Category Archives: Multiple media

Juno: Completes 5th low pass over Jupiter + More citizen scientist images

Citizen scientist Bjorn Jonsson made this beautiful picture of a spot on Jupiter by applying image processing techniques on an photo taken by the Juno spacecraft, which is currently in orbit around the gas giant.

This enhanced color view of Jupiter’s cloud tops was processed by citizen scientist Bjorn Jonsson using data from the JunoCam instrument on NASA’s Juno spacecraft. The image highlights a massive counterclockwise rotating storm that appears as a white oval in the gas giant’s southern hemisphere. Credits: NASA/JPL-Caltech /SwRI /MSSS/Bjorn Jonsson Juno acquired this image on Feb. 2, 2017, at 6:13 a.m. PDT (9:13 a.m. EDT), as the spacecraft performed a close flyby of Jupiter. When the image was taken, the spacecraft was about 9,000 miles (14,500 kilometers) from the planet. [Large version]
And another Juno image from someone with the tag: Ossietzky-68:

JUPITER’S EYES  –  Ossietzky-68.  Three storms in row on Jupiters atmosphere resembles eyes on the planet.  Mission Phase : PERIJOVE 6. 2017-05-23 03:11 UT Credit : NASA, Juno © PUBLIC DOMAIN

Raw images from JunoCam that the public can examine and process are available at www.missionjuno.swri.edu/junocam

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Juno is in long elliptical orbit that brings in periodically in close to the surface of Jupiter. Last week the spacecraft completed the fifth such pass above the clouds:

NASA’s Juno Spacecraft Completes Fifth Science Pass of Jupiter

Updated May 19, 2017, at 1:30 p.m. PDT: NASA’s Juno mission accomplished a close flyby of Jupiter on May 19, successfully completing its fifth science orbit.

All of Juno’s science instruments and the spacecraft’s JunoCam were operating during the flyby, collecting data that is now being returned to Earth. Juno’s next close flyby of Jupiter will occur on July 11, 2017, taking it over Jupiter’s Great Red Spot.

NASA’s Juno spacecraft will make its fifth science flyby over Jupiter’s mysterious cloud tops on Thursday, May 18, at 11 p.m. PDT (Friday, May 19, 2 a.m. EDT and 6:00 UTC). At the time of perijove (defined as the point in Juno’s orbit when it is closest to the planet’s center), the spacecraft will have logged 63.5 million miles (102 million kilometers) in Jupiter’s orbit and will be about 2,200 miles (3,500 kilometers) above the planet’s cloud tops.

Juno launched on Aug. 5, 2011, from Cape Canaveral, Florida, and arrived in orbit around Jupiter on July 4, 2016. During its mission of exploration, Juno soars low over the planet’s cloud tops — as close as about 2,100 miles (3,400 kilometers) During these flybys, Juno is probing beneath the obscuring cloud cover of Jupiter and studying its auroras to learn more about the planet’s origins, structure, atmosphere and magnetosphere.

NASA’s Jet Propulsion Laboratory, Pasadena, California, manages the Juno mission for the principal investigator, Scott Bolton, of Southwest Research Institute in San Antonio. The Juno mission is part of the New Frontiers Program managed by NASA’s Marshall Space Flight Center in Huntsville, Alabama, for the Science Mission Directorate. Lockheed Martin Space Systems, Denver, built the spacecraft. JPL is a division of Caltech in Pasadena, California.

More information on the Juno mission is available at:

The public can follow the mission on Facebook and Twitter at:

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Videos: “Colonizing Mars and Beyond” panel at Oxford + Curiosity rover sends 360 degree panorama from Ogunquit Beach

A couple of Mars items:

** The Pale Red Dot: Colonising Mars and Beyond – Panel discussion of Mars settlement:

  • Dr Ellen Stofan (former NASA Chief Scientist)
  • Libby Jackson (UK Space Agency program director)
  • Andrew Weir (Award-winning author of The Martian)
  • Prof. Andrew Coates (Head of Planetary Science, MSSL)
  • Moderator: Dr Paul Jepson (Smith School of Enterprise and the Environment)

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** NASA’s Curiosity Mars Rover at Ogunquit Beach (360 View)

 

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Thomas Pesquet’s marvelous photos of earth

French astronaut Thomas Pesquet has worked on the International Space Station as an ESA member of the crew since last November. His six month mission will end in May. During his stay in space he has carried out multiple spacewalks and performed many science experiments. He also has taken lots of great snapshots and videos of the earth. Check out the sample below and the links to more:

Eye of Africa

Thunderstorm on the horizon

Blue

Brown Moon

Saloum Delta

Spain

Cyclone

Made some new friends..

