Ham Radio in Space: Engaging with Students Worldwide for 40 Years

Ham Radio in Space: Engaging with Students Worldwide for 40 Years

5 min read

Ham Radio in Space: Engaging with Students Worldwide for 40 Years

In May 2018, a student at Mill Springs Academy in Alpharetta, Georgia, Andrew Maichle, talked to NASA astronaut Scott Tingle on the International Space Station via amateur or ham radio. The experience profoundly affected Maichle, who went on to study electrical engineering at Clemson University in South Carolina.

“It was so cool to see in real time the utmost levels of what people in science are able to accomplish, and to talk to and interact with someone at that level,” Maichle recalls. “The space station is an incredible work of engineering and to interact with someone in space was just mind-boggling. I was extraordinarily honored and very lucky to have had the opportunity.”

40 Years of Contact

As of November 2023, students have been talking to astronauts in space for 40 years. Crew members on the space shuttle Columbia first used an amateur radio to communicate with people on Earth in 1983. That program, the Shuttle Amateur Radio Experiment (SAREX), ended in 1999.

In October 2000, amateur radio equipment launched to the space station along with its first crew members, who deployed it on Nov. 13, 2000. ISS Ham Radio, also known as Amateur Radio on the International Space Station (ARISS), has operated continuously since then. Each year, the program hosts about a hundred contacts. It has now directly connected over 100 crew members with more than 250,000 participants from 49 U.S. states, 63 countries, and every continent. These experiences encourage interest in science, technology, engineering, and mathematics (STEM) education and help inspire the next generation.

“The ham radio program represents an amazing opportunity to engage with kids all over the world,” said NASA astronaut Kjell Lindgren, who participated on each of his missions. “It provides the opportunity for educators and ham operators to encourage and inspire their students with STEM topics culminating in a real-time conversation with astronauts living and working on the space station.”

Before a scheduled contact, students study related topics. They have about nine minutes to ask questions, often discussing career choices and scientific activities aboard the orbiting laboratory.

Astronaut Kjell Lindgren, wearing a black shirt, faces the control panel of the station’s ham radio set. He is holding a notepad and pen in his right hand and speaking into the microphone in his left hand.
NASA astronaut Kjell Lindgren talks on the space station’s ham radio set.
NASA

Inspiration Beyond Education

These contacts go beyond inspiring students – sometimes they encourage entire communities. Students at Canterbury School in Fort Myers, Florida, spoke with crew members on Oct. 24, 2022. Just a few weeks earlier, Hurricane Ian displaced 30 percent of the school’s population.

“Before the hurricane, our had students spent months building their own satellite tracking antenna,” said Christiana Deeter, science department head at the school. “After the storm, so many people came forward to make sure that we had what we needed. It was a great opportunity for our kids to stop looking around and look up.”

The school spoke with NASA astronaut Josh Cassada. “He has kids of his own and was just as excited as our kids were,” said Deeter. “I asked him if he had a message for the families and he talked about coming together as a community and not giving up hope. Our school was on a high the rest of the year.”

Student Isaac Deeter, wearing an astronaut costume, speaks into a microphone. Samantha Pezzi, wearing a pink dress, her hands in front of her, waits behind him and a student in a blue dress stands behind her. The school auditorium is blurred in the background.
Canterbury School student Isaac Deeter asks a question during the school’s ham radio contact while student Samantha Pezzi waits her turn.
Canterbury School

From an Astronaut’s Perspective

Ham radio also contributes to astronaut well-being. In addition to scheduled contacts, crew members often crank up the radio during free time to catch calls from around the world.

Lindgren spoke to amateur radio operators or “hams” on all seven continents. His favorite memory is connecting with eight-year-old Isabella Payne and her father Matthew Payne in the United Kingdom. “Hearing her young, accented voice cut through the static – I was very impressed to hear her calling the space station,” said Lindgren. “It made my day!”

Lindgren’s contact with Payne was on Aug. 2, 2022. On Aug.18, 2023, Payne’s school, St Peter-In-Thanet CE Primary, conducted a scheduled contact with NASA astronaut Jasmin Moghbeli.

A tablet floats in the space station cupola, the screen displaying Isabella Payne in a NASA t-shirt next to a ham radio control panel and a computer showing the ISS track over the Earth. The cupola windows are behind the tablet.
UK student Isabella Payne, who contacted NASA astronaut Kjell Lindgren via ham radio, is shown on Lindgren’s device floating in the space station.
NASA

The program also fosters international cooperation. Crew members are trained by multi-national teams. Italian teams designed and built antennas, while German teams built repeater stations that improve ham contacts. Amateur radio even serves as an emergency backup communications network for the space station.

