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By NASA
6 min read
Preparations for Next Moonwalk Simulations Underway (and Underwater)
With Voyager 2 in the background, John Casani holds a small U.S. flag that was sewn into the spacecraft’s thermal blankets before its 1977 launch. Then Voyager’s project manager, Casani was first to envision the mission’s Golden Record, which lies before him with its cover at right. NASA/JPL-Caltech During his work on several historic missions, Casani rose through a series of technical and management positions, making an indelible mark on the nation’s space program.
John R. Casani, a visionary engineer who served a central role in many of NASA’s historic deep space missions, died on Thursday, June 19, 2025, at the age of 92. He was preceded in death by his wife of 39 years, Lynn Casani, in 2008 and is survived by five sons and their families.
Casani started at the Jet Propulsion Laboratory in Southern California in 1956 and went on to work as an electronics engineer on some of the nation’s earliest spacecraft after NASA’s formation in 1958. Along with leading the design teams for both the Ranger and Mariner series of spacecraft, he held senior project positions on many of the Mariner missions to Mars and Venus, and was project manager for three trailblazing space missions: Voyager, Galileo, and Cassini.
His work helped advance NASA spacecraft in areas including mechanical technology, system design and integration, software, and deep space communications. No less demanding were the management challenges of these multifaceted missions, which led to innovations still in use today.
JPL’s John Casani receives the National Air & Space Museum’s Lifetime Achievement Award.Carolyn Russo/NASM, National Air and Space Museum, Smithsonian Institution “John had a major influence on the development of spacecraft that visited almost every planet in our solar system, as well as the people who helped build them,” said JPL director Dave Gallagher. “He played an essential role in America’s first attempts to reach space and then the Moon, and he was just as crucial to the Voyager spacecraft that marked humanity’s first foray into interplanetary — and later, interstellar — space. That Voyager is still exploring after nearly 50 years is a testament to John’s remarkable engineering talent and his leadership that enabled others to push the boundaries of possibility.”
Born in Philadelphia in 1932, Casani studied electrical engineering at the University of Pennsylvania. After a short stint at an Air Force research lab, he moved to California in 1956 and was hired to work at JPL, a division of Caltech, on the guidance system for the U.S. Army Ballistic Missile Agency’s Jupiter-C and Sergeant missile programs.
In 1957, the Soviet Union launched Sputnik 1, the first human-made Earth satellite, alarming America and changing the trajectory of both JPL and Casani’s career. With the 1958 launch of Explorer 1, America’s first satellite, the lab transitioned to concentrating on robotic space explorers, and Casani segued from missiles to spacecraft.
One of his jobs as payload engineer on Pioneer 3 and 4, NASA’s first missions to the Moon, was to carry each of the 20-inch-long (51-cm-long) probes in a suitcase from JPL to the launch site at Cape Canaveral, Florida, where he installed them in the rocket’s nose cone.
At the dawn of the 1960s, Casani served as spacecraft systems engineer for the agency’s first two Ranger missions to the Moon, then joined the Mariner project in 1965, earning a reputation for being meticulous. Four years later, he was Mariner project manager.
Asked to share some of his wisdom in a 2009 NASA presentation, Casani said, “The thing that makes any of this work … is toughness. Toughness because this is a tough business, and it’s a very unforgiving business. You can do 1,000 things right, but if you don’t do everything right, it’ll come back and bite you.”
Casani’s next role: project manager for NASA’s high-profile flagship mission to the outer planets and beyond — Voyager. He not only led the mission from clean room to space, he was first to envision attaching a message representing humanity to any alien civilization that might encounter humanity’s first interstellar emissaries.
“I approached Carl Sagan,” he said in a 2007 radio interview, “and asked him if he could come up with something that would be appropriate that we could put on our spacecraft in a way of sending a message to whoever might receive it.” Sagan took up the challenge, and what resulted was the Golden Record, a 12-inch gold-plated copper disk containing sounds and images selected to portray the diversity of life and culture on Earth.
