outer space

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NASA and Planet expand imagery partnership to all NASA-funded Earth science research

NASA and Planet have deemed their pilot partnership a success, and the result is that NASA will extend its contract with Planet to provide the company’s satellite imagery of Earth to all research programs funded by the agency. NASA had signed an initial contract last April with Planet to provide Planet imagery to a team of 35 researchers working on tracking what are known as “Essential Climate Variables,” or ECVs.

The ECV trial showed that Planet’s imagery was useful in tracking and providing insight into a number of different Earth-based environmental events, including landslides in the Himalayan mountain range. During the study, one of the key ingredients in helping researchers detect early warning signs was the Planet satellite constellation’s high revisit rate, which means the frequency with which it photographs a specific area over time.

Planet’s data covers the entire Earth at least once per day, and includes even areas of the planet not typically included in Earth observation passes by other satellites and providers, like the Arctic. Its frequency, along with its coverage and degree of detail, all combine to make it a valuable resource to anyone conducting Earth science work, which means it’s very good news that it’s now available to hundreds more scientists working on dozens more projects.

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Orbital debris startup Astroscale chosen by JAXA for its first space junk removal mission

Japanese orbital debris removal technology startup Astroscale is going to be working with the Japan Aerospace Exploration Agency (JAXA) on the agency’s first mission to remove some of the junk that currently exists on orbit. They’ve been selected by the agency to participate in its Commercial Removal of Debris Demonstration project (CRD2), which includes two separate mission phases that together will aim to accomplish the removal of a large body currently on orbit, the spent upper stage of a Japanese rocket.

Astroscale, which was founded in 2013, is focused entirely on cleaning up orbital space, which it sees as a necessary step for long-term sustainable activity on orbit. Space debris has become a hot-button topic in the space industry, with current projections anticipating massive increases in the number of active satellites orbiting the planet, thanks to the uptick in satellite constellation projects in the works from commercial operators including SpaceX, Amazon and OneWeb.

The JAXA mission aims to complete its first phase by the end of 2022, and Astroscale will support that phase by building, launching and operating a satellite that will observe and acquire data on the rocket upper stage that the second phase will seek to de-orbit. The goal is to find out more about its movement and the surrounding debris environment in order to set up a safe and successful removal.

“The data obtained in Phase I of CRD2 is expected to reinforce the dangers of existing debris and the necessity to remove them,” said Astroscale founder and CEO Nobu Okada in a press release. “Debris removal is still a new market and our mission has always been to establish routine debris removal services in space in order to secure orbital sustainability for the benefit of future generations. The international community is growing more aware of the risks of space debris and we are committed more than ever to turning this potential market into a reality.”

Astroscale is also already involved in other orbital debris-removal projects, and plans to launch a demonstration mission of its “End-of-Life Services” offering sometime in the second half of this year. This mission will be a world-first demo of commercial orbital debris removal if all goes to plan, a key step in proving that its technology can meet the needs of this growing opportunity.

Earlier this year, a near-miss of two defunct orbital spacecraft made headlines, and observers noted that had a collision occurred, it would’ve resulted in a new debris cloud with “at least hundreds” of new pieces of trackable debris. Astroscale and others like it could, combined with other initiatives like more granular tracking and information sharing among satellite operators, provide a much more sustainable in-space operating environment for the range of commercial activities either planned or in progress for orbital space.

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SpaceX cautions on launch regulation that outpaces innovation

During the Federal Aviation Administration’s (FAA) 23rd annual Commercial Space Transportation Conference in Washington, D.C., one panel focused on the changing regulatory environment when it comes to private launch activities, and how those are integrated into existing rules and practices for managing commercial air transportation. Panelist Caryn Schenewerk, SpaceX senior counsel and senior director of space flight policy, emphasized that while the company always does the utmost to ensure safety in everything it does, the company also wants to focus on the actual state of the industry today and how it needs to grow as various partners work to establish new rules for the growing commercial launch sector.

“When aviation started, the Wright brothers weren’t flying over major populated cities,” Schenewerk pointed out. “They were outside Paris in an unpopulated field, and they were at Kitty Hawk on unpopulated beaches. And they were in Ohio in unpopulated areas.”

Schenewerk was directly addressing comments made by other panelists, and specifically ALPA Aviation Safety Chair Steve Jangelis, that suggested the emerging commercial launch industries may be looking far ahead to when they’re launching from spaceports located near populated areas, and launching with much more frequency than they are today. In general, Jangelis was advocating for laying the groundwork now for high levels of cooperation and integration between aviation traffic management and rocket launch operators.

