NASA’s Voyager 1 Resumes Sending Engineering Updates to Earth
NASA’s Voyager 1 spacecraft is depicted in this artist’s concept traveling through interstellar space, or the space between stars, which it entered in 2012.
After some inventive sleuthing, the mission team can — for the first time in five months — check the health and status of the most distant human-made object in existence.
For the first time since November , NASA’s Voyager 1 spacecraft is returning usable data about the health and status of its onboard engineering systems. The next step is to enable the spacecraft to begin returning science data again. The probe and its twin, Voyager 2, are the only spacecraft to ever fly in interstellar space (the space between stars).
Voyager 1 stopped sending readable science and engineering data back to Earth on Nov. 14, 2023, even though mission controllers could tell the spacecraft was still receiving their commands and otherwise operating normally. In March, the Voyager engineering team at NASA’s Jet Propulsion Laboratory in Southern California confirmed that the issue was tied to one of the spacecraft’s three onboard computers, called the flight data subsystem (FDS). The FDS is responsible for packaging the science and engineering data before it’s sent to Earth.
After receiving data about the health and status of Voyager 1 for the first time in five months, members of the Voyager flight team celebrate in a conference room at NASA’s Jet Propulsion Laboratory on April 20.
The team discovered that a single chip responsible for storing a portion of the FDS memory — including some of the FDS computer’s software code — isn’t working. The loss of that code rendered the science and engineering data unusable. Unable to repair the chip, the team decided to place the affected code elsewhere in the FDS memory. But no single location is large enough to hold the section of code in its entirety.
So they devised a plan to divide the affected code into sections and store those sections in different places in the FDS. To make this plan work, they also needed to adjust those code sections to ensure, for example, that they all still function as a whole. Any references to the location of that code in other parts of the FDS memory needed to be updated as well.
The team started by singling out the code responsible for packaging the spacecraft’s engineering data. They sent it to its new location in the FDS memory on April 18. A radio signal takes about 22 ½ hours to reach Voyager 1, which is over 15 billion miles (24 billion kilometers) from Earth, and another 22 ½ hours for a signal to come back to Earth. When the mission flight team heard back from the spacecraft on April 20, they saw that the modification worked: For the first time in five months, they have been able to check the health and status of the spacecraft.
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During the coming weeks, the team will relocate and adjust the other affected portions of the FDS software. These include the portions that will start returning science data.
Voyager 2 continues to operate normally. Launched over 46 years ago , the twin Voyager spacecraft are the longest-running and most distant spacecraft in history. Before the start of their interstellar exploration, both probes flew by Saturn and Jupiter, and Voyager 2 flew by Uranus and Neptune.
Caltech in Pasadena, California, manages JPL for NASA.
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How NASA Repaired Voyager 1 From 15 Billion Miles Away
Engineers have partially restored a 1970s-era computer on NASA's Voyager 1 spacecraft after five months of long-distance troubleshooting , building confidence that humanity's first interstellar probe can eventually resume normal operations.
Several dozen scientists and engineers gathered Saturday in a conference room at NASA's Jet Propulsion Laboratory, or connected virtually, to wait for a new signal from Voyager 1. The ground team sent a command up to Voyager 1 on Thursday to recode part of the memory of the spacecraft's Flight Data Subsystem (FDS) , one of the probe's three computers.
“In the minutes leading up to when we were going to see a signal, you could have heard a pin drop in the room,” said Linda Spilker, project scientist for NASA's two Voyager spacecraft at JPL. “It was quiet. People were looking very serious. They were looking at their computer screens. Each of the subsystem (engineers) had pages up that they were looking at, to watch as they would be populated.”
Finally, a Breakthrough
Launched nearly 47 years ago, Voyager 1 is flying on an outbound trajectory more than 15 billion miles (24 billion kilometers) from Earth, and it takes 22.5 hours for a radio signal to cover that distance at the speed of light. This means it takes nearly two days for engineers to uplink a command to Voyager 1 and get a response.
In November, Voyager 1 suddenly stopped transmitting its usual stream of data containing information about the spacecraft's health and measurements from its scientific instruments. Instead, the spacecraft's datastream was entirely unintelligible. Because the telemetry was unreadable, experts on the ground could not easily tell what went wrong. They hypothesized the source of the problem might be in the memory bank of the FDS.
There was a breakthrough last month when engineers sent up a novel command to “poke” Voyager 1's FDS to send back a readout of its memory. This readout allowed engineers to pinpoint the location of the problem in the FDS memory . The FDS is responsible for packaging engineering and scientific data for transmission to Earth.
After a few weeks, NASA was ready to uplink a solution to get the FDS to resume packing engineering data. This datastream includes information on the status of the spacecraft—things like power levels and temperature measurements. This command went up to Voyager 1 through one of NASA's large Deep Space Network antennae on Thursday.
Then, the wait for a response. Spilker, who started working on Voyager right out of college in 1977, was in the room when Voyager 1's signal reached Earth on Saturday.
“When the time came to get the signal, we could clearly see all of a sudden, boom, we had data, and there were tears and smiles and high fives,” she told Ars. “Everyone was very happy and very excited to see that, hey, we're back in communication again with Voyager 1. We're going to see the status of the spacecraft, the health of the spacecraft, for the first time in five months.”
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Throughout the five months of troubleshooting, Voyager's ground team continued to receive signals indicating the spacecraft was still alive. But until Saturday, they lacked insight into specific details about the status of Voyager 1.
“It’s pretty much just the way we left it,” Spilker said. “We're still in the initial phases of analyzing all of the channels and looking at their trends. Some of the temperatures went down a little bit with this period of time that's gone on, but we're pretty much seeing everything we had hoped for. And that's always good news.”
Relocating Code
Through their investigation, Voyager's ground team discovered that a single chip responsible for storing a portion of the FDS memory had stopped working, probably due to either a cosmic ray hit or a failure of aging hardware. This affected some of the computer's software code.
“That took out a section of memory,” Spilker said. “What they have to do is relocate that code into a different portion of the memory, and then make sure that anything that uses those codes, those subroutines, know to go to the new location of memory, for access and to run it.”
Only about 3 percent of the FDS memory was corrupted by the bad chip, so engineers needed to transplant that code into another part of the memory bank. But no single location is large enough to hold the section of code in its entirety, NASA said.
So the Voyager team divided the code into sections for storage in different places in the FDS. This wasn't just a copy-and-paste job. Engineers needed to modify some of the code to make sure it will all work together. “Any references to the location of that code in other parts of the FDS memory needed to be updated as well,” NASA said in a statement.
Newer NASA missions have hardware and software simulators on the ground, where engineers can test new procedures to make sure they do no harm when they uplink commands to the real spacecraft. Due to its age, Voyager doesn't have any ground simulators, and much of the mission's original design documentation remains in paper form and hasn't been digitized.
“It was really eyes-only to look at the code,” Spilker said. “So we had to triple check. Everybody was looking through and making sure we had all of the links coming together.”
This was just the first step in restoring Voyager 1 to full functionality. “We were pretty sure it would work, but until it actually happened, we didn't know 100 percent for sure,” Spilker said.
“The reason we didn’t do everything in one step is that there was a very limited amount of memory we could find quickly, so we prioritized one data mode (the engineering data mode), and relocated only the code to restore that mode,” said Jeff Mellstrom, a JPL engineer who leads the Voyager 1 “tiger team” tasked with overcoming this problem.
“The next step, to relocate the remaining three actively used science data modes, is essentially the same,” Mellstrom said in a written response to Ars. “The main difference is the available memory constraint is now even tighter. We have ideas where we could relocate the code, but we haven’t yet fully assessed the options or made a decision. These are the first steps we will start this week.”
It could take “a few weeks” to go through the sections of code responsible for packaging Voyager 1's science data in the FDS, Spilker said.
