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By NASA
4 min read
Preparations for Next Moonwalk Simulations Underway (and Underwater)
Urban air mobility means a safe and efficient system for vehicles, piloted or not, to move passengers and cargo within a city.NASA As the aviation industry evolves, new air vehicles and operators are entering the airspace. NASA is working to ensure these new diverse set of operations can be safely integrated into the current airspace. The agency is researching how traditional and emerging aircraft operations can efficiently operate in a shared airspace.
NASA’s Air Traffic Management-eXploration (ATM-X) project is a holistic approach to advancing a digital aviation ecosystem through research, development and testing. To accommodate the growing complexity and scale of new operations in Advanced Air Mobility (AAM), ATM-X leverages technologies that contribute to transforming the national airspace, improving airspace access, and making operations safer and more efficient for all users.
ATM-X fosters access to data by enhancing the availability of digital information and predictive services – including flight traffic predictions – for airspace operations.
ATM-X works closely with the Federal Aviation Administration (FAA), commercial partners, industry experts, and stakeholders in evaluating the sustainable impacts of emerging mobility solutions. ATM-X is conducting research to augment current key stakeholders that enable safe operations today such as pilots and air traffic controllers. Through these cooperations, ATM-X researches and validates technological advances in computing, communications, and increasingly automated technologies to support the continued evolution of aviation operations.
ATM-X supports the modernization of today’s air transportation system through a diverse portfolio of core capabilities, which include remotely supervised missions up through high-altitude operations. The four research subprojects under ATM-X work collaboratively to enable a robust transformation of the National Airspace System (NAS).
NASA/Maria Werries Unmanned Aircraft System Traffic Management Beyond-Visual-Line-of Sight (UTM-BVLOS)
UTM BVLOS is supporting the future of aviation by operationalizing UTM for safe use of drones in our everyday lives. UTM BVLOS is part of a new traffic management paradigm called Extensible Traffic Management (xTM) that will use digital information exchange, cooperative operating practices, and automation to provide air traffic management for remotely piloted operations for small UAS beyond an operator’s visual line of sight. This project focuses on enabling operations in a low- altitude airspace, including drone package delivery and public safety operations.
As the FAA works to authorize these types of flights, NASA’s UTM BVLOS team is working with industry to ensure these operations can be routine, safe, and efficient. One such effort is the industry-driven “Key Site Operational Evaluation” out of North Texas, where UTM BVLOS is helping to test UTM tools and services in an operational context.
Digital Information Platform (DIP)
DIP is focused on increasing access to digital information to enable increasingly sustainable and efficient operations for today and future airspace systems. DIP is prototyping a digital service-oriented framework that uses machine learning to provide information, including traffic predictions, weather information, and in-time flight trajectory updates. DIP tests and validates key services for end-to-end trajectory planning and surface operations.
DIP is engaging with the FAA, industry, flight operators, and relevant stakeholders, in a series of Sustainable Flight National Partnership – Operations demonstrations to support the United States Climate Action Plan objective of net-zero emissions by 2050. Through these types of collaborations, DIP tests and validates key services and capabilities for end-to-end trajectory planning and surface operations.
Pathfinding for Airspace with Autonomous Vehicles (PAAV)
PAAV is focused on enabling remotely piloted operations in today’s airspace, which includes assessing increasingly automated capabilities to allow safe operations across all phases of flight.
PAAV is working with key stakeholders, including the FAA, industry standards organizations, and industry partners to develop an ecosystem which helps validate standards, concepts, procedures, and technology. This research will help test and validate a broad range of tools and services that could provide critical information and functions necessary for remotely piloted operations at lower complexity airspace shared with conventional aircrafts. This includes ground-based surveillance to detect and avoid hazards, command and control communications, and relevant weather information, which is critical for safe, seamless, and scalable UAS cargo operations.
NAS Exploratory Concepts & Technologies (NExCT)
Advancements in aircraft design, power, and propulsion systems are enabling high-altitude long-endurance vehicles, such as balloons, airships, and solar aircraft to operate at altitudes of 60,000 feet and above. This airspace is referred to as “Upper Class E” airspace in the United States, or ETM. These advancements open doors to benefits ranging from increased internet coverage, improved disaster response, expanded scientific missions, to even supersonic flight. To accommodate and foster this growth, NExCT is developing a new traffic management concept in this airspace.
NExCT is working with the FAA and industry partners to extend a new concept for safely integrating and scaling air traffic across UTM, UAM, and ETM, collectively referenced as the Extensible Traffic Management (xTM) domain. Together, this research project will enable, test, and validate a common xTM framework that is efficient and safe.
ATM-X
AOSP
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Last Updated Sep 11, 2024 EditorJim BankeContactHillary Smithhillary.smith@nasa.gov Related Terms
Aeronautics Research Mission Directorate Air Traffic Management – Exploration View the full article
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By Space Force
History was made on Aug. 16, as six Space Force students out of basic military training became the first Guardians to graduate technical training at the U.S. Air Force Honor Guard at Joint Base Anacostia-Bolling.
