Volunteers Worldwide Successfully Tracked NASA’s Artemis I Mission

In the year since NASA’s historic Artemis I mission successfully launched, the agency has been analyzing data from its approximately 25-day journey around the Moon and back to Earth, including data submitted from volunteers around the world as they tracked the uncrewed Orion spacecraft.

The flight test, which launched on Nov. 16, 2022, atop the agency’s powerful SLS (Space Launch System) rocket, sent the Orion spacecraft nearly 270,000 miles beyond the Moon to test the integrated rocket and spacecraft for the first time before future crewed missions.

NASA’s Space Communications and Navigation (SCaN) program selected 18 participants to attempt to passively track the Orion spacecraft. The effort helped NASA gain a better understanding of external organizations’ tracking capabilities as it seeks to augment the agency’s capabilities for tracking future missions to the Moon, Mars, and beyond.

Ten volunteers successfully tracked the Orion spacecraft during Artemis I’s uncrewed flight test to and from the Moon.

The participants – ranging from international space agencies, academic institutions, commercial companies, nonprofits, and private citizens – attempted to receive Orion’s signal and use their respective ground antennas to passively track and measure changes in the radio waves transmitted by Orion. They took measurements during three phases of the mission: the spacecraft’s journey to the Moon, its orbit around the Moon, and the journey back to Earth.  

We have spent the last few months really understanding what the data can mean for future Artemis or lunar tracking efforts.

John Hudiburg

SCaN Mission Integration and Commitment Manager

“We were happy with the engagement and have spent the last few months really understanding what the data can mean for future Artemis or lunar tracking efforts,” said John Hudiburg, SCaN Mission Integration and Commitment Manager.

Data collected from the participants was provided to Flight Dynamics Facility (FDF) analysts at NASA’s Goddard Space Flight Center in Greenbelt, Maryland, for evaluation.

“The public and industry sector’s response was very exciting,” said Flight Dynamics Facility liaison Juan Crenshaw. “It shows the worldwide interest in supporting the next era of human exploration. The Flight Dynamics Facility analysts found that the data showed promising results, with many of the participants successfully tracking Orion during its journey.”

To process the data, analysts combined it with operational data from NASA’s Deep Space Network and generated standard datasets that were easier to analyze. Analysts then compared this data against the actual Artemis I tracking data collected by engineers at NASA’s Johnson Space Center in Houston. This comparison allowed analysts to identify any errors or trends in the data.  

Some of the data submitted also revealed certain challenges. These challenges included differences in the implementation of Consultative Committee for Space Data Systems (CCSDS) standards, formatting issues with the data, data quality issues. However, these challenges help NASA understand what information should be clarified for future tracking efforts.

“NASA gained an understanding of the broader community’s capabilities, the participating organizations got to show what they can do in terms of tracking, and the Flight Dynamics Facility learned how to analyze unconventional external tracking data,” said Flight Dynamics Facility Deputy Operations Director Jason Laing. “Now, we can take the lessons learned and apply them to potential tracking opportunities for future missions.”

SCaN serves as the program office for all of NASA’s space communications and navigation activities and supports the Artemis missions through both the Near Space Network and Deep Space Network. SCaN is a part of NASA’s Space Operations Mission Directorate at NASA Headquarters in Washington.

With Artemis missions, NASA is collaborating with commercial and international partners to explore the Moon for scientific discovery and technology advancement and establish the first long-term presence on the Moon. The Moon missions will serve as training for how to live and work on another world as NASA prepares for human exploration of Mars.

By Katrina Lee

NASA’s Goddard Space Flight Center, Greenbelt, Md

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Katherine Schauer

Going for the GUSTO in Antarctica

NASA’s Wallops Flight Facility C-130 aircraft, shown in this image from Oct. 28, 2023, delivered the agency’s Galactic/Extragalactic ULDB Spectroscopic Terahertz Observatory (GUSTO) payload to McMurdo Station, Antarctica. This was the first mission to Antarctica for the plane.