That will be the key payoff, Spilker said. Voyager 1 and its twin spacecraft, Voyager 2, are the only operating probes flying in the interstellar medium, the diffuse gas between the stars. Their prime missions are long over. Voyager 1 flew by Jupiter and Saturn in 1979 and 1980, then got a gravitational boost toward the outer edge of the Solar System. Voyager 2 took a slower trajectory and encountered Jupiter, Saturn, Uranus, and Neptune.
For the past couple of decades, NASA has devoted Voyager's instruments to studying cosmic rays, the magnetic field, and the plasma environment in interstellar space. They're not taking pictures anymore. Both probes have traveled beyond the heliopause, where the flow of particles emanating from the Sun runs into the interstellar medium.
But any scientific data collected by Voyager 1 since November 14 has been lost. The spacecraft does not have the ability to store science data onboard. Voyager 2 has remained operational during the outage of Voyager 1.
Scientists are eager to get their hands on Voyager 1's science data again. “With the results we got on Saturday, we have new confidence that we can put together the pieces we need to now get back the science data,” Spilker said.
“One thing I'm particularly excited about—there's this feature in the Voyager 1 data. We nicknamed it Pressure Front 2,” Spilker said. “Pressure Front 2 is a jump in both the density of the plasma around the spacecraft and the magnetic field. It's lasted for three-and-a-half years.”
“We'd like to see, is this still there?” she continued. “It's different from what we've seen in the past, and we're trying to figure out, is it some influence coming from the Sun, or is it actually something coming from interstellar space that's creating this feature? So we'd like to see it again, get more data, and be able to study it more carefully.”
This story originally appeared on Ars Technica .
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NASA hears from Voyager 1, the most distant spacecraft from Earth, after months of quiet
This illustration provided by NASA depicts Voyager 1. The most distant spacecraft from Earth stopped sending back understandable data in November 2023. Flight controllers traced the blank communication to a bad computer chip and rearranged the spacecraft’s coding to work around the trouble. In mid-April 2024, NASA’s Jet Propulsion Laboratory declared success after receiving good engineering updates. The team is still working to restore transmission of the science data. (NASA via AP)
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CAPE CANAVERAL, Fla. (AP) — NASA has finally heard back from Voyager 1 again in a way that makes sense.
The most distant spacecraft from Earth stopped sending back understandable data last November. Flight controllers traced the blank communication to a bad computer chip and rearranged the spacecraft’s coding to work around the trouble.
NASA’s Jet Propulsion Laboratory in Southern California declared success after receiving good engineering updates late last week. The team is still working to restore transmission of the science data.
It takes 22 1/2 hours to send a signal to Voyager 1, more than 15 billion miles (24 billion kilometers) away in interstellar space. The signal travel time is double that for a round trip.
Contact was never lost, rather it was like making a phone call where you can’t hear the person on the other end, a JPL spokeswoman said Tuesday.
Launched in 1977 to study Jupiter and Saturn, Voyager 1 has been exploring interstellar space — the space between star systems — since 2012. Its twin, Voyager 2, is 12.6 billion miles (20 billion kilometers) away and still working fine.
The Associated Press Health and Science Department receives support from the Howard Hughes Medical Institute’s Science and Educational Media Group. The AP is solely responsible for all content.
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NASA's Voyager 1 resumes sending engineering updates to Earth
For the first time since November, NASA's Voyager 1 spacecraft is returning usable data about the health and status of its onboard engineering systems. The next step is to enable the spacecraft to begin returning science data again. The probe and its twin, Voyager 2, are the only spacecraft to ever fly in interstellar space (the space between stars).
Voyager 1 stopped sending readable science and engineering data back to Earth on Nov. 14, 2023, even though mission controllers could tell the spacecraft was still receiving their commands and otherwise operating normally. In March, the Voyager engineering team at NASA's Jet Propulsion Laboratory in Southern California confirmed that the issue was tied to one of the spacecraft's three onboard computers, called the flight data subsystem (FDS). The FDS is responsible for packaging the science and engineering data before it's sent to Earth.
The team discovered that a single chip responsible for storing a portion of the FDS memory—including some of the FDS computer's software code—isn't working. The loss of that code rendered the science and engineering data unusable. Unable to repair the chip, the team decided to place the affected code elsewhere in the FDS memory. But no single location is large enough to hold the section of code in its entirety.
So they devised a plan to divide the affected code into sections and store those sections in different places in the FDS. To make this plan work, they also needed to adjust those code sections to ensure, for example, that they all still function as a whole. Any references to the location of that code in other parts of the FDS memory needed to be updated as well.
The team started by singling out the code responsible for packaging the spacecraft's engineering data. They sent it to its new location in the FDS memory on April 18. A radio signal takes about 22.5 hours to reach Voyager 1, which is over 15 billion miles (24 billion kilometers) from Earth, and another 22.5 hours for a signal to come back to Earth. When the mission flight team heard back from the spacecraft on April 20, they saw that the modification had worked: For the first time in five months, they were able to check the health and status of the spacecraft.
During the coming weeks, the team will relocate and adjust the other affected portions of the FDS software. These include the portions that will start returning science data.
Voyager 2 continues to operate normally. Launched over 46 years ago, the twin Voyager spacecraft are the longest-running and most distant spacecraft in history. Before the start of their interstellar exploration, both probes flew by Saturn and Jupiter, and Voyager 2 flew by Uranus and Neptune.
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NASA finds clue while solving Voyager 1's communication breakdown case
An outlier signal has brought ground control closer to decoding the troubling problem.
NASA engineers are a step closer to solving the communication problem that left the Voyager 1 spacecraft, which presently sits outside the solar system, unable to send usable data back to Earth.
In 2012, Voyager 1 became the first human-made object to leave the solar system and enter interstellar space . For 11 years following this achievement, the spacecraft dutifully sent data to ground control. This was data that detailed how space works beyond the influence of the sun. In Nov. 2023, however, Voyager 1's communications with ground operators stopped making sense.
To be clear, however, Voyager 2 , which followed its spacecraft sibling out of the solar system in 2018, is still operational and communicating with Earth.
"Effectively, the call between the spacecraft and the Earth was still connected, but Voyager's 'voice' was replaced with a monotonous dial tone," Voyager 1's engineering team previously told Space.com .
The source of the issue appears to be one of Voyager 1's three onboard computers: The flight data subsystem (FDS). This computer, NASA says , is responsible for packaging science and engineering data before it's sent to Earth by the spacecraft's telemetry modulation unit.
Related: NASA's Voyager 1 glitch has scientists sad yet hopeful: 'Voyager 2 is still going strong'
The positive step towards solving communications issues between ground control and Voyager 1 came on March 3 when the Voyager mission team detected activity from one section of the FDS that was different from the rest of the computer’s garbled data stream.
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Voyager 1's messaging to Earth comes in the form of 1s and 0s, a computer language called binary code — but since the end of last year, this code has carried no meaning. Even the newly detected signal is still not in the correct format Voyager 1 should be using when FDS is functioning as designed, meaning the operating team was initially not quite sure what to make of it.
This changed, however, when an engineer at NASA's Deep Space Network , which is tasked with operating radio antennas that communicate with Voyager 1 and its interstellar sibling Voyager 2, as well as other NASA spacecraft closer to home, got a look at the code. The unnamed engineer was able to decode the outlier signal, discovering that it contained a readout of the FDS' entire memory.
Encoded with the FDS memory are performance instructions and code values that can change either if the spacecraft's status changes or if commanded to do so. Science and engineering data to be sent back to Earth are also locked up in the memory.
The team will now compare this new signal, which occurred because of a prompt, or "poke," from mission control, to data that was sent back to Earth just before Voyager 1 started spouting binary nonsense. Finding discrepancies between regular Voyager 1 data and this poke-prompted signal will help the crew hunt for the source of the issue. The idea of the poke was to prompt FDS to try using different sequences in its software package and determine if the communication issue could be resolved by navigating around a corrupted or damaged section.