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By NASA
2 min read
Preparations for Next Moonwalk Simulations Underway (and Underwater)
Early research at NASA’s Ames Research Center in California’s Silicon Valley — then known as NACA Ames Aeronautical Laboratory – included ground tests of “hot wing” anti-icing systems on a Lockheed 12A aircraft. NASA works every day to improve air travel – and has been doing so since its creation decades ago. On National Aviation Day, NASA and all fans of aviation get the chance to celebrate the innovative research and development the agency has produced to improve capability and safety in flight.
NASA’s Ames Research Center in California’s Silicon Valley has a historic legacy in aeronautics research. When the center was founded in 1939 by the National Advisory Committee for Aeronautics (NACA), its early research included working to reduce icing on aircraft wings.
When ice coats the wings of an airplane, it reduces lift and increases drag, which can cause the aircraft to lose altitude and control. Ames researchers developed different approaches to solve the icing challenge, including a “hot wing” thermal anti-icing system. The system worked by running hot engine exhaust along the leading edges of aircraft wings, warming them and preventing ice buildup. Ames researchers modified aircraft and tested them before traveling to Minnesota, where they were flown in icy conditions.
Today, many turbine-powered aircraft, like passenger jets, use “bleed air” anti-icing systems, which warm the leading edges of aircraft wings using compressed air from their engines. These systems are built upon the early research and testing done at Ames.
The legacy of aviation innovation continues at Ames, through aeroscience research like wind tunnel testing, air traffic management, and advanced aircraft systems.
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Last Updated Aug 19, 2024 LocationAeronautics at Ames Related Terms
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4 min read At Work and Beyond, NASA Employees Find Joy in Aviation
Article 7 hours ago 2 min read Orville Wright and National Aviation Day
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Article 3 days ago View the full article
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By NASA
2 Min Read Orville Wright and National Aviation Day
This mural by famed aviation and space artist Bob McCall was created to celebrate the achievements of Wilbur and Orville Wright and to commemorate a century of powered flight. Central to the composition is the 1903 Wright Flyer. Credits: <br> Orville Wright wasn’t sure exactly how long his first flight lasted.
He and his brother, Wilbur, think it was about 12 seconds, but according to what Orville wrote in his diary of that December day in 1903 at Kill Devil Hills, N.C., the time is “not known exactly as watch was not promptly stopped.”
It’s perhaps a minor detail given the historic significance of what had just transpired on those wind-swept, sandy dunes along the Outer Banks – namely the first ever controlled flight of a heavier-than-air machine rising by its own power.
But there is much we do know about the first flight of an airplane. With Orville at the controls, the Wright Flyer took off at 10:35 a.m. EST and flew a distance of 120 feet, about 10 feet off the ground, at a top speed of about 6.8 mph.
Three more flights followed that day, with Wilbur and Orville taking turns at the controls, the last flight by Wilbur lasting 59 seconds and covering a distance of 852 feet. The fourth flight ended hard, damaging the airplane enough to halt any more attempts.
But it was Orville who made the first flight. In honor of that fact, President Franklin Roosevelt declared in 1939 that August 19, Orville’s birthday, would be National Aviation Day – an annual occasion to celebrate the importance of aviation.
Orville was still alive when FDR issued the directive, which called on all federal buildings and installations to display the U.S. flag. The proclamation also invited citizens to observe the day with activities that promote interest in aviation.
The proclamation was codified (36 U.S. Code § 118), allowing future sitting U.S. presidents to proclaim Aug. 19 as National Aviation Day.
Although not every president since FDR has issued the proclamation every year, the broad aviation community nevertheless recognizes the day as a means to honor the legacy of Orville Wright — and his brother — and celebrate the many ways aviation touches all of our lives.
Wilbur and Orville Wright
Wilbur, left, and Orville Wright Celebrate National Aviation Day by Getting to Know our Faces of Flight
NASA / Maria Werries In honor of National Aviation Day, we’ve put together a collection of pictures, videos, and stories that showcase some of NASA Aeronautics’ aeronautical innovators who are working to safely transform aviation for the 21st century. See, watch, and read their stories with this up close and personal look,
Enjoy this special feature here!
About the Author
Jim Banke
Managing Editor/Senior WriterJim Banke is a veteran aviation and aerospace communicator with more than 35 years of experience as a writer, producer, consultant, and project manager based at Cape Canaveral, Florida. He is part of NASA Aeronautics' Strategic Communications Team and is Managing Editor for the Aeronautics topic on the NASA website.
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Last Updated Aug 18, 2024 EditorJim BankeContactJim Bankejim.banke@nasa.gov Related Terms
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