robotics

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Fort raises $13M for its robotics safety software

Fort Robotics today announced a $13 million raise. Led by Prime Movers Lab, the round also features Prologis Ventures, Quiet Capital, Lemnos Labs, Creative Ventures, Ahoy Capital, Compound, FundersClub and Mark Cuban.

The Philadelphia-based company was founded in 2018 by Samuel Reeves, who previous headed up Humanistic Robotics. That fellow Pennsylvania startup is focused on landmine and IED-clearing remote operating robotic systems.

The newer company is focused more on safety software, for collaborative robotics and other autonomous systems. Among the other issues being tackled by the company is cybersecurity vulnerability among these sots of workplace robotics. Other issues targeted here include broader system failure and potential human error.

The company says it currently works with 100 companies across a wide spectrum of categories, from warehouse fulfillment and manufacturing to delivery and transportation.

“The world is on the cusp of a new industrial revolution in mobile automation,” Reeves said in a release tied to the news. “With added investment and support, we’ll be able to rapidly scale the company to capitalize on the convergence of trend and opportunity to ensure that robotic systems are safely deployed across all industries.”

We’ve seen a fair bit of investment excitement around robotics in the past year, owing to increased interest in automation during the pandemic. Fort is well-positioned in that respect, with a solution aimed a fairly wide range of different verticals within the category.

 

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Last-mile delivery robotics company Refraction AI raises $4.2M

Ann Arbor-based Refraction AI announced today that it has raised a $4.2 million seed round. The startup, which debuted on the TechCrunch Sessions: Mobility stage back in 2019, was founded by a pair of University of Michigan professors (Matthew Johnson-Roberson — now CTO — and Ram Vasudevan) seeking to solve a number of issues posed by many delivery robots.

With an initial prototype built on a bicycle foundation, the company’s REV-1 robot is designed to operate in bike lanes and roads, rather than the standard sidewalk ‘bot. The different approach allows the robot to travel at higher speeds (topping out at 15 miles per hour) and removes some of the messy pedestrian-dodging issues that come with sidewalk use (while introducing some new ones on that narrow sliver of asphalt shared by cyclists).

Refraction is currently testing a small fleet in its native Ann Arbor. The seed round, led by Pillar VC, will be used for R&D, expanding the company’s reach and recruiting more customers, with a focus on grocery store and restaurant deliveries. Other investors include, eLab Ventures, Osage Venture Partners, Trucks Venture Capital, Alumni Ventures Group, Chad Laurans and Invest Michigan.

Another key differentiator is the use of cameras, versus LIDAR. The decision comes with some technological trade-offs, but benefits include a lower price point and the ability for the company to more quickly scale its fleet. The technology is also not easily districted by weather conditions encountered in the upper midwest, though it has limitations, too. As the company puts it, if you’re not comfortable walking out in it, the robot probably won’t be, either.

“Our platform uses technology that exists today in an innovative way, to get people the things they need, when they need them, where they live,” CEO Luke Schneider said in a release tied to the news. “And we’re doing so in a way that reduces business’ costs, makes roads less congested, and eliminates carbon emissions.”

With this new funding, the company plans to expand operations beyond its native Ann Arbor, though no additional test markets have been announced.


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How Rani Therapeutics’ robotic pill could change subcutaneous injection treatment

A new auto-injecting pill might soon become a replacement for subcutaneous injection treatments.

The idea for this so-called robotic pill came out of a research project around eight years ago from InCube Labs — a life sciences lab operated by Rani Therapeutics Chairman and CEO Mir Imran, who has degrees in electrical and biomedical engineering from Rutgers University. A prominent figure in life sciences innovation, Imran has founded more than 20 medical device companies and helped develop the world’s first implantable cardiac defibrillator.

In working on the technology behind San Jose-based Rani Therapeutics, Imran and his team wanted to find a way to relieve some of the painful side effects of subcutaneous (or under-the-skin) injections, while also improving the treatment’s efficacy. “The technology itself started with a very simple thesis,” said Imran in an interview. “We thought, why can’t we create a pill that contains a biologic drug that you swallow, and once it gets to the intestine, it transforms itself and delivers a pain-free injection?”