Once Voyager 1 and 2 and their Golden Records launched in 1977, JPL wasted no time in pointing their “engineer’s engineer” toward Galileo, which would become the first mission to orbit a gas giant planet. As the mission’s initial project manager, Casani led the effort from inception to assembly. Along the way, he had to navigate several congressional attempts to end the project, necessitating multiple visits to Washington. The 1986 loss of Space Shuttle Challenger, from which Galileo was to launch atop a Centaur upper-stage booster, led to mission redesign efforts before its 1989 launch.
After 11 years leading Galileo, Casani became deputy assistant laboratory director for flight projects in 1988, received a promotion just over a year later and then, from 1990 to 1991, served as project manager of Cassini, NASA’s first flagship mission to orbit Saturn.
Casani became JPL’s first chief engineer in 1994, retiring in 1999 and serving on several nationally prominent committees, including leading the investigation boards of both the Mars Climate Orbiter and the Mars Polar Lander failures, and also leading the James Webb Space Telescope Independent Comprehensive Review Panel.
In early 2003, Casani returned to JPL to serve as project manager for NASA’s Project Prometheus, which would have been the nation’s first nuclear-powered, electric-propulsion spacecraft. In 2005, he became manager of the Institutional Special Projects Office at JPL, a position he held until retiring again in 2012.
“Throughout his career, John reflected the true spirit of JPL: bold, innovative, visionary, and welcoming,” said Charles Elachi, JPL’s director from 2001 to 2016. “He was an undisputed leader with an upbeat, fun attitude and left an indelible mark on the laboratory and NASA. I am proud to have called him a friend.”
Casani received many awards over his lifetime, including NASA’s Exceptional Achievement Medal, the Management Improvement Award from the President of the United States for the Mariner Venus Mercury mission, and the Air and Space Museum Trophy for Lifetime Achievement.
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Matthew Segal / Veronica McGregor
Jet Propulsion Laboratory, Pasadena, Calif.
818-354-8307 / 818-354-9452
matthew.j.segal@jpl.nasa.gov / veronica.c.mcgregor@jpl.nasa.gov
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Last Updated Jun 25, 2025 Related Terms
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By NASA
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Preparations for Next Moonwalk Simulations Underway (and Underwater)
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By NASA
3 min read
Preparations for Next Moonwalk Simulations Underway (and Underwater)
Boeing’s test plane simulates digital taxiing at Moffett Field at NASA’s Ames Research Center in California’s Silicon Valley. NASA/Brandon Torres Navarrete New technology tested by an industry partner at NASA’s Ames Research Center in California’s Silicon Valley could improve how commercial planes taxi to and from gates to runways, making operations safer and more efficient on the surfaces of airports.
Airport taxiways are busy. Planes come and go while support vehicles provide maintenance, carry fuel, transport luggage, and more. Pilots must listen carefully to air traffic control when getting directions to the runway – and garbled communications and heavy workloads can cause issues that could lead to runway incursions or collisions.
Researchers at Boeing are working to address these issues by digitizing taxiway information and automating aircraft taxi functions. The team traveled to NASA Ames to collaborate with researchers while testing their technology at the Moffett Federal Airfield and NASA’s FutureFlight Central, an air traffic control simulation facility.
Doug Christensen, test engineer for Air Traffic Management eXploration (ATM-X) at NASA Ames, and Mike Klein, autonomy technical leader in product development at Boeing discuss the digital taxi test in Ames’s FutureFlight Central facility.NASA/Brandon Torres Navarrete To test these new technologies, Boeing brought a custom single-engine test plane to the airfield. Working from FutureFlight Central, their researchers developed simulated taxiway instructions and deployed them to the test pilot’s digital tablet and the autonomous system.
Typically, taxiing requires verbal communication between an air traffic controller and a pilot. Boeing’s digital taxi release system displays visual turn-by-turn routes and directions directly on the pilot’s digital tablet.
“This project with Boeing lends credibility to the research being done across Ames,” said Adam Yingling, autonomy researcher for the Air Traffic Management-eXploration (ATM-X) program at NASA Ames. “We have a unique capability with our proximity to Moffett and the work Ames researchers are doing to advance air traffic capabilities and technologies to support the future of our national airspace that opens the door to work alongside commercial operators like Boeing.”
The team’s autonomous taxiing tests allowed its aircraft to follow the air traffic control’s digital instructions to transit to the runway without additional pilot inputs.
