OrbitalHub

Wikipedia dicit:

ICESat-2 (Ice, Cloud, and land Elevation Satellite 2), part of NASA’s Earth Observing System, is a satellite mission for measuring ice sheet elevation and sea ice thickness, as well as land topography, vegetation characteristics, and clouds. ICESat-2, a follow-on to the ICESat mission, was launched on 15 September 2018 from Vandenberg Air Force Base in California, into a near-circular, near-polar orbit with an altitude of approximately 496 km (308 mi). It was designed to operate for three years and carry enough propellant for seven years. The satellite orbits Earth at a speed of 6.9 kilometers per second (4.3 mi/s).

The ICESat-2 mission is designed to provide elevation data needed to determine ice sheet mass balance as well as vegetation canopy information. It will provide topography measurements of cities, lakes and reservoirs, oceans and land surfaces around the globe, in addition to the polar-specific coverage. ICESat-2 also has the ability to detect seafloor topography up to 100 feet (30m) below the surface in clear watered coastal areas. Because the great changes of polar ice cover in global warming are not quantified, one of the main purposes of ICESat-2 is measuring the changing of the elevation of ice sheets by its laser system and lidar to quantify the influence of melting ice sheet in sea-level raising. Additionally, the high accuracy of multiple pulses allows collecting measurement of the heights of sea ice to analyze its change rate during the time.

The ICESat-2 spacecraft was built and tested by Northrop Grumman Innovation Systems in Gilbert, Arizona, while the on board instrument, ATLAS, was built and managed by Goddard Space Flight Center in Greenbelt, Maryland. The ATLAS instrument was designed and built by the center, and the bus was built by and integrated with the instrument by Orbital Sciences (later Orbital ATK). Orbital ATK, which was a global leader in aerospace and defense technologies, was acquired by the Northrop Grumman Corporation on June 6, 2018. The satellite was launched on a Delta II rocket provided by United Launch Alliance. This was the last launch of the Delta II rocket.

Video credit: Credit: NASA’s Scientific Visualization Studio/Kel Elkins (USRA): Lead Visualizer/Ryan Fitzgibbons (USRA): Lead Producer/Alek A. Petty (University of Maryland): Scientist/Thomas A. Neumann Ph.D. (NASA/GSFC): Scientist/Nathan T. Kurtz (NASA/GSFC): Scientist

NASA dicit:

In April, instruments aboard NASA’s Operation IceBridge airborne campaign and the Ice, Cloud and Land Elevation Satellite-2 succeeded in measuring the same Arctic sea ice at the same time, a tricky feat given the shifting sea ice. Scientists have now analyzed airborne and spaceborne height measurements, and found that the two datasets match almost exactly, demonstrating how precisely ICESat-2 can measure the heights of the sea ice’s bumpy, cracked surface.

Video Credit: NASA Goddard

Wikipedia dixit:

ICESat-2 is a follow-up to the original ICESat mission, which was decommissioned in 2010. When the project entered its first phase in 2010, it was expected to be ready for launch as soon as 2015. In December 2012, NASA reported that they expected the project to launch in 2016. In the following years, technical issues with the mission’s only onboard instrument, ATLAS, delayed the mission further, pushing the expected launch back from late 2016 to May 2017. In July 2014, NASA submitted a report to Congress detailing the reasons for the delay and a projected budget overrun, as is required by law for NASA projects which spend at least 15% over budget. In order to finance the budget overrun, NASA has diverted funds from other planned satellite missions, such as the Plankton, Aerosol, Cloud, ocean Ecosystem (PACE) satellite. The launch took place on 15 September 2018 at 15:02 UTC from Vandenberg Air Force Base Space Launch Complex 2 aboard a Delta 2 7420-10C. To maintain data continuity in the interim between the decommissioning of ICESat and the launch of ICESat-2, NASA’s airborne Operation IceBridge mission has continued to collect polar topography data using its onboard ATM lidar sensor.