Rani Therapeutics’ approach is based on inherent properties of the gastrointestinal tract. An injecting mechanism in their pill is surrounded by a pH-sensitive coating that dissolves as the capsule moves from a patient’s stomach to the small intestine. This helps ensure that the pill starts injecting the medicine in the right place at the right time. Once there, the reactants mix and produce carbon dioxide, which in turn inflates a small balloon that helps create a pressure difference to help inject the drug-loaded needles into the intestinal wall. “So it’s a really well-timed cascade of events that results in the delivery of this needle,” said Imran.

Despite its somewhat mechanical procedure, the pill itself contains no metal or springs, reducing the chance of an inflammatory response in the body. The needles and other components are instead made of injectable-grade polymers, that Imran said has been used in other medical devices as well. Delivering the injections to the upper part of the small intestine also carries little risk of infection, as the prevalence of stomach acid and bile from the liver prevent bacteria from readily growing there.

One of Imran’s priorities for the pill was to eliminate the painful side effects of subcutaneous injections. “It wouldn’t make sense to replace them with another painful injection,” he said. “But biology was on our side, because your intestines don’t have the kind of pain sensors your skin does.” What’s more, administering the injection into the highly vascularized wall of the small intestine actually allows the treatment to work more efficiently than when applied through subcutaneous injection, which typically deposits the treatment into fatty tissue.

Imran and his team have plans to use the pill for a variety of indications, including the growth hormone disorder acromegaly, diabetes and osteoporosis. In January 2020, their acromegaly treatment, Octreotide, demonstrated both safety and sustained bioavailability in primary clinical trials. They hope to pursue future clinical trials for other indications, but chose to prioritize acromegaly initially because of its well-established treatment drug but “very painful injection,” Imran said.

At the end of last year, Rani Therapeutics raised $69 million in new funding to help further develop and test their platform. “This will finance us for the next several years,” said Imran. “Our approach to the business is to make the technology very robust and manufacturable.”


Early Stage is the premier ‘how-to’ event for startup entrepreneurs and investors. You’ll hear first-hand how some of the most successful founders and VCs build their businesses, raise money and manage their portfolios. We’ll cover every aspect of company-building: Fundraising, recruiting, sales, product market fit, PR, marketing and brand building. Each session also has audience participation built-in – there’s ample time included for audience questions and discussion.

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Autonomous drone maker Skydio raises $170M led by Andreessen Horowitz

Skydio has raised $170 million in a Series D funding round led by Andreessen Horowitz’s Growth Fund. That pushes it into unicorn territory, with $340 million in total funding and a post-money valuation north of $1 billion. Skydio’s fresh capital comes on the heels of its expansion last year into the enterprise market, and it intends to use the considerable pile of cash to help it expand globally and accelerate product development.

In July of last year, Skydio announced its $100 million Series C financing, and also debuted the X2, its first dedicated enterprise drone. The company also launched a suite of software for commercial and enterprise customers, its first departure from the consumer drone market where it had been focused prior to that raise since its founding in 2014.

Skydio’s debut drone, the R1, received a lot of accolades and praise for its autonomous capabilities. Unlike other consumer drones at the time, including from recreational drone maker DJI, the R1 could track a target and film them while avoiding obstacles without any human intervention required. Skydio then released the Skydio 2 in 2019, its second drone, cutting off more than half the price while improving on it its autonomous tracking and video capabilities.

Late last year, Skydio brought on additional senior talent to help it address enterprise and government customers, including a software development lead who had experience at Tesla and 3D printing company Carbon. Skydio also hired two Samsara executives at the same time to work on product and engineering. Samsara provides a platform for managing cloud-based fleet operations for large enterprises.

The applications of Skydio’s technology for commercial, public sector and enterprise organizations are many and varied. Already, the company works with public utilities, fire departments, construction firms and more to do work including remote inspection, emergency response, urban planning and more. Skydio’s U.S. pedigree also puts it in prime position to capitalize on the growing interest in applications from the defense sector.

a16z previously led Skydio’s Series A round. Other investors who participated in this Series D include Lines Capital, Next47, IVP and UP.Partners.

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Space startup Gitai raises $17.1M to help build the robotic workforce of commercial space

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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FarmWise plans to add autonomous crop dusting to its suite of robotic services

The robotics revolution in farming is set to continue as the autonomous crop cultivation company FarmWise looks to add new capabilities to its autonomous farming equipment.