The GUSTO mission, launching aboard a football-stadium-sized, zero-pressure scientific balloon in December 2023, will fly an Ultralong-Duration Balloon (ULDB) carrying a telescope with carbon, oxygen, and nitrogen emission line detectors. This unique combination of data will supply the spectral and spatial resolution information needed for the mission team to untangle the complexities of the cosmic material found between stars, and map out large sections of the plane of our Milky Way galaxy and the nearby galaxy known as the Large Magellanic Cloud.

See more photos from the C-130’s voyage to Antarctica.

Image Credit: NASA/Scott Battaion

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Monika Luabeya

Trailblazing New Earth Satellite Put to Test in Preparation for Launch

During three weeks in a thermal vacuum chamber in Bengaluru, India, the joint NASA-ISRO satellite demonstrated its hardiness in a harsh, space-like environment.

NISAR, the trailblazing Earth-observing radar satellite being developed by the United States and Indian space agencies, passed a major milestone on Nov. 13, emerging from a 21-day test aimed at evaluating its ability to function in the extreme temperatures and the vacuum of space.

Short for NASA-ISRO Synthetic Aperture Radar, NISAR is the first space hardware collaboration between NASA and the Indian Space Research Organisation, or ISRO, on an Earth-observing mission. Scheduled to launch in early 2024, the satellite will scan nearly all the planet’s land and ice twice every 12 days, monitoring the motion of those surfaces down to fractions of an inch. It will be able to observe movements from earthquakes, landslides, and volcanic activity and track dynamic changes in forests, wetlands, and agricultural lands.

The thermal vacuum test occurred at ISRO’s Satellite Integration and Test Establishment in the southern Indian city of Bengaluru. It’s one of a battery of tests the satellite will face leading to launch. Other tests will ensure it can withstand the shaking, vibration, and jostling that it will encounter during launch.

NISAR, partially covered in gold-hued thermal blanketing, entered the vacuum chamber on Oct. 19. Over the following week, engineers and technicians lowered the pressure to an infinitesimal fraction of the normal pressure at sea level. They also subjected the satellite to an 80-hour “cold soak” at 14 degrees Fahrenheit (minus 10 degrees Celsius), followed by an equally lengthy “hot soak” at up to 122 F (50 C). This simulates the temperature swings the spacecraft will experience as it is exposed to sunlight and darkness in orbit.

ISRO and JPL teams worked around the clock during the three-week period, testing the performance of the satellite’s thermal systems and its two primary science instrument systems – the L-band and S-band radars – under the most extreme temperature conditions they will experience in space.

This latest round of testing followed 20 days of testing in September in which engineers used ISRO’s compact antenna test facility to evaluate whether the radio signals from the two radar systems’ antennas passed requirements. Blue foam spikes lining the facility’s walls, floor, and ceiling prevent radio waves from bouncing around the room and interfering with measurement.

With thermal vacuum and compact antenna tests successfully done, NISAR will soon be fitted with its solar panels and its nearly 40-foot (12-meter) radar antenna reflector, which resembles a snare drum and will unfold in space at the end of a 30-foot (9-meter) boom extending from the spacecraft.

The satellite will undergo additional tests before being packed up and transported about 220 miles (350 kilometers) eastward to Satish Dhawan Space Centre, where it will be mounted atop ISRO’s Geosynchronous Satellite Launch Vehicle Mark II rocket and sent into low Earth orbit.

More About the Mission

NISAR is an equal collaboration between NASA and ISRO and marks the first time the two agencies have cooperated on hardware development for an Earth-observing mission. NASA’s Jet Propulsion Laboratory, which is managed for the agency by Caltech in Pasadena, California, leads the U.S. component of the project and is providing the mission’s L-band SAR. NASA is also providing the radar reflector antenna, the deployable boom, a high-rate communication subsystem for science data, GPS receivers, a solid-state recorder, and payload data subsystem. U R Rao Satellite Centre (URSC) in Bengaluru, which leads the ISRO component of the mission, is providing the spacecraft bus, the launch vehicle, and associated launch services and satellite mission operations. ISRO’s Space Applications Centre in Ahmedabad is providing the S-band SAR electronics.