— Voyager 2: An iconic spacecraft that's still exploring 45 years on
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Voyager 1 is currently around 15 billion miles (24 billion kilometers) from Earth, meaning that solving communication issues can be a painstaking process. It takes 22.5 hours to receive a radio signal from Voyager 1, then another 22.5 hours to receive a response via the Deep Space Network's antennas.
That means the results of NASA's poke were received on March 3, and on March 7 engineers started working to decode this signal. Three days later they determined the signal contains an FDS memory readout.
NASA scientists and engineers will continue to analyze this readout to restore communication with the pioneering space mission that extended humanity's reach beyond the solar system.
Join our Space Forums to keep talking space on the latest missions, night sky and more! And if you have a news tip, correction or comment, let us know at: [email protected].
Robert Lea is a science journalist in the U.K. whose articles have been published in Physics World, New Scientist, Astronomy Magazine, All About Space, Newsweek and ZME Science. He also writes about science communication for Elsevier and the European Journal of Physics. Rob holds a bachelor of science degree in physics and astronomy from the U.K.’s Open University. Follow him on Twitter @sciencef1rst.
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Voyager 1 transmitting data again after Nasa remotely fixes 46-year-old probe
Engineers spent months working to repair link with Earth’s most distant spacecraft, says space agency
Earth’s most distant spacecraft, Voyager 1, has started communicating properly again with Nasa after engineers worked for months to remotely fix the 46-year-old probe.
Nasa’s Jet Propulsion Laboratory (JPL), which makes and operates the agency’s robotic spacecraft, said in December that the probe – more than 15bn miles (24bn kilometres) away – was sending gibberish code back to Earth.
In an update released on Monday , JPL announced the mission team had managed “after some inventive sleuthing” to receive usable data about the health and status of Voyager 1’s engineering systems. “The next step is to enable the spacecraft to begin returning science data again,” JPL said. Despite the fault, Voyager 1 had operated normally throughout, it added.
Launched in 1977, Voyager 1 was designed with the primary goal of conducting close-up studies of Jupiter and Saturn in a five-year mission. However, its journey continued and the spacecraft is now approaching a half-century in operation.
Voyager 1 crossed into interstellar space in August 2012, making it the first human-made object to venture out of the solar system. It is currently travelling at 37,800mph (60,821km/h).
Hi, it's me. - V1 https://t.co/jgGFBfxIOe — NASA Voyager (@NASAVoyager) April 22, 2024
The recent problem was related to one of the spacecraft’s three onboard computers, which are responsible for packaging the science and engineering data before it is sent to Earth. Unable to repair a broken chip, the JPL team decided to move the corrupted code elsewhere, a tricky job considering the old technology.
The computers on Voyager 1 and its sister probe, Voyager 2, have less than 70 kilobytes of memory in total – the equivalent of a low-resolution computer image. They use old-fashioned digital tape to record data.
The fix was transmitted from Earth on 18 April but it took two days to assess if it had been successful as a radio signal takes about 22 and a half hours to reach Voyager 1 and another 22 and a half hours for a response to come back to Earth. “When the mission flight team heard back from the spacecraft on 20 April, they saw that the modification worked,” JPL said.
Alongside its announcement, JPL posted a photo of members of the Voyager flight team cheering and clapping in a conference room after receiving usable data again, with laptops, notebooks and doughnuts on the table in front of them.
The Retired Canadian astronaut Chris Hadfield, who flew two space shuttle missions and acted as commander of the International Space Station, compared the JPL mission to long-distance maintenance on a vintage car.
“Imagine a computer chip fails in your 1977 vehicle. Now imagine it’s in interstellar space, 15bn miles away,” Hadfield wrote on X . “Nasa’s Voyager probe just got fixed by this team of brilliant software mechanics.
Voyager 1 and 2 have made numerous scientific discoveries , including taking detailed recordings of Saturn and revealing that Jupiter also has rings, as well as active volcanism on one of its moons, Io. The probes later discovered 23 new moons around the outer planets.
As their trajectory takes them so far from the sun, the Voyager probes are unable to use solar panels, instead converting the heat produced from the natural radioactive decay of plutonium into electricity to power the spacecraft’s systems.
Nasa hopes to continue to collect data from the two Voyager spacecraft for several more years but engineers expect the probes will be too far out of range to communicate in about a decade, depending on how much power they can generate. Voyager 2 is slightly behind its twin and is moving slightly slower.
In roughly 40,000 years, the probes will pass relatively close, in astronomical terms, to two stars. Voyager 1 will come within 1.7 light years of a star in the constellation Ursa Minor, while Voyager 2 will come within a similar distance of a star called Ross 248 in the constellation of Andromeda.
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Voyager 1 Sends Clear Data to NASA for the First Time in Five Months
The farthest spacecraft from Earth had been transmitting nonsense since November, but after an engineering tweak, it finally beamed back a report on its health and status
Will Sullivan
Daily Correspondent
For the first time in five months, NASA has received usable data from Voyager 1, the farthest spacecraft from Earth.
The aging probe, which has traveled more than 15 billion miles into space, stopped transmitting science and engineering data on November 14. Instead, it sent NASA a nonsensical stream of repetitive binary code . For months, the agency’s engineers undertook a slow process of trial and error, giving the spacecraft various commands and waiting to see how it responded. Thanks to some creative thinking, the team identified a broken chip on the spacecraft and relocated some of the code that was stored there, according to the agency .
NASA is now receiving data about the health and status of Voyager 1’s engineering systems. The next step is to get the spacecraft to start sending science data again.
“Today was a great day for Voyager 1,” Linda Spilker , a Voyager project scientist at NASA’s Jet Propulsion Laboratory (JPL), said in a statement over the weekend, per CNN ’s Ashley Strickland. “We’re back in communication with the spacecraft. And we look forward to getting science data back.”
Hi, it's me. - V1 https://t.co/jgGFBfxIOe — NASA Voyager (@NASAVoyager) April 22, 2024
Voyager 1 and its companion, Voyager 2, separately launched from Earth in 1977. Between the two of them, the probes have studied all four giant planets in the outer solar system—Jupiter, Saturn, Uranus and Neptune—along with 48 of their moons and the planets’ magnetic fields. The spacecraft observed Saturn’s rings in detail and discovered active volcanoes on Jupiter’s moon Io .
Originally designed for a five-year mission within our solar system, both probes are still operational and chugging along through space, far beyond Pluto’s orbit. In 2012, Voyager 1 became the first human-made object to reach interstellar space, the area between stars. The probe is now about eight times farther from the sun than Uranus is on average.
Over the decades, the Voyager spacecraft have transmitted data collected on their travels back to NASA scientists. But in November, Voyager 1 started sending gibberish .
Engineers determined Voyager 1’s issue was with one of three onboard computers, called the flight data system (FDS), NASA said in a December blog post . While the spacecraft was still receiving and executing commands from Earth, the FDS was not communicating properly with a subsystem called the telemetry modulation unit (TMU). The FDS collects science and engineering data and combines it into a package that the TMU transmits back to Earth.
Since Voyager 1 is so far away, testing solutions to its technical issues requires time—it takes 22.5 hours for commands to reach the probe and another 22.5 hours for Voyager 1’s response to come back.
On March 1, engineers sent a command that coaxed Voyager 1 into sending a readout of the FDS memory, NASA said in a March 13 blog post . From that readout, the team confirmed a small part—about 3 percent—of the system’s memory had been corrupted, NASA said in an April 4 update .
The core of the problem turned out to be a faulty chip hosting some software code and part of the FDS memory. NASA doesn’t know what caused the chip to stop working—it could be that a high-energy particle from space collided with it, or the chip might have just run out of steam after almost 50 years spent hurtling through the cosmos.
“It’s the most serious issue we’ve had since I’ve been the project manager, and it’s scary because you lose communication with the spacecraft,” Suzanne Dodd , Voyager project manager at JPL, told Scientific American ’s Nadia Drake in March.
