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Combining data from many perijoves, For images/mosaics that are not perijove-specific
Bjorn Jonsson
post Apr 6 2018, 09:08 PM
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This thread is for images/mosaics that combine data from more than one perijove pass or compare data (e.g. the appearance of specific features on Jupiter) from two or more perijoves. In other words, it is for images and related stuff not specific to a single perijove.


It is possible to use the JIRAM infrared images to attempt to guess what areas not imaged by JunoCam might look like at visual wavelengths.

Below is a montage showing versions of a mosaic of JunoCam images from perijoves 1, 3, 4 and 5. The effects of the varying global illumination have been removed. The mosaic shows Jupiter's north polar region in orthographic projection from directly above. Because the north pole is in darkness, an inverted, heavily processed and colorized JIRAM mosaic was used to fill the gap at the north pole. This represents an attempt to guess what this area might look like in visible light. Small scale details in the cloud morphology should be fairly accurate/realistic but the overall contrast, brightness and color are based partially on a visual comparison of the JunoCam and JIRAM data farther from the pole where useful data from both instruments is available. It is difficult to guess how accurate this is but it is definitely far better than leaving this area blank! The JIRAM data appears a bit different from the JunoCam data in the mosaic but this is mainly because the JIRAM images suggest that the overall color and brightness in the area very near the pole (including the central cyclone) really are different from areas farther from the pole. Another factor is that the JIRAM data is of somewhat higher resolution. Also unlike JunoCam, the difficult illumination conditions in the polar region do not affect the JIRAM images. And here is the montage:

Attached Image


The montage shows the following:

Upper left: An approximately true color/contrast mosaic of Jupiter's north polar region.
Upper right: A mosaic of Jupiter's north polar region with enhanced colors and contrast.
Lower left: The approximately true color/contrast version with a latitude/longitude grid. Latitudes are planetographic.
Lower right: A diagram showing the areas covered by the different source images/data. Unless otherwise noted the data is from JunoCam.
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Glenn Orton
post Apr 6 2018, 09:33 PM
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Hey, Bjorn,

May I show this at a Juno team meeting?

Do you have anything similar for the south pole (no relying on JIRAM results necessary).

Glenn

P.S. Feel free to email me directly, of course.
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Gerald
post Apr 6 2018, 09:49 PM
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That's maybe the thread where I should provide a link to my not yet quite complete collection of maps and animations.
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Bjorn Jonsson
post Apr 6 2018, 10:16 PM
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Here is a comparable montage featuring a mosaic covering the south polar region. This is from JunoCam data; it is a mosaic of two perijove 6 images, one perijove 7 image and one perijove 8 image. The color very near the pole might be somewhat inaccurate due to the very low illumination levels near the pole in the original images. The position of the circumpolar cyclones during PJ6 was used as a reference when creating the mosaic, however this is of minor importance since their movement is negligible. In contrast, the areas farther from the pole change a lot more and seams between the different perijoves were originally obvious in the mosaic. These seams have been removed for cosmetic reasons.

Attached Image


Like the north polar montage, this montage shows the following:

Upper left: An approximately true color/contrast mosaic of Jupiter's north polar region.
Upper right: A mosaic of Jupiter's north polar region with enhanced colors and contrast.
Lower left: The approximately true color/contrast version with a latitude/longitude grid. Latitudes are planetographic.
Lower right: A diagram showing the areas covered by the different source images/data.

QUOTE (Glenn Orton @ Apr 6 2018, 09:33 PM) *
Hey, Bjorn,

May I show this at a Juno team meeting?

Do you have anything similar for the south pole (no relying on JIRAM results necessary).