 

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New night lights maps of the earth released by NASA

NASA has recently released new improved images and video of night-time views of the earth’s surface lighting.

New Night Lights Maps Open Up Possible Real-Time Applications

NASA scientists have just released the first new global map of Earth at night since 2012. By studying Earth at night, researchers can investigate how cities expand, monitor light intensity to estimate energy use and economic activity, and aid in disaster response.
Credits: NASA’s Goddard Space Flight Center/Kathryn Mersmann

NASA scientists are releasing new global maps of Earth at night, providing the clearest yet composite view of the patterns of human settlement across our planet.

Satellite images of Earth at night — often referred to as “night lights” — have been a gee-whiz curiosity for the public and a tool for fundamental research for nearly 25 years. They have provided a broad, beautiful picture, showing how humans have shaped the planet and lit up the darkness. Produced every decade or so, such maps have spawned hundreds of pop-culture uses and dozens of economic, social science and environmental research projects.

These three composite images provide full-hemisphere views of Earth at night. The clouds and sun glint — added here for aesthetic effect — are derived from MODIS instrument land surface and cloud cover products. Credits: NASA Earth Observatory images by Joshua Stevens, using Suomi NPP VIIRS data from Miguel Román, NASA’s Goddard Space Flight Center Download Americas image – Download Europe and Africa imageDownload Asia and Australia image

But what would happen if night lights imagery could be updated yearly, monthly or even daily? A research team led by Earth scientist Miguel Román of NASA’s Goddard Space Flight Center in Greenbelt, Maryland, plans to find out this year.

In the years since the 2011 launch of the NASA-NOAA Suomi National Polar-orbiting Partnership (NPP) satellite, Román and colleagues have been analyzing night lights data and developing new software and algorithms to make night lights imagery clearer, more accurate and readily available. They are now on the verge of providing daily, high-definition views of Earth at night, and are targeting the release of such data to the science community later this year.

Composite image of continental U.S. at night, 2016. Credits: NASA Earth Observatory images by Joshua Stevens, using Suomi NPP VIIRS data from Miguel Román, NASA’s Goddard Space Flight Center

Since colleagues from the National Oceanic and Atmospheric Administration and NASA released a new Earth at night map in 2012, Román and teammates at NASA’s Earth Observing Satellite Data and Information System (EOSDIS) have been working to integrate nighttime data into NASA’s Global Imagery Browse Services (GIBS) and Worldview mapping tools. Freely available to the science community and the public via the Web, GIBS and Worldview allow users to see natural- and false-color images of Earth within hours of satellite acquisition.

Composite image of Mid-Atlantic and Northeastern U.S. at night, 2016. Credits: NASA Earth Observatory images by Joshua Stevens, using Suomi NPP VIIRS data from Miguel Román, NASA’s Goddard Space Flight Center

Today they are releasing a new global composite map of night lights as observed in 2016, as well as a revised version of the 2012 map (8 MB jpg | 265 MB jpg). The NASA group has examined the different ways that light is radiated, scattered and reflected by land, atmospheric and ocean surfaces. The principal challenge in nighttime satellite imaging is accounting for the phases of the moon, which constantly varies the amount of light shining on Earth, though in predictable ways. Likewise, seasonal vegetation, clouds, aerosols, snow and ice cover, and even faint atmospheric emissions (such as airglow and auroras) change the way light is observed in different parts of the world. The new maps were produced with data from all months of each year. The team wrote code that picked the clearest night views each month, ultimately combining moonlight-free and moonlight-corrected data.

Composite image of Nile River and surrounding region at night, 2016. Credits: NASA Earth Observatory images by Joshua Stevens, using Suomi NPP VIIRS data from Miguel Román, NASA’s Goddard Space Flight Center

Román and colleagues have been building remote sensing techniques to filter out these sources of extraneous light, gathering a better and more consistent signal of how human-driven patterns and processes are changing. The improved processing moves Suomi NPP closer to its full potential of observing dim light down to the scale of an isolated highway lamp or a fishing boat. The satellite’s workhorse instrument is the Visible Infrared Imaging Radiometer Suite (VIIRS), which detects photons of light reflected from Earth’s surface and atmosphere in 22 different wavelengths. VIIRS is the first satellite instrument to make quantitative measurements of light emissions and reflections, which allows researchers to distinguish the intensity, types and the sources of night lights over several years.

