Dark Saturation] set to [2.00]
Parameter [Bright Saturation] set to [Full]
Parameter [Saturation Amount] set to [200 %]
Parameter [Blue Bias Reduce] set to [1.44]
Parameter [Green Bias Reduce] set to [1.00]
Parameter [Red Bias Reduce] set to [1.62]
Parameter [Mask Fuzz] set to [1.0 pixels]
Parameter [UNKNOWN] set to [100 %]
--- Wavelet De-Noise
Parameter [Filter Type] set to [Distance Weighted Outlier Rejection]
Parameter [Grain Size] set to [11.0 pixels]
--- Wavelet De-Noise
Parameter [Scale 1] set to [95 %]
Parameter [Scale 2] set to [95 %]
Parameter [Scale 3] set to [95 %]
Parameter [Scale 4] set to [95 %]
Parameter [Scale 5] set to [0 %]
Parameter [Mask Fuzz] set to [1.0 pixels]
Parameter [Scale Correlation] set to [6]
Parameter [Color Detail Loss] set to [12 %]
Parameter [Brightness Detail Loss] set to [12 %]
Parameter [Grain Dispersion] set to [11.0 pixels]
Parameter [Non-linear Response <] set to [Off]
Parameter [Smoothness] set to [65 %]
File saved [D:\AstroImages\Eagle (or Star Queen) Nebula\Subframeselector\Debayered\registered\Eagle Nebula.tiff].
I will provide a Dropbox link to the Eagle Nebula.fit which was stacked/created in PixInsight. No post-processing was performed in PixInsight.
Exposure:
Total Lights(OSC): 120 minutes
40 x 180 seconds
101 Flats
101 Dark Flats
101 x 180 seconds Darks
Hardware:
ZWO ASI1600-MC Pro (Gain:75 Offset:12)
Celestron Edge HD 800
Software:
PixInsight (Stacking)
PHD2 Guiding
StarTools
Here is the dropbox link to the fit file:
https://www.dropbox.com/s/nv75qvf4vs8mp ... a.fit?dl=0
Here is my post-processing result using StarTools:
-
- Eagle Nebula.jpg (410.53 KiB) Viewed 2657 times
-----------------------------------------------------------
StarTools 1.5.363
Thu Aug 22 15:06:39 2019
-----------------------------------------------------------
File loaded [D:\AstroImages\Eagle (or Star Queen) Nebula\Subframeselector\Debayered\registered\Eagle Nebula.fit].
Image size is 4656 x 3520
---
Type of Data: Linear and was Bayered, but not whitebalanced
--- Auto Develop
Parameter [Ignore Fine Detail <] set to [2.0 pixels]
Parameter [Outside RoI Influence] set to [50 %]
Parameter [RoI X1] set to [0 pixels]
Parameter [RoI Y1] set to [0 pixels]
Parameter [RoI X2] set to [4656 pixels (-0)]
Parameter [RoI Y2] set to [3520 pixels (-0)]
--- Crop
Parameter [X1] set to [17 pixels]
Parameter [Y1] set to [226 pixels]
Parameter [X2] set to [4531 pixels (-125)]
Parameter [Y2] set to [3457 pixels (-63)]
Image size is 4514 x 3231
--- Bin
Parameter [Scale] set to [(scale/noise reduction 50.00%)/(400.00%)/(+2.00 bits)]
Image size is 2257 x 1615
--- Wipe
Parameter [Mode] set to [Correct Color & Brightness]
Parameter [Precision] set to [256 x 256 pixels]
Parameter [Dark Anomaly Filter] set to [1 pixels]
Parameter [Drop Off Point] set to [100 %]
Parameter [Corner Aggressiveness] set to [100 %]
Parameter [Aggressiveness] set to [75 %]
--- Develop
Parameter [White Calibration] set to [Use Stars]
Parameter [Gamma] set to [1.00]
Parameter [Skyglow] set to [0 %]
Parameter [Digital Development] set to [96.43 %]
Parameter [Blue Luminance Contrib.] set to [100 %]
Parameter [Green Luminance Contrib.] set to [100 %]
Parameter [Red Luminance Contrib.] set to [100 %]
Parameter [Dark Anomaly Headroom] set to [5 %]