Video Credit: ULA

ULA dixit:

“A United Launch Alliance (ULA) Delta II rocket carrying launch NASA’s Ice, Cloud and land Elevation Satellite-2 (ICESat-2) mission lifts off from Space Launch Complex-2 at Vandenberg Air Force Base, California, on September 15, 2018. ICESat-2 is the 155th and final launch of the Delta II rocket. From its origin as the launch vehicle for the first Global Positioning System (GPS) satellites to NASA’s Earth observing, science and interplanetary satellites including Mars rovers Spirit and Opportunity to vital commercial communication and imaging satellites, the Delta II rocket has truly earned its place in space history.”

Video Credit: ULA

NASA Goddard dixit:

“In 2018, NASA will intensify its focus on one of the most critical but remote parts of our changing planet with the launch of two new satellite missions and an array of airborne campaigns. GRACE-FO and ICESat-2 will use radically different techniques to observe how the massive ice sheets of Greenland and Antarctica are changing over time and how much they are contributing to sea level rise.

The space agency is launching these missions at a time when decades of observations from the ground, air, and space have revealed signs of change in Earth’s ice sheets, sea ice, glaciers, snow cover, and permafrost. Collectively, scientists call these frozen regions of our planet the “cryosphere.”

Music: Pending News by Christian Telford

Video credit: NASA’s Goddard Space Flight Center/LK Ward

Wikipedia dixit:

“ICESat-2 (Ice, Cloud, and land Elevation Satellite 2), part of NASA’s Earth Observing System, is a planned satellite mission for measuring ice sheet elevation, sea ice freeboard as well as land topography and vegetation characteristics. ICESat-2 is a planned follow-on to the ICESat mission. It will be launched in 2018 from Vandenberg Air Force Base in California into a near-circular, near-polar orbit with an altitude of approximately 496 km. It is being designed to operate for 3 years, and will carry enough propellant for 7 years.

The ICESat-2 mission is designed to provide elevation data needed to determine ice sheet mass balance as well as vegetation canopy information. It will provide topography measurements of cities, lakes and reservoirs, oceans and land surfaces around the globe, in addition to the polar-specific coverage.

The ICESat-2 project is being managed by NASA Goddard Space Flight Center. The sole instrument is being designed and built by NASA Goddard Space Flight Center, and the bus is being provided by Orbital ATK. The satellite will launch on a Delta II rocket provided by United Launch Alliance. As of November 2017 this is the last planned launch of the Delta ll launch vehicle.

The sole instrument on ICESat-2 will be the Advanced Topographic Laser Altimeter System (ATLAS), a space-based LIDAR. ATLAS will time the flight of laser photons from the satellite to Earth and back; computer programs will use the travel time from multiple pulses to determine elevation. The ATLAS laser will emit visible laser pulses at 532 nm wavelength. The laser is being developed and built by Fibertek, Inc. As ICESat-2 orbits, the ATLAS will generate six beams arranged in three pairs, with the pairs 3.3 km apart, in order to better determine the surface’s slope and provide more ground coverage. ATLAS will take elevation measurements every 70 cm along the satellite’s ground path. The laser will fire at a rate of 10 kHz. Each pulse sends out about 20 trillion photons, almost all of which are dispersed or deflected as the pulse travels to Earth’s surface and bounces back to the satellite. About a dozen photons from each pulse return to the instrument and are collected in a beryllium telescope.”

Music: “Cristal Delight,” Fred Dubois, Killer Tracks

Ryan Fitzgibbons (USRA): Lead Producer

Kate Ramsayer (Telophase Corp.): Lead Writer

Ryan Fitzgibbons (USRA): Writer

Ryan Fitzgibbons (USRA): Lead Animator

Adriana Manrique Gutierrez (USRA): Animator

Thorsten Markus (NASA/GSFC): Lead Scientist

Thomas A. Neumann Ph.D. (NASA/GSFC): Lead Scientist

Ryan Fitzgibbons (USRA): Lead Editor

Ryan Fitzgibbons (USRA): Lead Narrator

Jefferson Beck (USRA): Lead Videographer

Greg Shirah (NASA/GSFC): Lead Visualizer

John Caldwell (AIMM): Lead Videographer

Chris Meaney (KBRwyle): Lead Animator

Video credit: NASA Goddard