To receive usable data again, the engineers needed to move the affected code somewhere else that wasn’t broken. But no single location in the FDS memory was large enough to hold all of the code, so the engineers divided it into chunks and stored it in multiple places, per NASA .
The team started with moving the code responsible for sending Voyager’s status reports, sending it to its new location in the FDS memory on April 18. They received confirmation that the strategy worked on April 20, when the first data on the spacecraft’s health since November arrived on Earth.
In the next several weeks, the team will relocate the parts of the FDS software that can start returning science data.
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Will Sullivan is a science writer based in Washington, D.C. His work has appeared in Inside Science and NOVA Next .
Voyager 1 was 15 billion miles from home and broken. Here's what NASA did to fix it.
A scrambled computer signal helped NASA engineers resume data transmission from the distant Voyager 1, a spacecraft that was launched in 1977 and now, 15 billion miles from home, is the farthest a human-made object has traveled from Earth.
Voyager 1 – and its sister craft, Voyager 2 – are robotic space probes that became the first spacecraft to leave our solar system and plunge into interstellar space, 11 billion miles from the sun.
Step by step: Details on Voyager 1 fix .
They were designed to last five years , but have become the longest-operating spacecraft in history. Both carry gold-plated copper discs containing sounds and images from Earth, contents that were chosen by a team headed by celebrity astronomer Carl Sagan .
Voyager 2, now 12.7 billion miles from Earth, is functioning normally. However, a computer problem aboard Voyager 1 on Nov. 14, 2023, corrupted the stream of science and engineering data the craft is sending to Earth, making it unreadable , arstechnica.com reported.
Voyager 1 was able to receive communications from Earth and was still transmitting, but its returning signals were a " monotonous dial tone ,” according to space.com.
Unable to see our graphics? Click here to see them .
What's the problem with Voyager 1?
NASA and Jet Propulsion Laboratory engineers traced the problem to one of Voyager’s three onboard computers, one called a Flight Data Subsystem. The system collects information, including:
◾ Data from science instruments that monitor cosmic rays, solar wind particles, the sun's magnetic field, and other phenomena.
◾ Engineering data on spacecraft operating systems.
The Flight Data Subsystem gives that information to the spacecraft’s Telemetry Modulation Unit. The The unit converts the data to binary code – consisting of zeros and ones, the simplest form of computer code – then transmits that code to Earth, using Voyager's 12-foot antenna dish.
The data is received by NASA's Deep Space Network , giant 112-foot radio antennas placed around the world. The network handles space communications from several missions.
In November, the Telemetry Modulation Unit transmissions became a repeating pattern of zeros and ones " as if it were stuck ," NASA said.
Engineers restarted the Flight Data System in December, but that failed to fix the problem.
Voyager 1 is far away – and it's getting old
Voyager 1 has been in space for more than 46 years. Attempts to fix problems aboard the spacecraft often mean "consulting original, decades-old documents written by engineers who didn’t anticipate the issues that are arising today," NASA says.
Engineers have consulted archived documents to find solutions to other Voyager problems in the past, wired.com says.
Engineers need time to understand how new commands will affect the spacecraft and to avoid unintended consequences. It's a complicated, time-consuming process.
A long time lag makes solving the problem more difficult. Voyager is moving at about 38,000 mph. It takes 22.5 hours for an Earth radio signal to reach Voyager and another 22.5 hours for the spacecraft’s reply to reach antenna networks on Earth.
That means engineers must wait 45 hours to get a response and learn if a command has been successful.
What was the key computer signal?
The key signal was received after engineers "poked" the spacecraft.
◾ March 1: Teams send a command known as a “poke” to Voyager. In essence, the poke tells the Flight Data System to try different sequences in its software program, in the hope a corrupted portion can be found and bypassed.
◾ March 3: Engineers receive a new signal from Voyager that is different from both the unreadable dial tone and the spacecraft’s original transmission stream.
◾ March 7: Engineers begin decoding the signal.
◾ March 10: A Deep Space Network engineer finishes decoding the new signal and finds it contains a readout of the spacecraft’s entire Flight Data System memory. That includes instructions for the spacecraft when it receives commands or when its operational status changes.
◾ April 4: Engineers trace the problem to a chip in the FDS but are not sure what caused the problem. It could have been hit by an energetic particle from space or was simply worn out because of age, NASA says.
◾ April 18: Controllers send a command to Voyager to reposition the code.
◾ April 20: Voyager sends a transmission indicating the repositioning has worked.
What happens next?
Engineers will reposition the other sections of the code to allow Voyager to resume transmitting science data.
Voyager 2 was launched first on Aug. 20, 1977. Voyager 1 was launched Sept. 5, 1977. It was put on a faster, shorter trajectory, which took it to interstellar space ahead of Voyager 2.
The Voyagers are the only spacecraft in the interstellar void. NASA's New Horizons probe , launched Jan. 19, 2006, flew past Pluto in 2015 and is expected to enter interstellar space in the 2040s.
SOURCE USA TODAY Network reporting and research; NASA/Jet Propulsion Laboratory/California Institute of Technology; Reuters
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Some hope —
Finally, engineers have a clue that could help them save voyager 1, a new signal from humanity's most distant spacecraft could be the key to restoring it..
Stephen Clark - Mar 15, 2024 11:23 pm UTC
It's been four months since NASA's Voyager 1 spacecraft sent an intelligible signal back to Earth, and the problem has puzzled engineers tasked with supervising the probe exploring interstellar space.
But there's a renewed optimism among the Voyager ground team based at NASA's Jet Propulsion Laboratory in California. On March 1, engineers sent a command up to Voyager 1—more than 15 billion miles (24 billion kilometers) away from Earth—to "gently prompt" one of the spacecraft's computers to try different sequences in its software package. This was the latest step in NASA's long-distance troubleshooting to try to isolate the cause of the problem preventing Voyager 1 from transmitting coherent telemetry data.
Cracking the case
Officials suspect a piece of corrupted memory inside the Flight Data Subsystem (FDS), one of three main computers on the spacecraft, is the most likely culprit for the interruption in normal communication. Because Voyager 1 is so far away, it takes about 45 hours for engineers on the ground to know how the spacecraft reacted to their commands—the one-way light travel time is about 22.5 hours.
The FDS collects science and engineering data from the spacecraft's sensors, then combines the information into a single data package, which goes through a separate component called the Telemetry Modulation Unit to beam it back to Earth through Voyager's high-gain antenna.
Engineers are almost entirely certain the problem is in the FDS computer. The communications systems onboard Voyager 1 appear to be functioning normally, and the spacecraft is sending a steady radio tone back to Earth, but there's no usable data contained in the signal. This means engineers know Voyager 1 is alive, but they have no insight into what part of the FDS memory is causing the problem.
But Voyager 1 responded to the March 1 troubleshooting command with something different from what engineers have seen since this issue first appeared on November 14.
"The new signal was still not in the format used by Voyager 1 when the FDS is working properly, so the team wasn’t initially sure what to make of it," NASA said in an update Wednesday. "But an engineer with the agency’s Deep Space Network, which operates the radio antennas that communicate with both Voyagers and other spacecraft traveling to the Moon and beyond, was able to decode the new signal and found that it contains a readout of the entire FDS memory."
Now, engineers are meticulously comparing each bit of code from the FDS memory readout to the memory readout Voyager 1 sent back to Earth before the issue arose in November. This, they hope, will allow them to find the root of the problem. But it will probably take weeks or months for the Voyager team to take the next step. They don't want to cause more harm.
"Using that information to devise a potential solution and attempt to put it into action will take time," NASA said.
This is perhaps the most serious ailment the spacecraft has encountered since its launch in 1977. Voyager 1 flew by Jupiter and Saturn before getting a kick from Saturn's gravity to speed into the outer solar system. In 2012, Voyager 1 entered interstellar space when it crossed the heliopause, where the solar wind, the stream of particles emanating from the Sun, push against a so-called galactic wind, the particles that populate the void between the stars.
