Category Archives: Eyes in the Sky

Eyes in the Sky, Multiple media, Solar Science

Daily views of Earth from the DSCOVR spacecraft

October 19, 2015 TopSpacer

Via the DSCOVR spacecraft, you can now see daily images of the full side of the earth facing the sun:

Daily Views of Earth Available on New NASA Website

NASA launched a new website Monday so the world can see images of the full, sunlit side of the Earth every day. The images are taken by a NASA camera one million miles away on the Deep Space Climate Observatory (DSCOVR), a partnership between NASA, the National Oceanic and Atmospheric Administration (NOAA) and the U.S. Air Force.

epicday260-1041x586[1] — Earth rotates through an entire day as captured in this animation of 22 still images taken on Sept. 17, 2015 by NASA’s Earth Polychromatic Imaging Camera (EPIC) camera on the Deep Space Climate Observatory (DSCOVR) spacecraft. Credits: NASA

Once a day NASA will post at least a dozen new color images of Earth acquired from 12 to 36 hours earlier by NASA’s Earth Polychromatic Imaging Camera (EPIC). Each daily sequence of images will show the Earth as it rotates, thus revealing the whole globe over the course of a day. The new website also features an archive of EPIC images searchable by date and continent.

The primary objective of NOAA’s DSCOVR mission is to maintain the nation’s real-time solar wind monitoring capabilities, which are critical to the accuracy and lead time of space weather alerts and forecasts from NOAA. NASA has two Earth-observing instruments on the spacecraft. EPIC’s images of Earth allow scientists to study daily variations over the entire globe in such features as vegetation, ozone, aerosols, and cloud height and reflectivity.

EPIC is a four megapixel CCD camera and telescope. The color Earth images are created by combining three separate single-color images to create a photographic-quality image equivalent to a 12-megapixel camera. The camera takes a series of 10 images using different narrowband filters — from ultraviolet to near infrared — to produce a variety of science products. The red, green and blue channel images are used to create the color images. Each image is about 3 megabytes in size.

“The effective resolution of the DSCOVR EPIC camera is somewhere between 6.2 and 9.4 miles (10 and 15 kilometers),” said Adam Szabo, DSCOVR project scientist at NASA’s Goddard Space Flight Center, Greenbelt, Maryland.

Since Earth is extremely bright in the darkness of space, EPIC has to take very short exposure images (20-100 milliseconds). The much fainter stars are not visible in the background as a result of the short exposure times.

The DSCOVR spacecraft orbits around the L1 Lagrange point directly between Earth and the sun. This orbit keeps the spacecraft near the L1 point and requires only occasional small maneuvers, but its orbit can vary from 4 to 15 degrees away from the sun-Earth line over several years.

EPIC was built by Lockheed Martin’s Advanced Technology Center, in Palo Alto, California. Using an 11.8-inch (30-centimeter) telescope and 2048 x 2048 CCD detector, EPIC measures in the ultraviolet, visible and near-infrared areas of the spectrum. The data from all 10 wavelengths are posted through a website hosted by the Atmospheric Science Data Center at NASA’s Langley Research Center, Hampton, Virginia. All images are in the public domain.

NASA uses the vantage point of space to increase our understanding of our home planet, improve lives, and safeguard our future. NASA develops new ways to observe and study Earth’s interconnected natural systems with long-term data records. The agency freely shares this unique knowledge and works with institutions around the world to gain new insights into how our planet is changing.

For daily images from EPIC, visit: http://epic.gsfc.nasa.gov/

For more information about the DSCOVR mission, visit: http://www.nesdis.noaa.gov/DSCOVR/

Eyes in the Sky, Solar Science

Video: Watch the Moon cross the face of Earth

August 5, 2015 TopSpacer

Great views of the Moon transiting across the face of the Earth have been taken by the DSCOVR science spacecraft, which was launched to the Earth-Sun Lagrange point L-1 back in February on a SpaceX Falcon 9 rocket.

From a Million Miles: The Moon Crossing the Face of Earth

epicearthmoonstill[1] — This image shows the far side of the moon, illuminated by the sun, as it crosses between the DSCOVR spacecraft’s Earth Polychromatic Imaging Camera (EPIC) camera and telescope, and the Earth – one million miles away. Credits: NASA/NOAA

Click for larger image.

A NASA camera aboard the Deep Space Climate Observatory (DSCOVR) satellite captured a unique view of the moon as it moved in front of the sunlit side of Earth last month. The series of test images shows the fully illuminated “dark side” of the moon that is never visible from Earth.

The images were captured by NASA’s Earth Polychromatic Imaging Camera (EPIC), a four megapixel CCD camera and telescope on the DSCOVR satellite orbiting 1 million miles from Earth. From its position between the sun and Earth, DSCOVR conducts its primary mission of real-time solar wind monitoring for the National Oceanic and Atmospheric Administration (NOAA).

EPIC maintains a constant view of the fully illuminated Earth as it rotates, providing scientific observations of ozone, vegetation, cloud height and aerosols in the atmosphere. Once EPIC begins regular observations next month, the camera will provide a series of Earth images allowing study of daily variations over the entire globe. About twice a year the camera will capture the moon and Earth together as the orbit of DSCOVR crosses the orbital plane of the moon.