Estela Buchmann, David Shapiro, and Maxim Mounier, members of the NASA Ames ATM-X project team, analyze results of Boeing’s digital taxi test at Ames’s FutureFlight Central facility.NASA/Brandon Torres Navarrete As commercial air travel increases and airspace gets busier, pilots and air traffic controllers have to manage heavier workloads. NASA is working with commercial partners to address those challenges through initiatives like its Air Traffic Management-eXploration project, which aims to transform air traffic management to accommodate new vehicles and air transportation options.
“In order to increase the safety and efficiency of our airspace operations, NASA research in collaboration with industry can demonstrate how specific functions can be automated to chart the course for enhancing traffic management on the airport surface,” said Shivanjli Sharma, ATM-X project manager at Ames.
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By NASA
Chris Wade is a visiting vehicle integration manager for SpaceX vehicles in the International Space Station Transportation Integration Office. He plays a key role in ensuring that all vehicle requirements are on track to support SpaceX missions to the space station. Chris also manages a team of real-time mission support personnel who follow launch, docking, undocking, and splashdown operations. Read on to learn about his career with NASA and more!
Where are you from?
I am from Clarksdale, Mississippi.
Tell us about your role at NASA.
I manage horizontal integration between the SpaceX vehicle provider and the Commercial Crew and International Space Station Programs. In this role, I work to ensure all vehicle requirements will close in time to support upcoming SpaceX missions to the orbiting laboratory and achieve final certification prior to launch. Additionally, as a vehicle integration manager, I manage a team of real-time mission support personnel who follow launch, docking, undocking, and splashdown operations.
Chris Wade in Mission Control Center at Johnson Space Center following the arrival of a visiting vehicle to the International Space Station. I enjoy telling people that we have a space station that has been in low Earth orbit with people on it for nearly 25 years.
cHRIS wade
Visiting Vehicle Integration Manager for SpaceX Vehicles
How would you describe your job to family or friends who may not be familiar with NASA?
In my current position, I am responsible for ensuring SpaceX Dragon vehicles have met all requirements to conduct missions to the space station.
How long have you been working for NASA?
I have been working at Johnson Space Center for 25 years.
What advice would you give to young individuals aspiring to work in the space industry or at NASA?
I would advise young individuals to focus their studies on the STEM fields and work hard. I would also advise aspiring candidates to start applying for NASA internships as soon as feasible and don’t be opposed to opportunities in the contractor workforce.
What was your path to NASA?
My path to NASA was through the contractor workforce. I started working in space station robotic assembly analysis for Lockheed Martin directly out of college, then later became a civil servant at NASA.
Is there someone in the space, aerospace, or science industry that motivated or inspired you to work for the space program? Or someone you discovered while working for NASA who inspires you?
The Space Shuttle Challenger STS-51-L crew motivated me to pursue a career at NASA. I vividly remember watching the launch from an elementary classroom in Mississippi and thinking, I wish I could do something to help one day. When I got an opportunity to work at Johnson, it was a no-brainer for me to accept the offer.
What is your favorite NASA memory?
My favorite NASA memory is when I saw my first rocket launch, which was HTV-1 in Kagoshima, Japan.
Chris Wade accepting a group achievement award as a member of the Latching End Effector Return Team with Johnson Space Center’s Deputy Center Director Vanessa Wyche and Center Director Mark Geyer in 2019.NASA/Robert Markowitz What do you love sharing about station? What’s important to get across to general audiences to help them understand its benefits to life on Earth?
I enjoy telling people that we have a space station that has been in low Earth orbit with people on it for nearly 25 years and we rotate crews of astronauts every six months.
If you could have dinner with any astronaut, past or present, who would it be?
I would have dinner with NASA astronaut Ron McNair. Growing up in a small southern town, my path to NASA was very similar to his. I find it fascinating how individuals from different eras can end up on similar paths in life, and I would love to have a conversation with him about the choices he made that lead to his career as an astronaut.
Do you have a favorite space-related memory or moment that stands out to you?
My favorite space-related memory is watching the SpaceX Demo-2 Crew Mission arrive at the International Space Station. That was the first launch of NASA astronauts from American soil since the Space Shuttle Program had ended almost 10 years prior.
What are some of the key projects you’ve worked on during your time at NASA? What have been your favorite?