To learn more about NISAR, visit:

https://nisar.jpl.nasa.gov/

News Media Contacts

Andrew Wang / Jane J. Lee
Jet Propulsion Laboratory, Pasadena, Calif.
626-379-6874 / 818-354-0307
andrew.wang@jpl.nasa.gov / jane.j.lee@jpl.nasa.gov

2023-167

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Joshua Abel: Delivering Roman’s Optical Telescope Assembly On Time, On Target

Name: Joshua Abel

Title: Lead systems engineer for the Roman Space Optical Telescope Assembly

Formal Job Classification: Flight Systems Design Engineer

Organization: Instrument/Payload Systems Engineering Branch (Code 592), Mission Engineering and Systems Analysis Division, Engineering and Technology Directorate

Editor’s note: The Nancy Grace Roman Space Telescope’s Optical Telescope Assembly (OTA) includes the telescope’s primary and secondary mirrors, as well as supporting optics. The OTA enables the telescope to collect light that is then delivered to the observatory instruments.

What do you do and what is most interesting about your role here at Goddard? How do you help support Goddard’s mission?

As the lead systems engineer for the Roman Space Telescope Optical Telescope Assembly, I am the government technical authority for procurement of the assembly, currently being manufactured by L3Harris Corporation in Rochester, New York. I am responsible for technical oversight of the vendor and verifying requirements.

What was your path to becoming an aerospace engineer at Goddard?

In 1999, I received a B.S. in interdisciplinary engineering focused on biomedical engineering from Purdue University. I began a master’s in biomedical engineering in bioheat transfer from Purdue University, but left in 2001 to work at Space Systems/Loral as a thermal systems engineer for satellites.

In 2005, I came to Goddard to work on Hubble Servicing Mission 4 and other NASA satellite servicing projects as a thermal systems engineer. In 2018, I began supporting the New Opportunities Office as a systems engineer, later joining the Instrument/Payload Systems Engineering Branch in my current role.

What are your goals as the lead systems engineer for the Roman Space Telescope Optical Telescope Assembly?

My goal is to deliver the assembly to the Roman observatory on time, within budget, and meeting all the technical requirements. I lead a small team of subject matter experts to review the vendor’s plans and help resolve any technical issues.

What is your management style?

I have a broad engineering background which helps me ask the right questions. I like to build consensus within the team and consolidate everyone’s work into a cohesive and understandable package, communicating complex issues both within the team and to management.

What makes Goddard special?

Everyone here loves their work and is focused on mission success. Even when conversations are difficult and the stakes are high, the emotion comes from caring so deeply. As a systems engineer, my goal is to listen to all ideas and help find the best direction for the project.

What drives you?

I try to do what is needed and contribute to the best of my ability. I am energized when someone says they need help, be it fixing things that are broken or putting new things together. I’m always excited to continue to learn from the our expert team members and vendors.

I prefer working in a team. I like the dynamic environment of systems engineering, which is full of difficult problems that need a larger group to get enough perspectives to solve.

My background and skill mix are a little bit of everything. I enjoy English, communication, math, and science. These interests help me see different sides of a problem.

I like to take things that are slow and repetitive and make them faster and more interesting for myself and others. For example, I like to write Microsoft Excel programs to analyze thermal model data and other large databases to improve productivity. 

What advice would you give young engineers?

Take whatever project you are working on and exceed expectations. Don’t be afraid to ask questions. Early tasks for young engineers are not always the most exciting, but work to the best of your ability and try to learn as much as you can. Understand the job and try to see if it can be accomplished better or faster. If you approach every task with this attitude, the next opportunity will always come.

Build your network of experts and use their lessons learned to help your project, always returning that help when you can. Oftentimes the most important piece of knowledge you’ll be able to provide your team is simply knowing who to call to for advice. All of NASA’s engineers are always willing to help.

What are your hobbies?

I play and coach soccer and I also play guitar with my three children around our fire pit. Like every engineer, I’m continually working on home improvement projects for my favorite manager, my wife, who is a thermal systems engineer at the Johns Hopkins Applied Physics Laboratory in Laurel, Maryland.

Conversations With Goddard is a collection of Q&A profiles highlighting the breadth and depth of NASA’s Goddard Space Flight Center’s talented and diverse workforce. The Conversations have been published twice a month on average since May 2011. Read past editions on Goddard’s “Our People” webpage.