How Schools Can Get Involved

ARISS is a partnership between NASA, amateur radio organizations, and international space agencies. While there is no cost to a host location for the contact, there may be some equipment-related costs. Scheduling is subject to mission operations and may change, so hosts need to be flexible.

The astronaut and the ham radio operator, who is the technical point of contact on the ground, must be licensed. While students do not have to be licensed, many choose to obtain their license after the experience.

Information about applying is available at www.ariss.org or can be requested from ariss@arrl.org.

The Next 40 Years

“I hope the program continues for a long time,” said Maichle. “It is so important for kids trying to figure out what you want to accomplish in life. It is cool to have that memory that sticks with you. It inspires so many people.”

And as those involved celebrate 40 years of ham radio in space, some are dreaming even bigger.

“I would love for there to be a continued amateur radio presence in human spaceflight,” said Lindgren. “I expect we’ll have a radio on the space station for as long as it operates. Then can we put a ham radio station on the Moon? Now that would be cool.”

Melissa Gaskill
International Space Station Program Research Office
Johnson Space Center

Search this database of scientific experiments to learn more about those mentioned above. Space Station Research Explorer.

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Andrea Lloyd

Crew Keeps Up Advanced Research Ahead of Cargo Mission Swap

Crew Keeps Up Advanced Research Ahead of Cargo Mission Swap

The Roscosmos Progress 84 cargo craft is pictured on May 26 docked to the Poisk module a couple of days after its arrival.
The Roscosmos Progress 84 cargo craft is pictured on May 26 docked to the Poisk module a couple of days after its arrival.

The Expedition 70 crew is continuing its advanced life science work today while gearing up for a cargo mission swap at the International Space Station this week. Meanwhile, the orbital residents also ensured exercise equipment and life support systems remain in good operating condition.

The ageing and immunity research taking place aboard the orbital outpost today is using the microgravity environment to gain biomedical insights impossible to achieve on Earth. Cells respond differently to weightlessness helping doctors understand how a variety of organisms from plants to astronauts adapt to life in space. Observations from the space biology experiments may provide advanced therapies to treat ailments on Earth and promote astronaut health on long-term missions.

NASA Flight Engineer Loral O’Hara started Tuesday wearing a vest and headband loaded with sensors that will record her health status for 48 hours. She will answer questions and download the medical data for the CIPHER human research experiment that is observing the long-term physiological and psychological effects of living in space. She then processed brain cell-like samples for the Cerebral Ageing study that seeks to understand accelerated ageing processes and neurodegenerative conditions, and possibly advance research techniques and drug development.

ESA (European Space Agency) Commander Andreas Mogensen removed blood samples from the Kubik incubator for spinning in the Human Research Facility’s centrifuge. After the samples were processed he placed them in a science freezer for later analysis for a study investigating cellular immunity in space.

NASA Flight Engineer Jasmin Moghbeli spent some time on SpaceX Dragon cargo operations then moved onto testing the operation of the COLBERT treadmill following Monday’s inspection and cleaning activities. Astronaut Satoshi Furukawa of JAXA (Japan Aerospace Exploration Agency) replaced components inside a device that scrubs carbon dioxide from the space station’s atmosphere.

The Roscosmos Progress 86 resupply ship rolled out to its launch pad today at the Baikonur Cosmodrome in Kazakhstan. The rocket, loaded with nearly 5,600 pounds of cargo, is due to launch at 4:25 a.m. EST on Thursday and automatically dock to the Poisk module at 6:14 a.m. on Saturday. Cosmonauts Oleg Kononenko and Nikolai Chub worked together on Tuesday preparing for its arrival. The duo installed and trained on hardware to monitor the approaching cargo craft and remotely control it if necessary.

The Progress 86 is replacing the Progress 84 spaceship that has been docked to Poisk since May 24. Progress 84, packed with trash and obsolete gear, will depart the station at 2:55 a.m. on Wednesday for a fiery, but safe reentry and disposal above the south Pacific Ocean about three-and-a-half hours later.

There was still plenty of time for research aboard the Roscosmos segment of orbiting lab on Tuesday. Kononenko studied futuristic spacecraft and robotic piloting techniques while Chub explored how electrical and magnetic fields in space may affect fluid systems. Cosmonaut Konstantin turned on an experiment to observe Earth’s nighttime atmosphere in the near ultraviolet wavelength then deactivated the gear following the study’s completion.