Some of the key projects I’ve worked on include:
Robotic assembly of the International Space Station Robotic visiting vehicle capture Cargo and crew dragon visiting vehicle mission certification Of these, my favorite was the robotic visiting vehicle capture project. For this project, I got to work with the Canadian Space Agency and develop a method of using the space station’s robotic arm to grab unmanned visiting resupply vehicles.
Chris Wade at Kennedy Space Center in front of NASA’s Space Launch System rocket with the Orion spacecraft aboard atop a mobile launcher at Launch Complex 39B. What are your hobbies/things you enjoy outside of work?
Some of my favorite hobbies include running, reading, listening to audio books, and visiting family and friends back in Mississippi.
Day launch or night launch?
Day launch!
Favorite space movie?
Armageddon
NASA “worm” or “meatball” logo?
Worm
Every day, we’re conducting exciting research aboard our orbiting laboratory that will help us explore further into space and bring benefits back to people on Earth. You can keep up with the latest news, videos, and pictures about space station science on the Station Research & Technology news page. It’s a curated hub of space station research digital media from Johnson and other centers and space agencies.
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Follow updates on social media at @ISS_Research on Twitter, and on the space station accounts on Facebook and Instagram.
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By NASA
The National Society of Professional Engineers recently named Debbie Korth, Orion deputy program manager at Johnson Space Center, as NASA’s 2025 Engineer of the Year. Korth was recognized during an award ceremony at the National Press Club in Washington, D.C., on Feb. 21, alongside honorees from 17 other federal agencies. The annual awards program honors the impactful contributions of federal engineers and their commitment to public service.
Debbie Korth received the NASA 2025 Engineer of the Year Award from the National Society of Professional Engineers at the National Press Club in Washington, D.C. Image courtesy of Debbie Korth Korth said she was shocked to receive the award. “At NASA there are so many brilliant, talented engineers who I get to work with every day who are so specialized and know so much about a certain area,” she said. “It was very surprising, but very appreciated.”
Korth has dedicated more than 30 years of her career to NASA, supporting human spaceflight development, integration, and operations across the Space Shuttle, International Space Station, and Orion Programs. Her earliest roles involved extravehicular and mission operations planning, as well as managing spaceflight hardware for shuttle missions and space station crews. Working on hardware such as the Crew Health Care System in the early days of space station planning and development was a unique experience for Korth.
After spending significant time in Russia collaborating with Russian counterparts to integrate equipment such as a treadmill, cycle ergometer, and blood pressure monitor into their module, Korth recalled, “When we finally got that all delivered and integrated, it was a huge step because we had to have all of that on board before we could put crew members on the station for the first time. I remember feeling a huge sense of accomplishment and happiness that we were able to work through this international partnership and forge those relationships to get that hardware integrated.”
Korth transitioned to the Orion Program in 2008 and has since served in a variety of leadership roles. In her current role, Korth assists the program manager in the design, development, testing, verification, and certification of Orion, NASA’s next-generation, human-rated spacecraft for Artemis missions. The spacecraft’s first flight test around the Moon during the Artemis I mission was a standout experience for Korth and a major accomplishment for the Orion team.
“It was a long mission and every day we were learning more and more about the spacecraft and pushing boundaries,” she said. “We really wrung out some of the core systems – systems that were developed individually and for the first time we got to see them work together.”
Korth said that understanding how different systems interact with each other is what she loves most about engineering. “In systems engineering, you really look at how changes to and the performance of one system affects everything else,” she said. “I like looking across the entire spacecraft and saying, if I have to strengthen this structure to take some additional landing loads, that’s going to add mass to the vehicle, which means I have to look at my parachutes and the thermal protection system to make sure they can handle that increased load.”
The Orion team is working to achieve two major milestones in 2025 – delivery of the Artemis II Orion spacecraft to the Exploration Ground Systems team that will fuel and integrate Orion with its launch abort system at NASA’s Kennedy Space Center, and the spacecraft’s integration with the Space Launch System rocket, which is currently being stacked. These milestones will support the launch of the first crewed mission on NASA’s path to establishing a long-term presence at the Moon for science and exploration, with liftoff targeted no earlier than April 2026.
“It’s going to be a big year,” said Korth.
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