By Elizabeth M. Jarrell
NASA’s Goddard Space Flight Center, Greenbelt, Md.

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Jessica Evans

Atención, oyentes de pódcasts: La NASA ya está disponible en Spotify

Read this release in English here.

La NASA publicó este martes su colección de pódcasts originales en Spotify, brindando a más gente acceso a conversaciones en profundidad e historias, así como contenidos en español, mientras la agencia trabaja para explorar lo desconocido en el aire y el espacio.

Los pódcasts de la agencia están ahora disponibles sin publicidad y sin coste alguno para los 574 millones de usuarios de Spotify.

“Contar la historia de los objetivos y misiones de la NASA inspira al mundo a soñar a lo grande y alcanzar las estrellas, especialmente a los miembros de la Generación Artemis. Estamos encantados de ampliar nuestro alcance mediante la presencia de pódcasts de la NASA en Spotify por primera vez”, dijo Marc Etkind, administrador asociado de la Oficina de Comunicaciones de la sede de la agencia en Washington.

La NASA ahora ofrece cinco pódcasts en Spotify, incluyendo:

• Universo curioso de la NASA, el primer podcast en español de la agencia:
  • Bienvenidos a Universo curioso de la NASA, en donde te invitamos a explorar el cosmos en tu idioma. En este pódcast, ¡la NASA es tu guía turística a las estrellas!

• NASA’s Curious Universe (en inglés):
  • Nuestro universo es un lugar salvaje y maravilloso. Únete a los astronautas, científicos e ingenieros de la NASA en una nueva aventura en cada episodio. ¡Todo lo que necesitas es tu curiosidad! Exploradores novatos del espacio son bienvenidos.
• Houston We Have a Podcast (en inglés):
  • Desde la órbita terrestre hasta la Luna y Marte, explora cada semana el mundo de los vuelos espaciales tripulados con la NASA en el pódcast oficial del Centro Espacial Johnson de Houston.

• On a Mission (en inglés):
  • Un viaje a las estrellas no empieza en la plataforma de lanzamiento. Descubre nuevos mundos a través de historias épicas contadas por científicos en misiones al espacio exterior.
• Small Steps Giant Leaps (en inglés):
  • El personal técnico de la NASA puso botas en la Luna, huellas de neumáticos en Marte y la primera nave espacial reutilizable en órbita alrededor de la Tierra. Descubre lo que está por venir mientras construyen misiones que redefinen el futuro con asombrosos descubrimientos y notables innovaciones.

En los próximos meses, la NASA tiene previsto incluir más productos de audio en Spotify, como sonificaciones que transforman datos en sonido y grabaciones de nuestro sistema solar y más allá.

“Mediante nuestros pódcasts, compartimos la ciencia e historias espaciales de una manera que solo la NASA puede hacer, aprovechando el acceso único que tiene la agencia a entrevistas con expertos, lugares dinámicos y descubrimientos alucinantes”, dijo Katie Konans, líder del programa de audio del contrato SESDA de ADNET Systems con la NASA. “Estamos encantados de llevar la programación de la NASA a Spotify, y estamos deseando conectar con más oyentes que sienten curiosidad por el universo que les rodea”.

Además de en Spotify, los usuarios pueden encontrar pódcasts de la NASA en Apple Podcasts, Google Podcasts y Soundcloud.

Desde entrevistas de larga duración con astronautas e ingenieros de la NASA hasta historias que llevan al público de viaje por la galaxia, la oferta de audio de la NASA permite experimentar la emoción de la exploración espacial sin tener que salir de la Tierra.

Descubre todos los pódcasts de la NASA en:

https://www.nasa.gov/podcasts/

-fin-

Abbey Donaldson / María José Viñas
Sede, Washington
202-358-1600 / 240-458-0248
abbey.a.donaldson@nasa.gov  / maria-jose.vinasgarcia@nasa.gov

Katie Konans
Centro de Vuelo Espacial Goddard, Greenbelt, Md.
katie.konans@nasa.gov

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Abbey A. Donaldson