Parameter [Dark Anomaly Filter] set to [2.0 pixels]
Mask used (BASE64 PNG encoded)
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
--- Deconvolution
Parameter [Image Type] set to [Deep Space]
Parameter [Mask Behavior] set to [De-ring Mask Gaps, Hide Result]
Parameter [Radius] set to [1.5 pixels]
Parameter [Iterations] set to [6]
Parameter [Regularization] set to [1.00 (optimal noise and detail)]
Parameter [Mask Fuzz] set to [4.0 pixels]
--- Wavelet Sharpen
Parameter [Structure Size] set to [Large]
--- Wavelet Sharpen
Parameter [Intelligent Enhance] set to [Yes]
Parameter [Scale 1] set to [100 %]
Parameter [Scale 2] set to [100 %]
Parameter [Scale 3] set to [100 %]
Parameter [Scale 4] set to [100 %]
Parameter [Scale 5] set to [100 %]
Parameter [Mask Fuzz] set to [8.0 pixels]
Parameter [Amount] set to [100 %]
Parameter [Small Detail Bias] set to [75 %]
--- Contrast
Parameter [Expose Dark Areas] set to [No]
Parameter [Compensate Gamma] set to [No]
Parameter [Precision] set to [256 x 256 pixels]
Parameter [Dark Anomaly Filter] set to [10 pixels]
Parameter [Aggressiveness] set to [75 %]
Parameter [Dark Anomaly Headroom] set to [15 %]
--- HDR
Parameter [Small Detail Precision] set to [Max]
Parameter [Channels] set to [Brightness Only]
Parameter [Algorithm] set to [Reveal All]
Parameter [Dark/Bright Response] set to [1.00]
Parameter [Detail Size Range] set to [1000 pixels]
Parameter [Strength] set to [1.2]
---
Parameter [UNKNOWN] set to [Small]
--- Fractal Flux
Parameter [Brightness Mask Mode] set to [Off]
Parameter [Algorithm] set to [Modulate Unsharp Mask]
Parameter [Negative Flux] set to [0 %]
Parameter [Positive Flux] set to [500 %]
Parameter [Detail Filter] set to [1.0 pixels]
Parameter [Filter Fuzz] set to [1.0 pixels]
Parameter [Filter Radius] set to [1.5 pixels]
Parameter [Filter Amount] set to [200 %]
Parameter [Mask Fuzz] set to [1.0 pixels]
Parameter [Brightness Mask Power] set to [1.00]
--- Color
Parameter [Cap Green] set to [Sliders Reduce Color Bias]
Parameter [Bias Slider Mode] set to [Scientific (Color Constancy)]
Parameter [Style] set to [Straight CIELab Luminance Retention]
Parameter [LRGB Method Emulation] set to [UNKNOWN]
Parameter [Dark Saturation] set to [2.00]
Parameter [Bright Saturation] set to [Full]
Parameter [Saturation Amount] set to [200 %]
Parameter [Blue Bias Reduce] set to [1.44]
Parameter [Green Bias Reduce] set to [1.00]
Parameter [Red Bias Reduce] set to [1.62]
Parameter [Mask Fuzz] set to [1.0 pixels]
Parameter [UNKNOWN] set to [100 %]
--- Wavelet De-Noise
Parameter [Filter Type] set to [Distance Weighted Outlier Rejection]
Parameter [Grain Size] set to [11.0 pixels]
--- Wavelet De-Noise
Parameter [Scale 1] set to [95 %]
Parameter [Scale 2] set to [95 %]
Parameter [Scale 3] set to [95 %]
Parameter [Scale 4] set to [95 %]
Parameter [Scale 5] set to [0 %]
Parameter [Mask Fuzz] set to [1.0 pixels]
Parameter [Scale Correlation] set to [6]
Parameter [Color Detail Loss] set to [12 %]
Parameter [Brightness Detail Loss] set to [12 %]
Parameter [Grain Dispersion] set to [11.0 pixels]
Parameter [Non-linear Response <] set to [Off]
Parameter [Smoothness] set to [65 %]
File saved [D:\AstroImages\Eagle (or Star Queen) Nebula\Subframeselector\Debayered\registered\Eagle Nebula.tiff].