Composite image of Europe at night, 2016.

Suomi NPP observes nearly every location on Earth at roughly 1:30 p.m. and 1:30 a.m. (local time) each day, observing the planet in vertical 3000-kilometer strips from pole to pole. VIIRS includes a special “day-night band,” a low-light sensor that can distinguish night lights with six times better spatial resolution and 250 times better resolution of lighting levels (dynamic range) than previous night-observing satellites. And because Suomi NPP is a civilian science satellite, the data are freely available to scientists within minutes to hours of acquisition.

[Chicago and Lake Michigan area in 2016. See NASA posting for comparison with 2012 image of same area.]

[India in 2016. See NASA posting for comparison with 2012 image of same area.]
Armed with more accurate nighttime environmental products, the NASA team is now automating the processing so that users will be able to view nighttime imagery within hours of acquisition. This has the potential to aid short-term weather forecasting and disaster response.

“Thanks to VIIRS, we can now monitor short-term changes caused by disturbances in power delivery, such as conflict, storms, earthquakes and brownouts,” said Román. “We can monitor cyclical changes driven by reoccurring human activities such as holiday lighting and seasonal migrations. We can also monitor gradual changes driven by urbanization, out-migration, economic changes, and electrification. The fact that we can track all these different aspects at the heart of what defines a city is simply mind-boggling.”

For instance, VIIRS detected power outages in the wake of Hurricane Matthew, a major storm that struck the northeastern Caribbean and the southeastern United States in late September 2016. NASA’s Disasters Response team provided the data to colleagues at the Federal Emergency Management Agency; in the future, NASA, FEMA and the Department of Energy hope to develop power outage maps and integrate the information into recovery efforts by first responders.

The NASA team envisions many other potential uses by research, meteorological and civic groups. For instance, daily nighttime imagery could be used to help monitor unregulated or unreported fishing. It could also contribute to efforts to track sea ice movements and concentrations. Researchers in Puerto Rico intend to use the dataset to reduce light pollution and help protect tropical forests and coastal areas that support fragile ecosystems. And a team at the United Nations has already used night lights data to monitor the effects of war on electric power and the movement of displaced populations in war-torn Syria.

In a separate, long-term project, Román is working with colleagues from around the world to improve global and regional estimates of carbon dioxide emissions. The team at NASA’s Global Modeling and Assimilation Office (GMAO) is combining night lights, urban land use data, and statistical and model projections of anthropogenic emissions in ways that should make estimates of sources much more precise.

Related Links

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MRO images: A sampling of Martian sand dunes

Beautiful views of sand dune formations on Mars via the HiRISE camera on the Mars Reconnaissance Orbiter (MRO):

** The Splitting of the Dunes

The mound in the center of this image appears to have blocked the path of the dunes as they marched south (north is to the left in this image) across the scene. Many of these transverse dunes have slipfaces that face south, although in some cases, it’s hard to tell for certain. Smaller dunes run perpendicular to some of the larger-scale dunes, probably indicating a shift in wind directions in this area.

Although it might be hard to tell, this group of dunes is very near the central pit of a 35-kilometer-wide impact crater. Data from other instruments indicate the presence of clay-like materials in the rock exposed in the central pit.

This is a stereo pair with ESP_013319_1685.

** Dunes of the Southern Highlands 

Sand dunes are scattered across Mars and one of the larger populations exists in the Southern hemisphere, just west of the Hellas impact basin. The Hellespontus region features numerous collections of dark, dune formations that collect both within depressions such as craters, and among “extra-crater” plains areas.

This image displays the middle portion of a large dune field composed primarily of crescent-shaped “barchan” dunes. Here, the steep, sunlit side of the dune, called a slip face, indicates the down-wind side of the dune and direction of its migration. Other long, narrow linear dunes known as “seif” dunes are also here and in other locales to the east.

NB: “Seif” comes from the Arabic word meaning “sword.”

** Layers and Dark Dunes

Much of Mars’ surface is covered by fine-grained materials that hide the bedrock, but elsewhere, such as in this scene, the bedrock is well exposed (except where covered by sand dunes).

Colors are enhanced in the cutout of a pit exposing reddish layers. This is part of a stereo pair, so check out the stereo anaglyph for a 3D view.

This is a stereo pair with ESP_039581_1520.

 

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