The San Francisco-based company is currently testing the application of fungicides and insecticides to row crops as an additional capability for its weed-killing robots, according to company chief executive Sébastien Boyer.

It’s the latest advancement in robotics for the farm — a market that’s becoming increasingly crowded with the launch of new companies like Future Acres, which launched its support robot Carry today, and Mineral, the spinout from Alphabet (Google’s parent company) that provides crop analysis.

Rather than sell robots directly to farmers, FarmWise sells its robotics services to farms, and charges farms roughly $200 per acre inspected and weeded. “We show up on farmers’ fields with our own operators and our own equipment,” Boyer said.

It’s a business model that has attracted $24 million in outside funding from firm’s including Playground Global, and the company is likely going to raise another round, targeted at $20 million, later this year, according to Boyer.

Boyer says the company already counts half of the largest growers in Salinas, California among the company’s customers. These are farms for big consumer vegetable companies like Dole.

What FarmWise hopes to do is fill gaps of missing labor, according to Boyer. Along with co-founder Thomas Palomares, Boyer said he identified a need for farms to keep up with their output while dealing with a shrinking workforce. “It’s about helping farmers keep up with work while the pool of people willing to do these jobs is shrinking,” he said.

Using the robots isn’t just good for farms’ bottom lines, Boyer said. It also helps reduce the amount of fertilizer and chemicals used on the farm, which is good for the environment and creates a more sustainable food chain, he said.

“I was attracted by working on a large-scale sustainability problem,” Boyer said.

 

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Wingcopter raises $22 million to expand to the U.S. and launch a next-generation drone

German drone technology startup Wingcopter has raised a $22 million Series A – its first significant venture capital raise after mostly bootstrapping. The company, which focuses on drone delivery, has come a long way since its founding in 2017, having developed, built and flown its Wingcopter 178 heavy-lift cargo delivery drone using its proprietary and patented tilt-rotor propellant mechanism, which combines all the benefits of vertical take-off and landing with the advantages of fixed-wing aircraft for longer distance horizontal flight.

This new Series A round was led by Silicon Valley VC Xplorer Capital, as well as German growth fund Futury Regio Growth. Wingcopter CEO and founder Tom Plümmer explained to the in an interview that the addition of an SV-based investor is particularly important to the startup, since it’s in the process of preparing its entry into the U.S., with plans for an American facility, both for flight testing to satisfy FAA requirements for operational certification, as well as eventually for U.S.-based drone production.

Wingcopter has already been operating commercially in a few different markets globally, including in Vanuatu in partnership with Unicef for vaccine delivery to remote areas, in Tanzania for two-way medical supply delivery working with Tanzania, and in Ireland where it completed the world’s first delivery of insulin by drone beyond visual line of sight (BVLOS, the industry’s technical term for when a drone flies beyond the visual range of a human operator who has the ability to take control in case of emergencies).

Wingcopter CEO and co-founder Tom Plümmer. Credit: Jonas Wresch

While Wingcopter has so far pursued a business as an OEM manufacturer of drones, and has had paying customers eager to purchase its hardware effectively since day one (Plümmer told me that they had at least one customer wiring them money before they even had a bank account set up for the business), but it’s also now getting into the business of offering drone delivery-as-a-service. After doing the hard work of building its technology from the ground up, and seeking out the necessary regulatory approvals to operate in multiple markets around the world, Plümmer says that he and his co-founders realized that operating a service business not only meant a new source of revenue, but also better-served the needs of many of its potential customers.

“We learned during this process, through applying for permission, receiving these permissions and working now in five continents in multiple countries, flying BVLOS, that actually operating drones is something we are now very good at,” he said. This was actually becoming a really good source of income, and ended up actually making up more than half of our revenue at some point. Also looking at scalability of the business model of being an OEM, it’s kind of […] linear.”

Linear growth with solid revenue and steady demand was fine for Wingcopter as a bootstrapped startup founded by university students supported by a small initial investment from family and friends. But Plümmer says the company say so much potential in the technology it had developed, and the emerging drone delivery market, that the exponential growth curve of its drone delivery-as-a-service model helped make traditional VC backing make sense. In the early days, Plümmer says Wingcopter had been approached by VCs, but at the time it didn’t make sense for what they were trying to do; that’s changed.