Engineers have kept Voyager 1 and its twin, Voyager 2, alive for more than 46 years , overcoming technical problems that have doomed other space missions. Both probes face waning power from their nuclear batteries, and there are concerns about their thrusters aging and fuel lines becoming clogged, among other things. But each time there is a problem, ground teams have come up with a trick to keep the Voyagers going, often referencing binders of fraying blueprints and engineering documents from the spacecraft's design and construction nearly 50 years ago.
Suzanne Dodd, NASA's project manager for Voyager 1 and its twin, Voyager 2, recently told Ars that engineers would need to pull off their "biggest miracle" to restore Voyager 1 to normal operations. Now, Voyager 1's voice from the sky has provided engineers with a clue that could help them realize this miracle.
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Voyager 1 is sending data back to Earth for the first time in 5 months
Sign up for CNN’s Wonder Theory science newsletter. Explore the universe with news on fascinating discoveries, scientific advancements and more .
For the first time in five months, NASA engineers have received decipherable data from Voyager 1 after crafting a creative solution to fix a communication problem aboard humanity’s most distant spacecraft in the cosmos.
Voyager 1 is currently about 15 billion miles (24 billion kilometers) away, and at 46 years old, the probe has shown multiple quirks and signs of aging in recent years.
The latest issue experienced by Voyager 1 first cropped up in November 2023, when the flight data system’s telemetry modulation unit began sending an indecipherable repeating pattern of code .
Voyager 1’s flight data system collects information from the spacecraft’s science instruments and bundles it with engineering data that reflects its current health status. Mission control on Earth receives that data in binary code, or a series of ones and zeroes.
But since November, Voyager 1’s flight data system had been stuck in a loop. While the probe has continued to relay a steady radio signal to its mission control team on Earth over the past few months, the signal did not carry any usable data.
The mission team received the first coherent data about the health and status of Voyager 1’s engineering systems on April 20. While the team is still reviewing the information, everything they’ve seen so far suggests Voyager 1 is healthy and operating properly.
“Today was a great day for Voyager 1,” said Linda Spilker, Voyager project scientist at JPL, in a statement Saturday. “We’re back in communication with the spacecraft. And we look forward to getting science data back.”
The breakthrough came as the result of a clever bit of trial and error and the unraveling of a mystery that led the team to a single chip.
Troubleshooting from billions of miles away
After discovering the issue, the mission team attempted sending commands to restart the spacecraft’s computer system and learn more about the underlying cause of the problem.
The team sent a command called a “poke” to Voyager 1 on March 1 to get the flight data system to run different software sequences in the hopes of finding out what was causing the glitch.
On March 3, the team noticed that activity from one part of the flight data system stood out from the rest of the garbled data. While the signal wasn’t in the format the Voyager team is used to seeing when the flight data system is functioning as expected, an engineer with NASA’s Deep Space Network was able to decode it.
The Deep Space Network is a system of radio antennae on Earth that help the agency communicate with the Voyager probes and other spacecraft exploring our solar system.
The decoded signal included a readout of the entire flight data system’s memory.
By investigating the readout, the team determined the cause of the issue: 3% of the flight data system’s memory is corrupted . A single chip responsible for storing part of the system’s memory, including some of the computer’s software code, isn’t working properly. While the cause of the chip’s failure is unknown, it could be worn out or may have been hit by an energetic particle from space, the team said.
The loss of the code on the chip caused Voyager 1’s science and engineering data to be unusable.
Since there was no way to repair the chip, the team opted to store the affected code from the chip elsewhere in the system’s memory. While they couldn’t pinpoint a location large enough to hold all of the code, they were able to divide the code into sections and store it in different spots within the flight data system.
“To make this plan work, they also needed to adjust those code sections to ensure, for example, that they all still function as a whole,” according to an update from NASA . “Any references to the location of that code in other parts of the (flight data system) memory needed to be updated as well.”
After determining the code necessary for packaging Voyager 1’s engineering data, engineers sent a radio signal to the probe commanding the code to a new location in the system’s memory on April 18.
Given Voyager 1’s immense distance from Earth, it takes a radio signal about 22.5 hours to reach the probe, and another 22.5 hours for a response signal from the spacecraft to reach Earth.
On April 20, the team received Voyager 1’s response indicating that the clever code modification had worked, and they could finally receive readable engineering data from the probe once more.
Exploring interstellar space
Within the coming weeks, the team will continue to relocate other affected parts of the system’s software, including those responsible for returning the valuable science data Voyager 1 is collecting.
Initially designed to last five years, the Voyager 1 and its twin, Voyager 2, launched in 1977 and are the longest operating spacecraft in history. Their exceptionally long life spans mean that both spacecraft have provided additional insights about our solar system and beyond after achieving their preliminary goals of flying by Jupiter, Saturn, Uranus and Neptune decades ago.
The probes are currently venturing through uncharted cosmic territory along the outer reaches of the solar system. Both are in interstellar space and are the only spacecraft ever to operate beyond the heliosphere, the sun’s bubble of magnetic fields and particles that extends well beyond the orbit of Pluto.
Voyager 2, which is operating normally, has traveled more than 12.6 billion miles (20.3 billion kilometers) from our planet.
Over time, both spacecraft have encountered unexpected issues and dropouts, including a seven-month period in 2020 when Voyager 2 couldn’t communicate with Earth. In August 2023, the mission team used a long-shot “shout” technique to restore communications with Voyager 2 after a command inadvertently oriented the spacecraft’s antenna in the wrong direction.
The team estimates it’s a few weeks away from receiving science data from Voyager 1 and looks forward to seeing what that data contains.
“We never know for sure what’s going to happen with the Voyagers, but it constantly amazes me when they just keep going,” said Voyager Project Manager Suzanne Dodd, in a statement. “We’ve had many anomalies, and they are getting harder. But we’ve been fortunate so far to recover from them. And the mission keeps going. And younger engineers are coming onto the Voyager team and contributing their knowledge to keep the mission going.”
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National news | five people injured when santa clara county deputy’s cruiser slams into suv during chase, national news, national news | voyager 1 sending data to earth for 1st time in 5 months, “today was a great day for voyager 1. we’re back in communication with the spacecraft.”.
By Ashley Strickland | CNN
For the first time in five months, NASA engineers have received decipherable data from Voyager 1 after crafting a creative solution to fix a communication problem aboard humanity’s most distant spacecraft in the cosmos.
Voyager 1 is currently about 15 billion miles (24 billion kilometers) away, and at 46 years old, the probe has shown multiple quirks and signs of aging in recent years.
The latest issue experienced by Voyager 1 first cropped up in November 2023, when the flight data system’s telemetry modulation unit began sending an indecipherable repeating pattern of code .
Voyager 1’s flight data system collects information from the spacecraft’s science instruments and bundles it with engineering data that reflects its current health status. Mission control on Earth receives that data in binary code, or a series of ones and zeroes.
But since November, Voyager 1’s flight data system had been stuck in a loop. While the probe has continued to relay a steady radio signal to its mission control team on Earth over the past few months, the signal did not carry any usable data.
The mission team received the first coherent data about the health and status of Voyager 1’s engineering systems on April 20. While the team is still reviewing the information, everything they’ve seen so far suggests Voyager 1 is healthy and operating properly.
“Today was a great day for Voyager 1,” said Linda Spilker, Voyager project scientist at JPL, in a statement Saturday. “We’re back in communication with the spacecraft. And we look forward to getting science data back.”
The breakthrough came as the result of a clever bit of trial and error and the unraveling of a mystery that led the team to a single chip.
Troubleshooting from billions of miles away
After discovering the issue, the mission team attempted sending commands to restart the spacecraft’s computer system and learn more about the underlying cause of the problem.
The team sent a command called a “poke” to Voyager 1 on March 1 to get the flight data system to run different software sequences in the hopes of finding out what was causing the glitch.