Schenewerk was reluctant to concede any kind of direct equivalency between the commercial air transportation industry and the space launch sector, given their relative dissimilarity.

She noted that in terms of sheer volume, there’s a massive difference, with roughly 40 to 50 launches set for 2020 compared to millions of flights for commercial air. Airlines also use essentially the same small handful of airframes from suppliers like Boeing and Airbus, while each launch company has their own, very different vehicle with different conditions for launch and flight. Overall, she suggested then that anticipating some potential future state where the industries were more similar could result in stifling progress toward that ultimate goal.

“I hope we get to that million launches at some point, but when we are at that point, it’s going to be because we worked our way up the safety trajectory in a way that allows us to operate that way,” Schenewerk said. “Today, SpaceX can’t fly from a spaceport in the middle of the country, because we won’t get through the safety approval. We literally will not be licensed by the FAA to operate from that site, because we will then be flying over large populations of people — and we aren’t at that level of reliability and safety in this industry to fly over large populations of people with these kinds of rockets. Could we get there someday? Yeah, we can get there someday when we’ve had a million flights, and a million prove-outs of our capability, when we have such repeatability that we’re in that level.”

Ultimately, Schenewerk’s comments and Jangelis’ responses illustrate that there are still a lot of places where younger companies and emerging technologies like reusable rocket launches are conflicting with the views of more established industries and players operating in some shared spaces.

FAA Administrator Steve Dickson also addressed the agency’s ongoing work to establish launch rules, which were released as a draft last year and which Dickson said will likely be finalized sometime this fall, once the FAA has incorporated industry comments and feedback.

“Let’s think about that big vision, that big day when lots of things are happening,” Schenewerk said. “But let’s also not yell at our kid for not being able to fly an airplane when they can barely walk — and I think that’s where we are right now: We’re still figuring out how to walk and run in this industry.”

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Kepler will build its small satellites at a new manufacturing facility in Toronto

Satellite communications startup Kepler will manufacture its small satellites going forward at a new 5,000-square-foot facility in Toronto, Ontario, Canada . The company is working with partners, including the Canadian Space Agency and the University of Toronto, on the new facility, which will also incorporate design and development of its satellites in addition to manufacturing.

Already, Kepler operates two satellites currently in orbit, and has demonstrated the capabilities of its technology by delivering a high-speed internet data connection to the North Pole for the first time late last year. These spacecraft were designed by Kepler, but manufactured via third-parties through contracting agreements. With the new facility, Kepler says it’ll be able to “vertically integrate the development, production and testing of its future spacecraft.”

This will help the startup achieve its goal of producing, launching and operating a constellation of 140 satellites in total, which will provide high-bandwidth connectivity aimed for use in a range of industries, including agriculture, transportation and maritime shipping and logistics, to name a few. This new in-house facility will support mass production of the small satellites it requires to build out its fleet, while providing cost benefits versus outsourcing over time.

The small satellite industry is one of the parts of commercial space that has seen the biggest increase in demand, especially since relatively affordable launch vehicles like SpaceX’s Falcon 9 have expanded the pool of potential companies building and operating satellites and constellations. Bringing satellite manufacturing in-house puts Kepler in rare company as one of the few small sat companies that owns the whole stack, which should be a big competitive advantage relative to the market going forward.

In terms of when the facility will be putting out satellites that Kepler plans to actually launch, the company currently plans to launch its final demonstration satellite, which is already built under its prior contractor arrangement, this spring. Then, it intends to launch the first commercial satellites produced by this new facility starting this summer, with an additional two launches planned for later in the year.

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NASA taps startup Axiom Space for the first habitable commercial module for the Space Station

NASA has selected Houston-based Axiom Space, a startup founded in 2016, to build the first commercial habitat module for the International Space Station (ISS). This module will be used as a destination for future commercial spaceflight missions, potentially housing experiments, technology development and more performed by commercial space travelers taking rides up to the ISS via human-rated spacecraft like the SpaceX Crew Dragon and Boeing Starliner, once those start regular operational service.

Axiom Space was founded in 2016, and is led by co-founder and CEO Michael T. Suffredini, who previously acted as program manager for the ISS at NASA’s Johnson Space Center. The company boasts a lot of ex-NASA talent on its small team, and eventually it plans to make its in-space modules the basis of its own private space station, after first attaching them to the ISS while it’s still operating. NASA has extended the planned service life of the ISS, but the plan of the agency’s current leadership is to eventually encourage private orbital labs and commercial facilities as an ultimate replacement.