These images were taken between 3:50 p.m. and 8:45 p.m. EDT on July 16, showing the moon moving over the Pacific Ocean near North America. The North Pole is in the upper left corner of the image, reflecting the orbital tilt of Earth from the vantage point of the spacecraft.

The far side of the moon was not seen until 1959 when the Soviet Luna 3 spacecraft returned the first images. Since then, several NASA missions have imaged the lunar far side in great detail. The same side of the moon always faces an earthbound observer because the moon is tidally locked to Earth. That means its orbital period is the same as its rotation around its axis.

In May 2008 NASA’s Deep Impact spacecraft captured a similar view of Earth and the moon from a distance of 31 million miles away. The series of images showed the moon passing in front of our home planet when it was only partially illuminated by the sun.

EPIC’s “natural color” images of Earth are generated by combining three separate monochrome exposures taken by the camera in quick succession. EPIC takes a series of 10 images using different narrowband spectral filters — from ultraviolet to near infrared — to produce a variety of science products. The red, green and blue channel images are used in these color images.

Combining three images taken about 30 seconds apart as the moon moves produces a slight but noticeable camera artifact on the right side of the moon. Because the moon has moved in relation to the Earth between the time the first (red) and last (green) exposures were made, a thin green offset appears on the right side of the moon when the three exposures are combined. This natural lunar movement also produces a slight red and blue offset on the left side of the moon in these unaltered images.

The lunar far side lacks the large, dark, basaltic plains, or maria, that are so prominent on the Earth-facing side. The largest far side features are Mare Moscoviense in the upper left and Tsiolkovskiy crater in the lower left. A thin sliver of shadowed area of moon is visible on its right side.

“It is surprising how much brighter Earth is than the moon,” said Adam Szabo, DSCOVR project scientist at NASA’s Goddard Space Flight Center in Greenbelt, Maryland. “Our planet is a truly brilliant object in dark space compared to the lunar surface.”

Once EPIC begins regular observations next month, NASA will post daily color images of Earth to a dedicated public website. These images, showing different views of the planet as it rotates through the day, will be available 12 to 36 hours after they are acquired.

DSCOVR is a partnership between NASA, NOAA and the U.S. Air Force with the primary objective of maintaining the nation’s real-time solar wind monitoring capabilities, which are critical to the accuracy and lead time of space weather alerts and forecasts from NOAA.

For more information about DSCOVR, visit: www.nesdis.noaa.gov/DSCOVR

Click for larger image.

Eyes in the Sky, Space participation

Zooniverse uses Planet Labs images to help direct aid in Nepal

May 15, 2015 TopSpacer

The citizen science program Zooniverse used satellite imagery from Planet Labs to help spot areas of Nepal in urgent need of assistance after the earthquake: Disaster Response in Nepal and The Zooniverse – Zooniverse

Very soon after the recent magnitude-7.8 earthquake in Nepal, we were contacted by multiple groups involved in directly responding with aid and rescue teams, asking if we could assist in the efforts getting underway to crowdsource the mapping of the region. One of those groups was Rescue Global, an independent reconnaissance charity that works across multiple areas of disaster risk reduction and response. Rescue Global also works with our collaborators in machine learning here at Oxford, combining human and computer inputs for disaster response in a project called Orchid. And they asked us to help them pinpoint the areas with the most urgent unfulfilled need for aid.

And so we sprang into action. The satellite company Planet Labs generously shared all its available data on Nepal with us. The resolution of Planet Labs’ imagery – about 5 metres per pixel – is perfect for rapid examination of large ground areas while showing enough detail to easily spot the signs of cities, farms and other settlements. After discussions with Rescue Global we decided to focus on the area surrounding Kathmandu, with a bias westward toward the quake epicentre, as much of this area is heavily populated but we knew many other, complementary efforts were focusing on the capital itself. We sliced about 13,000 km2 of land imagery into classifiable tiles, and created a new project using brand new Zooniverse software (coming very very soon!) that allows rapid project creation.

Continue…

Eyes in the Sky

Satellite images of Nepal after earthquake

April 28, 2015 TopSpacer

Check out satellite before/after images of the capital city of Nepal: Photos: Nepal Earthquake, before and after in satellite photos – Denver Post.

The images come from DigitalGlobe, which is giving relief groups free access to images of Nepal: DigitalGlobe opens access to satellite data to support disaster response efforts in Nepal – DigitalGlobe.

Planet Labs is also offering its images: Responding to the Nepal Earthquake – Planet Labs.

A typical satellite image in Google map view might be two or three years old. This Google Crisis Map shows where new imagery is available for Nepal. You can then zoom in on a particular area in the new images.

Screen capture of an area in Kathmandu from Google Crisis Map.

Here’s an article about the broader role that satellites are playing in the recovery, particularly regarding communications services: Satellite Industry Responds to Nepalese Earthquake – Via Satellite.

Eyes in the Sky

Volcanos from space

April 27, 2015 TopSpacer

Here are some images from NASA of the Calbuco volcano in southern Chile that erupted on April 22, 2015.

An image from NASA’s Terra satellite.

A closer view from NASA’s Terra satellite.

===

In 2009, NASA released this cool view of the Sarychev volcano on one of the Russian Kuril islands north of Japan. The image was taken by astronauts on the the Int. Space Station: Sarychev Volcano – NASA