On March 3, the team noticed that activity from one part of the flight data system stood out from the rest of the garbled data. While the signal wasn’t in the format the Voyager team is used to seeing when the flight data system is functioning as expected, an engineer with NASA’s Deep Space Network was able to decode it.
The Deep Space Network is a system of radio antennae on Earth that help the agency communicate with the Voyager probes and other spacecraft exploring our solar system.
The decoded signal included a readout of the entire flight data system’s memory.
By investigating the readout, the team determined the cause of the issue: 3% of the flight data system’s memory is corrupted . A single chip responsible for storing part of the system’s memory, including some of the computer’s software code, isn’t working properly. While the cause of the chip’s failure is unknown, it could be worn out or may have been hit by an energetic particle from space, the team said.
The loss of the code on the chip caused Voyager 1’s science and engineering data to be unusable.
Since there was no way to repair the chip, the team opted to store the affected code from the chip elsewhere in the system’s memory. While they couldn’t pinpoint a location large enough to hold all of the code, they were able to divide the code into sections and store it in different spots within the flight data system.
“To make this plan work, they also needed to adjust those code sections to ensure, for example, that they all still function as a whole,” according to an update from NASA . “Any references to the location of that code in other parts of the (flight data system) memory needed to be updated as well.”
After determining the code necessary for packaging Voyager 1’s engineering data, engineers sent a radio signal to the probe commanding the code to a new location in the system’s memory on April 18.
Given Voyager 1’s immense distance from Earth, it takes a radio signal about 22.5 hours to reach the probe, and another 22.5 hours for a response signal from the spacecraft to reach Earth.
On April 20, the team received Voyager 1’s response indicating that the clever code modification had worked, and they could finally receive readable engineering data from the probe once more.
Exploring interstellar space
Within the coming weeks, the team will continue to relocate other affected parts of the system’s software, including those responsible for returning the valuable science data Voyager 1 is collecting.
Initially designed to last five years, the Voyager 1 and its twin, Voyager 2, launched in 1977 and are the longest operating spacecraft in history. Their exceptionally long life spans mean that both spacecraft have provided additional insights about our solar system and beyond after achieving their preliminary goals of flying by Jupiter, Saturn, Uranus and Neptune decades ago.
The probes are currently venturing through uncharted cosmic territory along the outer reaches of the solar system. Both are in interstellar space and are the only spacecraft ever to operate beyond the heliosphere, the sun’s bubble of magnetic fields and particles that extends well beyond the orbit of Pluto.
Voyager 2, which is operating normally, has traveled more than 12.6 billion miles (20.3 billion kilometers) from our planet.
Over time, both spacecraft have encountered unexpected issues and dropouts, including a seven-month period in 2020 when Voyager 2 couldn’t communicate with Earth. In August 2023, the mission team used a long-shot “shout” technique to restore communications with Voyager 2 after a command inadvertently oriented the spacecraft’s antenna in the wrong direction.
The team estimates it’s a few weeks away from receiving science data from Voyager 1 and looks forward to seeing what that data contains.
“We never know for sure what’s going to happen with the Voyagers, but it constantly amazes me when they just keep going,” said Voyager Project Manager Suzanne Dodd, in a statement. “We’ve had many anomalies, and they are getting harder. But we’ve been fortunate so far to recover from them. And the mission keeps going. And younger engineers are coming onto the Voyager team and contributing their knowledge to keep the mission going.”
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NASA hears from Voyager 1, the most distant spacecraft from Earth, after months of quiet
NASA has finally heard back from Voyager 1 again in a way that makes sense.
The most distant spacecraft from Earth stopped sending back understandable data last November. Flight controllers traced the blank communication to a bad computer chip and rearranged the spacecraft's coding to work around the trouble.
NASA's Jet Propulsion Laboratory in Southern California declared success after receiving good engineering updates late last week. The team is still working to restore transmission of the science data.
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It takes 22 1/2 hours to send a signal to Voyager 1, more than 15 billion miles (24 billion kilometres) away in interstellar space. The signal travel time is double that for a round trip.
Contact was never lost, rather it was like making a phone call where you can't hear the person on the other end, a JPL spokeswoman said Tuesday.
Launched in 1977 to study Jupiter and Saturn, Voyager 1 has been exploring interstellar space -- the space between star systems -- since 2012. Its twin, Voyager 2, is 12.6 billion miles (20 billion kilometres) away and still working fine.
The Associated Press Health and Science Department receives support from the Howard Hughes Medical Institute's Science and Educational Media Group. The AP is solely responsible for all content.
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Signal from interstellar space: What Voyager 1's latest data tells us
Engineers hear from the longest-operating spacecraft for the first time in five months.
An artist's impression of the Voyager 1 spacecraft entering interstellar space. Photo: Nasa
Scientists are hopeful of collecting fresh data from the Voyager 1 deep space probe after it beamed back its first signals in five months.
The pioneering craft, which launched in 1977, was the first to enter interstellar space , the region beyond the solar system.
But Nasa engineers at mission control in California lost contact with it on November 14 due to a fault with one of its three on-board computers.
The technical issue caused Voyager 1 to send indecipherable messages for months, rendering the engineering and scientific data unusable.
Sounding a little more like yourself, #Voyager1 . For the first time since November, Voyager 1 is returning useable data about the health and status of its onboard engineering systems. Next step: Enable the spacecraft to begin returning science data again: https://t.co/eZyqo7uERu pic.twitter.com/6YZM33Mp48 — NASA JPL (@NASAJPL) April 22, 2024
But now, after receiving readable signals from the craft, engineers at the Jet Propulsion Laboratory (JPL) believe they may be able to recover the data entirely so that scientific operations can resume.
"For the first time since November, Nasa’s Voyager 1 spacecraft is returning usable data about the health and status of its on-board engineering systems," JPL said in a statement.
Voyager 1 has travelled 24 billion km since it was launched, making it and its twin Voyager 2 the two longest-serving spacecraft in history.
What do Voyager 1's latest signals mean?
The problem occurred in the flight data subsystem (FDS), which is responsible for packing the science and engineering data before it is sent back to mission control.
But the chip that stores the memory from the subsystem, including some of its software code, was not working.
Because that code was lost, it caused the spacecraft to send back unreadable data.
Last month, engineers came up with a plan to divide the affected code into sections and store these separately in the FDS.
The plan worked and Voyager 1 sent readable signals for the first time in five months.
Resuming operations
"During the coming weeks, the team will relocate and adjust the other affected portions of the FDS software," JPL said.
"These include the portions that will start returning science data."
Scientists are interested in learning about interstellar space to better understand the universe and possibilities of life beyond Earth.
Nasa has been studying exoplanets – those outside the solar system – for decades, using telescopes.
But no spacecraft has entered interstellar space apart from the Voyager probes.
The spacecraft are providing direct measurements of the mysterious environment, which should help the scientific community study cosmic rays and radiation levels outside the solar system.
Data as such could prove useful when technology is advanced enough to send more spacecraft or even a human mission to interstellar space.
While it was an incredible achievement by the Voyager probes, still no technology can reach our nearest star, Proxima Centauri, which is 4.2 light years away.
With power supplies weakening, it is impossible for Voyager 1 to reach Proxima Centauri, which would take the probe almost 73,000 years.
Nuclear fusion propulsion, a way of powering a spacecraft using high-energy particles created by fusion reactions, could help in making such missions more time-efficient and therefore possible.
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How are the Voyager spacecraft able to transmit radio messages so far?
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The two Voyage spacecraft certainly have had an amazing track record. They were sent to photograph planets like Jupiter, Saturn and Neptune and have just kept on going past the outer edge of the solar system. Voyager 1 is currently over 7 billion miles (about 11 billion kilometers) away from Earth and is still transmitting -- it takes about 10 hours for the signal to travel from the spacecraft to Earth!
The Voyager spacecraft use 23-watt radios. This is higher than the 3 watts a typical cell phone uses, but in the grand scheme of things it is still a low-power transmitter. Big radio stations on Earth transmit at tens of thousands of watts and they still fade out fairly quickly.