In 2018, Axiom teamed up with designer Philippe Starck (yes, the same one who famously designed a luxury yacht for Apple founder Steve Jobs) to provide a look at what their future space station modules might look like, including crew quarters with interactive displays and a cupola that provides a breathtaking view of Earth and surrounding space.

This ISS module may not be a full-fledged private space station, but it is a step in NASA’s goal of further commercializing the existing space station and ultimately paving the way for more commercial activity in low Earth orbit. Axiom’s mandate also includes providing “at least one habitable commercial module,” with the implication being that it might be awarded extensions to build more in the future. Next up for the new partners is negotiating terms and price for a contract for the module, which will also include a timeline for delivery.

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Max Q: NASA signs up new Moon delivery companies

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There were lot of highlights in the space industry this past week (even though a rocket launch that was supposed to happened is now pushed to Monday). The biggest news for commercial space might just be that NASA signed on five new companies to its list of approved vendors for lunar payload delivery services, bringing the total group to 14.

SpaceX is among them, and Musk’s company had its own fair share of news this week, too – some good, some bad. One things’ for sure: Even going in to the last week in November, there’s still plenty of news to come in this industry before the year’s out.

  1. NASA selects five new vendors for commercial lunar payloads

Artist’s rendering of Blue Origin’s Blue Moon lander.

The five include Blue Origin, SpaceX, Ceres Robotics, Sierra Nevada Corporation and Tyvak Nano-Satellite Systems. This doesn’t necessarily mean all or any of these companies will actually fly anything to the Moon on behalf of NASA, but it does mean they can officially bid for the chance. Alongside 9 other companies selected previously by NASA, their bids will be considered by the NASA based on cost, viability and other factors.

  1. SpaceX Starship prototype blows its lid

This is the bad news I referred to earlier: SpaceX’s Starship Mk1 prototype in Texas blew up just a little bit during cryo testing. This test is designed to simulate extreme cold conditions that the spacecraft could endure during flight, and it clearly didn’t. But Elon Musk was optimistic, saying just after the incident that they’ll move on to a more advanced design right away.

  1. Sierra Nevada Corporation details an expendable cargo container for its Dream Chaser spaceship

SNC’s Shooting Star module. Credit: SNC.

One of the companies that is now included in NASA’s lunar payload service provider list is Sierra Nevada Corporation (SNC). They’re currently developing and building their Dream Chaser spacecraft, which is reusable and lands like the Space Shuttle. At an event at Cape Canaveral in Florida, they unveiled what they call the ‘Shooting Star’ – an ejectable single use cargo container for the Dream Chaser that can really add to its versatility.

  1. Nanoracks will launch a test craft that can convert old spaceships into orbital habitats

This demonstration mission is just a start, but the tech that Nanoracks is launching aboard a future SpaceX launch will be able to cut metal in space, marking the first time a robotic piece of equipment has done that. The ultimate goal is to use this tech to take spent spacecraft upper stages and give them new life – as research platforms, satellites or even habitats in orbit.

  1. NASA’s JPL is using the Antarctic to test a rover for a trip to Enceladus

That’s one of Saturn’s moons, and it’s made up of icy oceans. Normally, that’s not an optimal place for a rover to get around, but the agency’s laboratory has been testing a design in the Earth’s coldest oceans to see how viable it will be, and now they’re going to use the Antarctic, which is where it’ll test it for months at a time.

  1. Tesla’s Cybertruck is made of Starship steel

Elon Musk revealed Tesla’s crazy, beautiful, ugly, strange Cybertruck pickup last week, and he noted that the stainless steel alloy that makes up its skin is the same material that SpaceX is developing and using on its new Starship spacecraft. Sometimes, being CEO of both a car company and a space company at the same time really pays off.

  1. Space is inspiring new kinds of startups

A lot of large companies outsource at least part of their innovation management and design, and with the space boom on, there’s a new opportunity for companies to emerge that specialize in helping those same large companies find out where they fit in this new frontier. Luna is one such co, putting the puzzle pieces together for health tech companies.

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Luna is a new kind of space company helping biotech find its footing in microgravity

Toronto-based startup Luna Design and Innovation is a prime example of the kind of space company that is increasingly starting up to take advantage of the changing economics of the larger industry. Founded by Andrea Yip, who is also Luna’s CEO, the bootstrapped venture is looking to blaze a trail for biotechnology companies who stand to gain a lot from the new opportunities in commercial space – even if they don’t know it yet.

“I’ve spent my entire career in the public and private health industry, doing a lot of product and service design and innovation,” Yip told me in an interview. “I was working in pharma[ceuticals] for several years, but at the end of 2017, I decided to leave the pharma world and I really wanted to find a way to work along the intersection of pharma, space and design, because I just believe that the future of health for humanity is in space.”