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Mark Garcia

Mariner-C Spacecraft Model

Mariner-C Spacecraft Model

A model of the Mariner-C spacecraft at the National Aeronautics and Space Administration (NASA) Lewis Research Center for a June 1964 Conference on New Technology. Mariner-C and Mariner-D were identical spacecraft designed by the Jet Propulsion Laboratory to flyby Mars and photograph the Martian surface. Mariner-C was launched on November 4, 1964, but the payload shroud did not jettison properly and the spacecraft’s battery power did not function. The mission ended unsuccessfully two days later. Mariner-D was launched as designed on November 28, 1964 and became the first successful mission to Mars. It was the first time a planet was photographed from space. Mariner-D’s 21 photographs revealed an inhospitable and barren landscape. The two Mariner spacecraft were launched by Atlas-Agena-D rockets. Lewis had taken over management of the Agena Program in October 1962. There had been five failures and two partial failures in the 17 Agena launches before being taken over by NASA Lewis. Lewis, however, oversaw 28 successful Agena missions between 1962 and 1968, including several Rangers and the Mariner Venus ’67.

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Artemis II Crew Signs NASA Moon Rocket Hardware at Marshall

Artemis II Crew Signs NASA Moon Rocket Hardware at Marshall

Artemis II Astronauts Victor Glover, Reid Wiseman, Christina Koch, and Jeremy Hansen visit Marshall Space Flight Center in Huntsville, AL on Nov. 27 and sign the Artemis II Orion stage adapter
NASA/Charles Beason

Artemis II NASA astronauts Victor Glover, Reid Wiseman, and Christina Koch of NASA, and CSA (Canadian Space Agency) astronaut Jeremy Hansen signed the Orion stage adapter for the SLS (Space Launch System) rocket at NASA’s Marshall Space Flight Center in Huntsville, Alabama, Nov. 27. The hardware is the topmost portion of the SLS rocket that they will launch atop during Artemis II when the four astronauts inside NASA’s Orion spacecraft will venture around the Moon.

Artemis II Astronaut Jeremy Hansen visits Marshall Space Flight Center in Huntsville, AL on Nov. 27 and signs the Artemis II Orion stage adapter. Artemis II Astronaut Christina Koch visits Marshall Space Flight Center in Huntsville, AL on Nov. 27 and signs the Artemis II Orion stage adapter. Artemis II Astronaut Victor Glover visits Marshall Space Flight Center in Huntsville, AL on Nov. 27 and signs the Artemis II Orion stage adapter. Artemis II Astronaut Reid Wiseman visits Marshall Space Flight Center in Huntsville, AL on Nov. 27 and signs the Artemis II Orion stage adapter.
From left, Artemis II astronauts Jeremy Hansen, Christina Koch, Victor Glover, and Reid Wiseman sign the SLS Orion stage adapter for the Artemis II mission during their visit to NASA’s Marshall Space Flight Center in Huntsville, Alabama, Nov. 27.
Image credits: NASA/Charles Beason

The Orion stage adapter is a small ring structure that connects NASA’s Orion spacecraft to the SLS rocket’s interim cryogenic propulsion stage and fully manufactured at Marshall. At five feet tall and weighing 1,800 pounds, the adapter is the smallest major element of the SLS rocket. During Artemis II, the adapter’s diaphragm will serve as a barrier to prevent gases created during launch from entering the spacecraft.

NASA is working to land the first woman and first person of color on the Moon under Artemis. SLS is part of NASA’s backbone for deep space exploration, along with the Orion spacecraft, advanced spacesuits and rovers, the Gateway in orbit around the Moon, and commercial human landing systems. SLS is the only rocket that can send Orion, astronauts, and supplies to the Moon in a single mission. Through Artemis, NASA will explore more of the lunar surface than ever before and prepare for the next giant leap: sending astronauts to Mars.

For more on NASA SLS visit:

https://www.nasa.gov/sls

News Media Contact

Corinne Beckinger
Marshall Space Flight Center, Huntsville, Ala.
256.544.0034
corinne.m.beckinger@nasa.gov

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Lee Mohon

A Miniature Mariner-C

A Miniature Mariner-C

A black and white photo of a model of the Mariner-C spacecraft against a black backdrop. The spacecraft is tilted to the left. It has a conical shape, with two solar panels and a satellite dish at the bottom.
NASA

A model of the Mariner-C spacecraft seems to float in the darkness of space in this photo from a June 1964 Conference on New Technology at NASA’s Glenn Research Center in Cleveland.

Mariner-C and Mariner-D were identical spacecraft designed by NASA’s Jet Propulsion Laboratory to fly by Mars and photograph the Martian surface. Mariner-C was launched on Nov. 4, 1964, but the mission ended unsuccessfully two days later. Mariner-D, or Mariner 4, launched on Nov. 28, 1964, and became the first successful mission to Mars, as well as the first mission to photograph a planet from space.

Build your own models of spacecraft currently exploring space.

Image Credit: NASA

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Monika Luabeya