The key to receiving the signals is therefore not the power of the radio, but a combination of three other things:
- Very large antennas
- Directional antennas that point right at each other
- Radio frequencies without a lot of man-made interference on them
The antennas that the Voyager spacecraft use are big. You may have seen people who have large satellite dish antennas in their yards. These are typically 2 or 3 meters (6 to 10 feet) in diameter. The Voyager spacecraft has an antenna that is 3.7 meters (14 feet) in diameter, and it transmits to a 34 meter (100 feet or so) antenna on Earth. The Voyager antenna and the Earth antenna are pointed right at each other. When you compare your phone's stubby, little omni-directional antenna to a 34 meter directional antenna, you can see the main thing that makes a difference!
The Voyager satellites are also transmitting in the 8 GHz range , and there is not a lot of interference at this frequency. Therefore the antenna on Earth can use an extremely sensitive amplifier and still make sense of the faint signals it receives. Then when the earth antenna transmits back to the spacecraft, it uses extremely high power (tens of thousands of watts) to make sure the spacecraft gets the message.
Frequently Asked Questions
What role do earth's ground stations play in receiving signals from distant spacecraft like voyager, how has technology advanced to maintain communication with voyager as it moves further away.
Please copy/paste the following text to properly cite this HowStuffWorks.com article:
NASA's Voyager 1 sends readable message to Earth after 4 nail-biting months of gibberish
After four months of being unable to detect comprehensible data from the Voyager 1 spacecraft, NASA scientists have had fresh luck after sending a "poke."
After a nail-biting four months, NASA has finally received a comprehensible signal from its Voyager 1 spacecraft.
Since November 2023, the almost-50-year-old spacecraft has been experiencing trouble with its onboard computers. Although Voyager 1, one of NASA's longest-lived space missions, has been sending a steady radio signal to Earth, it hasn't contained any usable data , which has perplexed scientists.
Now, in response to a command prompt, or "poke," sent from Earth on March 1, NASA has received a new signal from Voyager 1 that engineers have been able to decode. Mission scientists hope this information may help them explain the spacecraft's recent communication problems.
"The source of the issue appears to be with one of three onboard computers, the flight data subsystem (FDS), which is responsible for packaging the science and engineering data before it's sent to Earth by the telemetry modulation unit," NASA said in a blog post Wednesday (March 13) .
Related: NASA's 46-year-old Voyager 1 probe is no longer transmitting data
On March 1, as part of efforts to find a solution to Voyager 1's computer issues, NASA sent a command to the FDS on the spacecraft, instructing it to use different sequences in its software package, which would effectively mean skirting around any data that may be corrupted.
Voyager 1 is more than 15 billion miles (24 billion kilometers) from Earth. This means any radio signals sent from our planet take 22.5 hours to reach the spacecraft, with any response taking the same time to be picked up by antennas on Earth.
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On March 3, NASA detected activity from one section of the FDS that differed from the "unreadable data stream" they'd previously been receiving. Four days later, engineers started the heavy task of trying to decode this signal. By March 10, the team discovered that the signal contained a readout of the entire FDS memory. This included the instructions for what the FDS needed to do, any values in its code that can be changed depending on commands from NASA or the spacecraft's status, and downloadable science or engineering data.
Voyager 1 has ventured farther from Earth than any other human-made object . It was launched in 1977, within weeks of its twin spacecraft , Voyager 2. The initial aim of the mission was to explore Jupiter and Saturn . Yet after almost five decades, and with countless discoveries under their belts, the mission continues beyond the boundaries of the solar system .
— NASA hears 'heartbeat' signal from Voyager 2 probe a week after losing contact
— Historic space photo of the week: Voyager 2 spies a storm on Saturn 42 years ago
— NASA reestablishes full contact with Voyager 2 probe after nail-biting 2-week blackout
NASA scientists will now "compare this readout to the one that came down before the issue arose and look for discrepancies in the code and the variables to potentially find the source of the ongoing issue," they said in the blog post.
However, NASA stressed that it will take time to determine if any of the insights gained from this new signal can be used to solve Voyager 1's long-standing communication issues.
Emily is a health news writer based in London, United Kingdom. She holds a bachelor's degree in biology from Durham University and a master's degree in clinical and therapeutic neuroscience from Oxford University. She has worked in science communication, medical writing and as a local news reporter while undertaking journalism training. In 2018, she was named one of MHP Communications' 30 journalists to watch under 30. ( [email protected] )
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After months of sending gibberish to NASA, Voyager 1 is finally making sense again
Why do people hear their names being called in the woods?
- Bruzote I have an inside source who says the message said, "Be sure to drink your Ovaltine." Reply
- Grumpy-DC I love Ovaltine. Both flavors. And I remember "Captain Midnight" sponsored by same. Reply
Grumpy-DC said: I love Ovaltine. Both flavors. And I remember "Captain Midnight" sponsored by same.
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pale blue dot
Voyager 1: How far can it go before we lose contact?
Launched by NASA on September 5, 1977 , to study the outer solar system , the Voyager 1 is the furthest human-made object from Earth. As of October 2022, it is more than 14,749,847,051 miles (23,737,577,852 km) away from our home planet. It is also moving away at a speed of 38,026.77 mph (61,198.15 km/h) relative to the Sun.
Despite that huge distance (even the light covers that distance in almost 22 hours!), thanks to NASA’s Deep Space Network (DSN), we can still communicate with it (also with its sister, Voyager 2). But how far can Voyager 1 go before we lose communication?
How long we can communicate with Voyager 1?
Using the Deep Space Network, NASA transmits a 20 kW radio signal from Earth. It takes almost 22 hours for the signal to reach Voyager 1 (so it is almost 22 light hours away from the Earth).
The Deep Space Network (DSN) is a worldwide network of U.S. spacecraft communication facilities, located in the United States (California), Spain (Madrid), and Australia (Canberra), that supports NASA’s interplanetary spacecraft missions. Each complex has a huge 70-meter antenna along with multiple 34-meter antennae which can be combined to pick up signals that are thousands of times weaker than a standard FM signal.
The space probe’s sensitive antenna picks up the signal transmitted from the DSN and replies using a 20-watt signal. It takes another 22 hours to reach the Earth and as the signal travels through space, it weakens. By the time it reaches Earth, it’s barely detectable – but the DSN is able to detect it.
Related: Five space probes leaving the solar system (for now)
Theoretically, there isn’t really a limit on how far we can communicate with objects in space – as long as they reply back to us. With our current technology, we could reliably communicate with the Voyager 1 for thousands of years, even if it’s many light years away from us.
Despite that, we can continue to communicate with Voyager 1 for only a few years more. The reason is: the probe’s nuclear-powered electrical supply weakens each day.
Voyager 1 does not use a nuclear reactor to power itself. It uses three RTG units – (Radioisotope Thermal Generator), which convert the heat from decaying plutonium into electricity using Peltier devices. It is not very fancy, has no moving parts, and is very reliable, but it produces a lot less power than a nuclear reactor.
Voyager 1 and the “Pale blue dot”
Back in 1990, in order to save power, engineers turned off the spacecraft’s camera. But, before that, it was commanded by NASA to turn its camera around and take a photograph of Earth across a great expanse of space, at the request of Carl Sagan.
Taken from a record distance of about 6 billion kilometers (3.7 billion miles, 40 AU) from Earth, the photo is known as the Pale Blue Dot . In the photograph, Earth is shown as a fraction of a pixel (0.12 pixel in size) against the vastness of space.
The “Pale Blue Dot” is still the farthest image of Earth we’ve ever taken (as of January 2019).
But the old probe still amazes us: on November 28, 2017, a set of thrusters aboard it successfully fired up for the first time since November 1980, after 37 years without use.
Today, only 4 out of 11 scientific instruments on Voyager 1 are still active. These instruments are being used to collect data on magnetic fields, solar winds, and cosmic rays outside of our solar system .