Yip founded Luna at the beginning of this year to help turn that belief into action, with a focus on highlighting the opportunities available to the biotechnology sector in making use of the research environment unique to space.

“We see space as a research platform, and we believe that it’s a research platform that can be leveraged in order to solve healthcare problems here on Earth,” Yip explained. “So for me, it was critically important to open up space to the biotech sector, and to the pharma sector, in order to use it as a research platform for R&D and novel discovery.”

The International Space Station has hosted a number of pharma and biotech experiments.

NASA’s work in space has led to a number of medical advances, inducing digital imaging tech used in breast biopsy, transmitters used for monitoring fetus development within the womb, LED’s used in brain cancer surgery and more. Work done on researching and developing pharmaceuticals in space is also something that companies including Merck, Proctor & Gamble and other industry heavyweights have been dabbling in for years, with experiments conducted on the International Space Station. Companies like SpaceFarma have now sent entire minilaboratories to the ISS to conduct research on behalf of clients. But it’s still a business with plenty of remaining under-utilized opportunity, according to Yip – and tons of potential.

“I think it’s a highly underutilized research platform, unfortunately, right now,” she said. “When it comes to certain physical and life sciences phenomena, we know that things behave differently in space, in what we refer to as microgravity-based environments […] We know that cancer cells, for instance, behave differently in short- and longer-term microgravity when it comes to the way that they metastasize. So being able to even acknowledge that type of insight, and try and understand ‘why’ can unlock a lot of new discovery and understanding about the way cancer actually functions […] and that can actually help us better design drugs, and treatment opportunities here on Earth, just based on those insights.”

Blue Origin’s New Shepard rocket. Credit: Blue Origin .

Yip says that while there has been some activity already in biotech and microgravity, “we’re on the early end of this innovation,” and goes on to suggest that over the course of the next ten or so years, the companies that will be disrupting the existing class of legacy big pharma players will be ones who’ve invested early and deeply in space-based research and development.

The role of Luna is to help biotech companies figure out how best to approach building out an investment in space-based research. To that end, one of its early accomplishments is securing a role as a ‘Channel Partner’ for Jeff Bezos’ commercial space launch company Blue Origin. This arrangement means that Luna acts a a sales partner for Blue Origin’s New Shepard suborbital rocket, working with potential clients for the Amazon founder’s rocket company on how and why they might seek to set up a sub-orbital space-based experiment.

That’s the near-term vision, and the way that Luna will seek to have the most impact here on Earth. But the possibilities of what the future holds for the biotech sector start to really open up once you consider the current trajectory of the space industry, including NASA’s next steps, and efforts by private companies like SpaceX to expand human presence to other planet.

“We’re talking about going back to the Moon by 2024,” Yip says, referring to NASA’s goal with its Artemis program. “We’re talking about going to Mars in the next few years. There’s a lot that we will need to uncover and discover for ourselves, and I think that’s a huge opportunity. Who knows what we’ll discover when we’re on other planets, and we’re actually putting people there? We have to start preparing for that and building capability for that.”

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Legged lunar rover startup Spacebit taps Latin American partners for Moon mission

U.K.-based lunar rover startup Spacebit, a company developing robotic exploration hardware for use on the Moon, announced two new partners that will help it develop and finalize its technology ahead of its target mission date of 2021. The Ecuadorian Civilian Space Agency (EXA) and Mexico’s Dereum will be providing the technology that Spacebit will employ on both its deployer and the robot rover it’s preparing for use on the Moon.

This marks the first time that Latin American companies will participate in a mission to the lunar surface, and Spacebit CEO Pavlo Tanasyuk was joined by Dereum CEO Carlos Mariscal and EXA COO Ronnie Nader to talk about the news at the International Astronautical Congress in Washington, D.C.

“We have Ecuador and Mexico as our technical partners,” Tanasyuk said. “So in addition to this being the first lunar mission from the U.K., it also is the first Latin American mission with a consortium of Latin American countries participating along with the U.K.”

Both the EXA and Dereum have strong technical chops when it comes to spacecraft and space-based robotics, with the EXA focusing on developing technology that is “efficient, cheap and reliable,” according to Nader, while Dereum’s Mariscal said that his organization is well-known globally for its work on building robots for use in space, with an extensive track record. Their expertise should help a lot in Spacebit’s efforts to build, test and validate its robotic lunar rover, which employs a novel walking system for getting around, whereas all rovers to date have used wheels for transportation.

