The first batch of PJ13 images have been posted to missionjuno.
Note that because the spacecraft antenna was pointed at the Earth during this pass, we are looking way off nadir in these images, which make them deviate from round significantly in non-map-projected form (and look like cashews in the point-perspective form that we use in our processed products.) It would be interesting to know if there's a way to fix this cosmetically without doing a real map projection.
http://junocam.pictures/gerald/uploads/20180525/.
Here is an early pass using Brian Swift's pipeline...
https://flic.kr/p/2688HpZ
PJ13_29
https://flic.kr/p/24K9RJY
PJ13_28
https://flic.kr/p/24K9SHb
PJ13_27
https://flic.kr/p/2688ETX
PJ13_26
https://flic.kr/p/2688Fkt
PJ13_25
https://flic.kr/p/2688FNH
PJ13_24
https://flic.kr/p/2688Ghi
PJ13_23
https://flic.kr/p/2688GAK
PJ13_21
https://flic.kr/p/2688GQn
This was faster than I could do my uploads.
Here my reprojections, JPG versions:
#029:
#021, #019, #017, #015, and #013:
And now for Gerald's...
PJ13_27
https://flic.kr/p/26pNvk3
Look a little closer to see the residual channel alignment issues. Those are hard to resolve without shape model and trajectory.
This would be more evident http://junocam.pictures/gerald/uploads/20180525a/JNCE_2018144_13C00027_V01-raw.bmp_reproj_30px_30.456000s_cx805.0_000000_taylorIncEm.bmp_sphC_.html.
Brian's pipeline is good for global views at scale since there are alignment offsets which are quite obvious on some images taken closer to the planet.
Here are a few more of Gerald's recent batch...
https://flic.kr/p/Kokf9f
PJ13_25
https://flic.kr/p/HSj5Uc
https://flic.kr/p/HSj36B
PJ13_26
https://flic.kr/p/27whw18
https://flic.kr/p/27whshr
PJ13_27 4k Wallpaper
https://flic.kr/p/27wh8GF
https://flic.kr/p/27rZKBL
PJ13_28
https://flic.kr/p/Kojw8b
https://flic.kr/p/269x8iZ
PJ13_29
https://flic.kr/p/24Lz6sq
https://flic.kr/p/27rZnvb
I was so fascinated of your post-processed versions, Seán, that I almost forgot to process part 2.
Then I fell asleep during upload.
But eventually, here http://junocam.pictures/gerald/uploads/20180526/, and http://junocam.pictures/gerald/uploads/20180526a/.
And here the JPGs of the reprojected versions:
#30, and #31:
And finally #49, and #50, taken with TDI 3 in order to improve the visibility of the terminator:
I'm glad you got some sleep at least... Jupiter never sleeps!
Gerald's PJ13 sequence...
https://flic.kr/p/HToqFx
http://www.gigapan.com/gigapans/208529
GERALD U R AMAZING!!!
Here's my initial animation of your images - please share - no time can be lost in enlightening the public:)
Latest flyby of Jupiter by NASA's Juno spacecraft
https://i.imgur.com/cuAWKNQ.gifv
Credits: NASA / SwRI / MSSS / Gerald Eichstädt / Avi Solomon
12 Perijoves
262 images
http://www.gigapan.com/gigapans/208544
1 Jupiter
https://flic.kr/p/26sxgqb
PJ13_42 using Brian's pipeline...
https://flic.kr/p/27y4xEA
PJ-13, part 3, http://junocam.pictures/gerald/uploads/20180530/ and http://junocam.pictures/gerald/uploads/20180530a/.
#065, and #066 show moons, especially Io.
Some of the images are intentionally overexposed, in order to improve visibility of Jupiter's twilight zone.
Also, Io's night side is better visible in the TDI 6 image #066.
Departure sequence is pending.
PJ13_40
https://flic.kr/p/26zyWw3
5 image composite. Reprojections of 41, 42, 43, 44 on 40. LOTS of photoshoppery to blend different exposures.
Seán's composite nicely shows the STB Spectre.
http://junocam.pictures/gerald/uploads/20180531/.
Here are my versions of image PJ13_27 ("North North North Temperate Belt"). Approximately true color/contrast:
https://youtu.be/F-O2BjNtOt0.
This time, I've implemented and applied a filter to reduce the number of bright blips caused by energetic particle hits.
I'm going to prepare MP4 scenes and stills for upload.
http://junocam.pictures/gerald/uploads/20180607/.
Perijove 13
https://flic.kr/p/27UDXxN
https://youtu.be/9WctV1QgbMc
Re-timed / gamma / masked blends / sharpen based on Gerald's source.
Music by Jóhann Jóhannsson.
Here are my versions of image PJ13_44, mainly processed to test a new version of my software. Everything seems to work as planned. Approximately true color/contrast and an enhanced version:
Here are two rather unusual images showing details from PJ13_31. The images show Jupiter's blue sky at the limb. They have been enlarged by a factor of 3 relative to the original data to show the blue sky more clearly. Color/contrast is approximately natural but the brightness of the blue sky at the limb has been increased slightly relative to other parts of the images. These images should be pretty accurate since I couldn't see any errors in the several framelets I checked with limb fits when processing the data (accurate limb fits are a bit difficult in these hi-res images though because the limb is rather fuzzy). In these images the resolution at the limb is ~4 km/pixel (the resolution of the original data at the limb is ~13 km/pixel).
Here are my versions of image PJ13_31 (Hot Spot) which is a a very high resolution image. Approximately true color/contrast:
Links to a somewhat preliminary version of partial PJ13 maps:
http://junocam.pictures/gerald/uploads/20180616/ and
http://junocam.pictures/gerald/uploads/20180614a/.
Especially the maps derived from images taken during departure s/c ops will require a revision.
PJ13_37 based on Matt Brealey's updated pipeline...
https://flic.kr/p/28L3PJS
https://flic.kr/p/L1E4Tv
Click this link to see the animation...
https://twitter.com/_TheSeaning/status/1025380191672131585
Approx 5 minutes between frames lasting 35 minutes
I give Jupiter a '10'
https://flic.kr/p/28ZK8L8
PJ13_26_GE/SD re-process
https://flic.kr/p/2dZquUt
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