On August 25, 2012 , Voyager 1 became the first spacecraft to cross the heliopause (see notes 1) (the vast, bubble-like region of space that surrounds and is created by the Sun) and enter the interstellar medium.
Related: NASA’s Voyager 1 spacecraft has technical problems, it is generating random-looking telemetry data, and as a result, the spacecraft doesn’t know where it is
We can continue to communicate with Voyager 1 until 2025
Voyager 1’s extended mission is expected to continue until around 2025 when its radioisotope thermoelectric generators will no longer supply enough electric power to operate its scientific instruments. At that time, it will be more than 15.5 billion miles (25 billion km) away from the Earth.
Scientists will communicate with Voyager 1 and receive the important information it gathers until it eventually sends its last bit of data and disappears silently into space, never to be heard from again.
Video: How far can Voyager 1 go before we lose contact?
The video published by the Primal Space channel below looks at how we communicate with Voyager and when it will eventually stop receiving our signals.
- The heliosphere is the vast, bubble-like region of space that surrounds and is created by the Sun. In plasma physics terms, this is the cavity formed by the Sun in the surrounding interstellar medium. The “bubble” of the heliosphere is continuously “inflated” by plasma originating from the Sun, known as the solar wind. Outside the heliosphere, this solar plasma gives way to the interstellar plasma permeating our galaxy. Radiation levels inside and outside the heliosphere differ; in particular, the galactic cosmic rays are less abundant inside the heliosphere, so the planets inside (including Earth) are partly shielded from their impact. The word “heliosphere” is said to have been coined by Alexander J. Dessler, who is credited with the first use of the word in scientific literature.
- Voyager Mission Status page on NASA.gov
- Voyager 1 on Wikipedia
- Voyager 1’s Radioisotope Thermoelectric Generators (RTG) on NASA.gov
- Heliosphere on Wikipedia
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Join the Conversation
I’m looking at the image of the pale blue dot. How did we ascertain that this dot is, in fact, Earth? Where in this image is everything else? ie: the other planets and Sun. What was used as a point of reference? The cosmos is the only thing that truly puzzles me. Great article.
I am an engineer and a Cornell graduate where Carl Sagan and Tommy Gold were on the faculty and helped get the Voyager programs started. The payoff has been unbelievable. We are still getting data from deep in interstellar space, but I don’t know for how much longer.
Thank you enjoyed reading this, fascinating read.
Time and space, the vastness of the universe it all blows my mind but reminds me just how small our planet is in the great scheme of things.
The electrical supply has lasted for many years, why is it we must put up with inferior systems at home?
When you realize just how vast the universe is you know there is other life out there. Even if there is only one planet per galaxy that would mean there are hundreds of thousands of planets with life. It would be an awful big waste of space otherwise.
Doing a quick bit of math if the nearest star is 4 lightyears away that means it is 23 trillion miles from us (((4 x 365 x 24 x 60 x60 x300,000km/sec)/8) x5)= 23.65 followed by 12 noughts. By the time we lose contact with Voyager 1 at 15.5 billion miles from earth it will not have covered even 1% at this distance. We may have left the house but we aren’t even out of the backyard yet….
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A radio signal takes about 22 ½ hours to reach Voyager 1, which is over 15 billion miles (24 billion kilometers) from Earth, and another 22 ½ hours for a signal to come back to Earth. When the mission flight team heard back from the spacecraft on April 20, they saw that the modification worked: For the first time in five months, they have ...
On April 18, 2024, the team began sending the code to its new location in the FDS memory. This was a painstaking process, as a radio signal takes 22.5 hours to traverse the distance between Earth ...
It takes 22 1/2 hours to send a signal to Voyager 1, more than 15 billion miles (24 billion kilometers) away in interstellar space. The signal travel time is double that for a round trip.
Given Voyager 1's immense distance from Earth, it takes a radio signal about 22.5 hours to reach the probe, and another 22.5 hours for a response signal from the spacecraft to reach Earth.
Launched nearly 47 years ago, Voyager 1 is flying on an outbound trajectory more than 15 billion miles (24 billion kilometers) from Earth, and it takes 22.5 hours for a radio signal to cover that ...
It takes 22 1/2 hours to send a signal to Voyager 1, more than 15 billion miles (24 billion kilometers) away in interstellar space. The signal travel time is double that for a round trip. Contact was never lost, rather it was like making a phone call where you can't hear the person on the other end, a JPL spokeswoman said Tuesday.
Voyager 1 currently sits around 15 billion miles (24 billion kilometers) from Earth, which means it takes 22.5 hours to receive a radio signal from it — and another 22.5 hours for the spacecraft ...
A radio signal takes about 22.5 hours to reach Voyager 1, which is over 15 billion miles (24 billion kilometers) from Earth, and another 22.5 hours for a signal to come back to Earth.
In 2023, humanity's pioneering space mission, Voyager 1, stopped sending understandable data back to Earth. ... It takes 22.5 hours to receive a radio signal from Voyager 1, then another 22.5 ...
The fix was transmitted from Earth on 18 April but it took two days to assess if it had been successful as a radio signal takes about 22 and a half hours to reach Voyager 1 and another 22 and a ...
Since Voyager 1 is so far away, testing solutions to its technical issues requires time—it takes 22.5 hours for commands to reach the probe and another 22.5 hours for Voyager 1's response to ...
A long time lag makes solving the problem more difficult. Voyager is moving at about 38,000 mph. It takes 22.5 hours for an Earth radio signal to reach Voyager and another 22.5 hours for the ...
Because Voyager 1 is so far away, it takes about 45 hours for engineers on the ground to know how the spacecraft reacted to their commands—the one-way light travel time is about 22.5 hours.
Given Voyager 1's immense distance from Earth, it takes a radio signal about 22.5 hours to reach the probe, and another 22.5 hours for a response signal from the spacecraft to reach Earth.
Given Voyager 1's immense distance from Earth, it takes a radio signal about 22.5 hours to reach the probe, and another 22.5 hours for a response signal from the spacecraft to reach Earth.
It takes 22 1/2 hours to send a signal to Voyager 1, more than 15 billion miles (24 billion kilometres) away in interstellar space. The signal travel time is double that for a round trip. Contact ...
Scientists are hopeful of collecting fresh data from the Voyager 1 deep space probe after it beamed back its first signals in five months.. The pioneering craft, which launched in 1977, was the first to enter interstellar space, the region beyond the solar system.. But Nasa engineers at mission control in California lost contact with it on November 14 due to a fault with one of its three on ...
Voyager 1 left the solar system in 2012. Its companion, also still functioning, exited in 2018. Today, signals from Earth to Voyager 1 — and vice versa — take more than 22 hours to arrive.
Voyager 1 is currently over 7 billion miles (about 11 billion kilometers) away from Earth and is still transmitting -- it takes about 10 hours for the signal to travel from the spacecraft to Earth! The Voyager spacecraft use 23-watt radios. This is higher than the 3 watts a typical cell phone uses, but in the grand scheme of things it is still ...
After a nail-biting four months, NASA has finally received a comprehensible signal from its Voyager 1 spacecraft. Since November 2023, the almost-50-year-old spacecraft has been experiencing ...
It takes 22 1/2 hours to send a signal to Voyager 1, more than 15 billion miles (24 billion kilometers) away in interstellar space. The signal travel time is double that for a round trip.
The radio communication system of Voyager 1 was designed to be used up to and beyond the limits of the Solar System during the extremely long flight of this space probe. The communication system includes a 3.7 meter diameter parabolic dish high-gain antenna to send and receive radio waves via the three Deep Space Network stations on the Earth.
Launched by NASA on September 5, 1977, to study the outer solar system, the Voyager 1 is the furthest human-made object from Earth. As of October 2022, it is more than 14,749,847,051 miles (23,737,577,852 km) away from our home planet. It is also moving away at a speed of 38,026.77 mph (61,198.15 km/h) relative to the Sun.