Spacebit CEO Pavlo Tanasyuk

Spacebit CEO Pavlo Tanasyuk

“We are planning on doing a swarm technology exploration plan, where we have multiple small spider walking rovers deployed from a wheeled mothership, along with being able to have some redundancy and the ability to do 3D lidar scanning of the interior  lunar caves and lava tubes,” Tanasyuk said.

“It’s essentially a data as a service business model,” he added, explaining how they’ll seek to monetize the business. “Our primary focus for early missions are to do exploration and mapping of lunar lava tubes to be able to characterize the lunar subsurface environment for potential suitability for future human habitation.”

Spacebit, founded in 2014, is funded privately via Tanasyuk himself, along with a couple of other private investors. He said that his company is fully funded through its first mission, a berth aboard the Peregrine Moon lander being launched by Astrobotic in 2021 (which itself has a price tag of $1.7 million he said). The first mission won’t be an entire swarm, but a single rover sent up as a demonstration unit to prove out its technology.

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Japan’s ispace now aims for a lunar landing in 2021, and a Moon rover deployment in 2023

One of the private companies aiming to deliver a commercial lunar lander to the Moon has adjusted the timing for its planned mission, which isn’t all that surprising, given the enormity of the task. Japanese startup ispace is now targeting 2021 for their first lunar landing, and 2023 for a second lunar mission that will also include deploying a rover on the Moon’s surface.

The company’s HAKUTO-R program was originally planned to include a mission in 2020 that would involve sending a lunar orbital vehicle for demonstration purposes without any payloads, but that part of the plan has been scrapped in favor of focusing all efforts on delivering actual payloads for commercial customers by 2021 instead.

This updated focus, the company says, is due mostly to the speeding up of the global market for private launch services and payload delivery, including for things like NASA’s Commercial Lunar Payload Services program, wherein the agency is looking for a growing number of private contractors to support its own needs in terms of getting stuff to the Moon.

Although ispace itself isn’t on the list of nine companies selected in round one of NASA’s program, the Japanese company is supporting American nonprofit Draper in its efforts, which was one of the chosen. The Draper/ispace team-up happened after ispace’s initial commitment to its 2020 orbital demo, so its change in priorities makes sense given the new tie-up.

HAKUTO-R will use SpaceX’s Falcon 9 for its first missions, and the company has also signed partnerships with JAXA, Japan’s space agency, as well as new corporate partners including Suzuki, Sumitomo Corporation, Shogakukan and Citizen Watch.

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Rocket Lab’s Electron rocket will go reusable, with the company aiming for mid-air helicopter recovery

Private rocket launch startup and SpaceX competitor Rocket Lab made a big announcement today: It’ll be looking to re-use the first stage of its Electron rockets, returning them to Earth with a controlled landing after they make their initial trip to orbit with the payload on board. The landing sequence will be different from SpaceX’s however: They’ll attempt to catch the returned first stage mid-air using a helicopter.

That’s in part because, as Rocket Lab founder and CEO Peter Beck told a crowd when announcing the news today, the company is “not doing a propulsive re-entry” and “we’re not doing a propulsive landing,” and instead will leach off its immense speed upon return to Earth through a turnaround burn in space before releasing a parachute to slow it down enough for a helicopter to catch it.

There are a number of steps required to get to that point, but already, Rocket Lab has been looking to measure all the data it needs to ensure this is possible through its last few launches. It’s upgrading the instrumentation for its eighth flight to gather yet more data, and then on flight 10 it’ll have the rocket splash down into the ocean to recover that rocket for even more learning. Then, during a flight to be determined later (Beck is unwilling to put a number on it at this stage) they’ll try to actually bring one down in good enough shape to reuse it.

As for why, there’s a clear advantage to being able to re-fly rockets, and it’s a simple one to understand when you realize that there’s a huge amount of demand for commercial launches.

“The fundamental reason we’re doing this is launch frequency,” Beck said. “Even if I can get the stage done once, I can effectively double production ratio.”

Beck also added that the biggest difficulty will be braking the rocket’s speed as it returns to Earth — a feat next to which he said the actual mid-air capture of the Electron via helicopter is actually pretty easy, from his POV as an amateur helicopter pilot in training.

Rocket Lab has an HQ in Huntington Beach, Calif. and its own private launch site in New Zealand; it was founded in 2006 by Beck. The company has been test launching its orbital Electron rocket since 2017, and serving customers commercially since 2018. It also intends to launch from Virginia in the U.S. starting in 2019.

The company revealed its Photon satellite platform earlier this year, which would allow small satellite operators to focus on their specific service and use the off-the-shelf Photon design to skip the step of actually designing and building the satellite itself.

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