nanoracks
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Japanese space startup Gitai has raised a $17.1 million funding round, a Series B financing for the robotics startup. This new funding will be used for hiring, as well as funding the development and execution of an on-orbit demonstration mission for the company’s robotic technology, which will show its efficacy in performing in-space satellite servicing work. That mission is currently set to take place in 2023.
Gitai will also be staffing up in the U.S., specifically, as it seeks to expand its stateside presence in a bid to attract more business from that market.
“We are proceeding well in the Japanese market, and we’ve already contracted missions from Japanese companies, but we haven’t expanded to the U.S. market yet,” explained Gitai founder and CEO Sho Nakanose in an interview. So we would like to get missions from U.S. commercial space companies, as a subcontractor first. We’re especially interested in on-orbit servicing, and we would like to provide general-purpose robotic solutions for an orbital service provider in the U.S.”
Nakanose told me that Gitai has plenty of experience under its belt developing robots which are specifically able to install hardware on satellites on-orbit, which could potentially be useful for upgrading existing satellites and constellations with new capabilities, for changing out batteries to keep satellites operational beyond their service life, or for repairing satellites if they should malfunction.
Gitai’s focus isn’t exclusively on extra-vehicular activity in the vacuum of space, however. It’s also performing a demonstration mission of its technical capabilities in partnership with Nanoracks using the Bishop Airlock, which is the first permanent commercial addition to the International Space Station. Gitai’s robot, codenamed S1, is an arm–style robot not unlike industrial robots here on Earth, and it’ll be showing off a number of its capabilities, including operating a control panel and changing out cables.
Long-term, Gitai’s goal is to create a robotic workforce that can assist with establishing bases and colonies on the Moon and Mars, as well as in orbit. With NASA’s plans to build a more permanent research presence on orbit at the Moon, as well as on the surface, with the eventual goal of reaching Mars, and private companies like SpaceX and Blue Origin looking ahead to more permanent colonies on Mars, as well as large in-space habitats hosting humans as well as commercial activity, Nakanose suggests that there’s going to be ample need for low-cost, efficient robotic labor – particularly in environments that are inhospitable to human life.
Nakanose told me that he actually got started with Gitai after the loss of his mother – an unfortunate passing he said he firmly believes could have been avoided with the aid of robotic intervention. He began developing robots that could expand and augment human capability, and then researched what was likely the most useful and needed application of this technology from a commercial perspective. That research led Nakanose to conclude that space was the best long-term opportunity for a new robotics startup, and Gitai was born.
This funding was led by SPARX Innovation for the Future Co. Ltd, and includes funding form DcI Venture Growth Fund, the Dai-ichi Life Insurance Company, and EP-GB (Epson’s venture investment arm).
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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.
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.
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.
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.
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.
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.
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.
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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Communications satellites are multiplying year by year as more companies vie to create an orbital network that brings high-speed internet to the globe. Ubiquitilink, a new company headed by Nanoracks co-founder Charles Miller, is taking a different tack: reinventing the Earthbound side of the technology stack.
Miller’s intuition, backed by approval and funding from a number of investors and communications giants, is that people are competing to solve the wrong problem in the comsat world. Driving down the cost of satellites isn’t going to create the revolution they hope. Instead, he thinks the way forward lies in completely rebuilding the “user terminal,” usually a ground station or large antenna.
“If you’re focused on bridging the digital divide, say you have to build a thousand satellites and a hundred million user terminals,” he said, “which should you optimize for cost?”
Of course, dropping the price of satellites has plenty of benefits on its own, but he does have a point. What happens when a satellite network is in place to cover most of the planet but the only devices that can access it cost thousands of dollars or have to be in proximity to some subsidized high-tech hub?
There are billions of phones on the planet, he points out, yet only 10 percent of the world has anything like a mobile connection. Serving the hundreds of millions who at any given moment have no signal, he suggests, is a no-brainer. And you’re not going to do it by adding more towers; if that was a valid business proposition, telecoms would have done it years ago.
Instead, Miller’s plan is to outfit phones with a new hardware-software stack that will offer a baseline level of communication whenever a phone would otherwise lapse into “no service.” And he claims it’ll be possible for less than $5 per person.
He was coy about the exact nature of this tech, but I didn’t get the sense that it’s vaporware or anything like that. Miller and his team are seasoned space and telecoms people, and of course you don’t generally launch a satellite to test vaporware.
But Ubiquitilink does have a bird in the air, with testing of their tech set to start next month and two more launches planned. The stack has already been proven on the ground, Miller said, and has garnered serious interest.
“We’ve been in stealth for several years and have signed up 22 partners — 20 are multi-billion-dollar companies,” he said, adding that the latter are mainly communications companies, though he declined to name them. The company has also gotten regulatory clearance to test in five countries, including the U.S.
Miller self-funded the company at the outset, but soon raised a pre-seed round led by Blazar Ventures (and indirectly, telecoms infrastructure standby Neustar). Unshackled Ventures led the seed round, along with RRE Ventures, Rise of the Rest, and One Way Ventures. All told, the company is working with a total $6.5 million, which it will use to finance its launches and tests; once they’ve taken place, it will be safer to dispel a bit of the mystery around the tech.
“Ubiquitilink represents one of the largest opportunities in telecommunications,” Unshackled founding partner Manan Mehta said, calling the company’s team “maniacally focused.”
I’m more than a little interested to find out more about this stealth attempt, three years in the making so far, to rebuild satellite communications from the ground up. Some skepticism is warranted, but the pedigree here is difficult to doubt; we’ll know more once orbital testing commences in the next few months.
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