We invite you to download raw JunoCam images posted here and do your own image processing on them. Be creative! Anything from cropping to color enhancing to collaging is fair game. Then upload your creations here.
Please refrain from direct use of any official NASA or Juno mission logos in your work, as this confuses what is officially sanctioned by NASA and by the Juno Project.
We ask that you refrain from posting any patently offensive, political, or inappropriate images. Let’s keep it clean and fun for everyone of any age! Remember, this section is moderated so inappropriate content will be rejected. But creativity and curiosity in the scientific spirit and the adventure of space exploration is highly encouraged and we look forward to seeing Jupiter through not only JunoCam’s eyes, but your own. Have at it!
On December 16, 2017, NASA's Juno probe successfully performed her Perijove-10 Jupiter flyby.
Good contact to Earth and incremented storage allowed taking very close-up images of good quality.
The movie is a reconstruction of the period of time between 2017-12-16T16:35:00.000 and 2017-12-16T19:25:00.000 in 125-fold time-lapse.
It is based on 20 of the JunoCam images taken, and on spacecraft trajectory data provided via SPICE kernel files.
In steps of five real-time seconds, one still images of the movie has been rendered from at least one suitable raw image. This resulted in short scenes, usually of a few seconds.
Playing with 25 images per second results in 125-fold time-lapse.
Resulting overlapping scenes have been blended using the ffmpeg tool.
In natural colors, Jupiter looks pretty pale. Therefore, the still images are approximately illumination-adusted, i.e. almost flattened, and consecutively gamma-stretched to the 4th power of radiometric values, in order to enhance contrast and color.
The movie starts with a reconstructed in-bound sequence approaching Jupiter from north on its night side. Then the orbit approaches Jupiter down to an altitude between 3,000 and 4,000 km near the equator.
JunoCam looked towards Jupiter's limb during close flyby.
This is followed by a transition into the outbound orbit, during which Jupiter's south polar region comes into the field of view.
The rendition is preliminary. A revised version might be provided in the first quarter of 2018.
JunoCam was built and is operated by Malin Space Science Systems in San Diego / California / USA.
Many people at NASA, JPL, SwRI, and elsewhere have been, are, and will be required to plan and operate the Juno mission.