You are welcome to show these mosaics at a Juno team meeting.
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Glenn Orton
post Apr 6 2018, 11:27 PM
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I got the second one, too. Thanks for your email. For some reason, my reply to your email is bouncing back.
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Bjorn Jonsson
post Apr 6 2018, 11:33 PM
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My Internet service provider has been having problems today, this address should work if needed:

[image removed, it is no longer of significance]

(posted as an image to avoid spam)
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Bjorn Jonsson
post May 15 2018, 11:36 PM
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A big map of Jupiter that combines the Juno polar data with a map made from Cassini data:

http://www.planetary.org/blogs/guest-blogs...sini-a-new.html

Of course this is strictly speaking fictional but should nevertheless be far more realistic than using featureless and smooth looking dummy data at the poles as I did before Juno.
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PaulH51
post May 16 2018, 12:49 AM
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QUOTE (Bjorn Jonsson @ May 16 2018, 07:36 AM) *
A big map of Jupiter that combines the Juno polar data with a map made from Cassini data:

Lovely processing, and an informative blog, many thanks for sharing. I hope you get your wish for additional data from future missions. Meanwhile I hope we will soon see some 3D projections of your map smile.gif
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Sean
post May 16 2018, 11:45 AM
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Here are some portraits rendered with Bjorn's wonderful new map...


64 megapixel version over at Gigapan



80 megapixel version over at Gigapan

Jupiter Rotation 001

4k60 Youtube version

Jupiter Rotation 002

4k60 Youtube version

Jupiter Rotation north pole

4k60 Youtube version

Jupiter Rotation south pole

4k60 Youtube version

Jupiter Rotation GRS

4k60 Youtube version

...finally a portrait with a little artistic license.


--------------------
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Brian Swift
post May 30 2019, 11:15 PM
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PJ00 through preliminary downlink of PJ20 animated gif.

Attached Image
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Brian Swift
post Jun 6 2019, 08:18 PM
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I've uploaded as set of 8K by 4K equirectangular images for PJ "0" through 20 to missionjuno site:
https://www.missionjuno.swri.edu/junocam/pr...&perpage=72
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Bjorn Jonsson
post Jul 7 2019, 10:08 PM
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So far the Great Red Spot (GRS) has been well imaged during four of Juno's perijoves (there are additional perijoves where lower resolution images were obtained). Below are approximately true color/contrast map-projected mosaics from these perijoves showing how the GRS and nearby areas have changed. The mosaics cover planetographic latitudes 4.7 to 38 degrees south.

Attached Image

Attached Image

Attached Image

Attached Image


A lot more of the reddish stuff is flowing out of the GRS recently than in the PJ7 and PJ12 mosaics. Reddish 'flakes/blades' can be seen in the PJ17 and PJ18 mosaics. These events have also been extensively imaged with Earth-based telescopes. http://pvol2.ehu.eus is a great source of information for anyone interesting in Earth-based images of the planets.

The resolution of the source data is highly variable and this can be seen in some of the mosaics. The viewing geometry also varies a lot. Some of the images were obtained almost directly above the GRS (in particular some of the perijove 7 images) whereas other images were obtained at an oblique viewing angle (in particular the perijove 17 images).

These are approximately true color/contrast mosaics but there may be some inaccuracies in areas where the original images were obtained at a highly oblique angle. The contrast is also lower in these areas.
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Bjorn Jonsson
post Aug 13 2019, 10:03 PM
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Below is the latest addition to the series of Great Red Spot (GRS) mosaics in the above post, a mosaic from PJ21 images:

Attached Image


This mosaic has the same resolution as the earlier mosaics and also covers planetographic latitudes 4.7 to 38 degrees south. It is obvious that the GRS is now smaller than it was at the time of the perijove 18 images (or at the very least the red area is smaller). Interestingly, the size of the Red Spot Hollow seems to be similar to the size it has in the PJ18 images.
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Gerald
post Aug 21 2020, 01:11 AM
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Recently, John Rogers showed, that the north polar region is illuminated well enough now, that it's possible to derive multi-perijove composites including the north polar cyclone, see missionjuno Think Tank, Philosophia-47 2020-08-16 23:04 UT.
The version below tries to stay fairly seemless, but accepts some overlap of features, especially of some FFRs. It's composed of stacked maps derived from PJs 25, 26, 27, and 28, similar to John's version.
Attached Image

But the long-lived structures are shown unambiguously: The north polar cyclone (NPC), the eight northern circumpolar cyclones (CPCs), and the two anticyloncic white ovales (AWOs) inside the CPC octagon. The latter appear to distort the ditetragonal shape of the octagon into a slightly rhombic geometry by their opposite or "para" position relative to the NPC.
The map is equidistant azimuthal planetocentric from 75 to 90 degrees north.
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