“We were really lucky to bootstrap over the last four years,” Plümmer said. “Basically, just by selling drones and creating revenue, we could employ our first 30 employees. But at some point, you realize you want to really plan with that revenue, so you want to have monthly revenues, which generally repeat like a software business – like software as a service.”

Wingcopter 178 cargo drone performing a delivery for Merck.

Wingcopter has also established a useful hedge regarding its service business, not only by being its own hardware supplier, but also by having worked closely with many global flight regulators on their regulatory process through the early days of commercial drone flights. They’re working with the FAA on its certification process now, for instance, with Plümmer saying that they participate in weekly calls with the regulator on its upcoming certification process for BVLOS drone operators. Understanding the regulatory environment, and even helping architect it, is a major selling point for partners who don’t want to have to build out that kind of expertise and regulatory team in-house.

Meanwhile, the company will continue to act as an OEM as well, selling not only its Wingcopter 178 heavy-lift model, which can fly up to 75 miles, at speeds of up to 100 mph, and that can carry payloads up to around 13 lbs. Because of its unique tilt-rotor mechanism, it’s not only more efficient in flight, but it can also fly in much windier conditions – and take-off and land in harsher conditions than most drones, too.

Plümmer tells me that Wingcopter doesn’t intend to rest on its laurels in the hardware department, either; it’s going to be introducing a new model of drone soon, with different capabilities that expand the company’s addressable market, both as an OEM and in its drones-as-a-service business.

With its U.S. expansion, Wingcopter will still look to focus specifically on the delivery market, but Plümmer points out that there’s no reason its unique technology couldn’t also work well to serve markets including observation and inspection, or to address needs in the communication space as well. The one market that Wingcopter doesn’t intend to pursue, however, is military and defense. While these are popular customers in the aerospace and drone industries, Plümmer says that Wingcopter has a mission “to create sustainable and efficient drone solutions for improving and saving lives,” and says the startup looks at every potential customer and ensures that it aligns with its vision – which defense customers do not.

While the company has just announced the close of its Series A round, Plümmer says they’re already in talks with some potential investors to join a Series B. It’s also going to be looking for U.S. based talent in embedded systems software and flight operations testing, to help with the testing process required its certification by the FAA.

Plümmer sees a long tail of value to be built from Wingcopter’s patented tilt-rotor design, with potential applications in a range of industries, and he says that Wingcopter won’t be looking around for any potential via M&A until it has fully realized that value. Meanwhile, the company is also starting to sow the seeds of its own potential future customers, with training programs in drone flights and operations it’s putting on in partnership with UNICEF’s African Drone and Data Academy. Wingcopter clearly envisions a bright future for drone delivery, and its work in focusing its efforts on building differentiating hardware, plus the role it’s playing in setting the regulatory agenda globally, could help position it at the center of that future.

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Astroscale ships its space junk removal demonstration satellite for March 2021 mission

Japanese startup Astroscale has shipped its ELSA-d spacecraft to the Baikonur Cosmodrome in Kazahkstan, where it will be integrated with a Soyuz rocket for a launch scheduled for March of next year. This is a crucial mission for Astroscale, since it’ll be the first in-space demonstration of the company’s technology for de-orbiting space debris, a cornerstone of its proposed space sustainability service business.

The ELSA-d mission by Astroscale is a small satellite mission that will demonstrate two key technologies that enable the company’s vision for orbital debris removal. First will be a targeting component, demonstrating an ability to locate and dock with a piece of space debris, using positioning sensors including GPS and laser locating technologies. That will be used by a so-called “servicer” satellite to find and attach to a “target” satellite launched at the same time, which will stand in for a potential piece of debris.

Astroscale intends to dock and release with the “target” using its “servicer” multiple times over the course of the mission, showing that it can identify and capture uncontrolled objects in space, and that it can maneuver them for controlled de-orbit. This will basically prove out the feasibility of the technology underlying its business model, and set it up for future commercial operations.

In October, Astroscale announced that it had raised $51 million, making its total raised to date $191 million. The company also acquired the staff and IP of a company called Effective Space Solutions in June, which it will use to build out the geostationary servicing arm of its business, in addition to the LEO operations that ELSA-d will demonstrate.

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German Bionic raises $20M led by Samsung for exoskeleton tech to supercharge human labor

Exoskeleton technology has been one of the more interesting developments in the world of robotics: Instead of building machines that replace humans altogether, build hardware that humans can wear to supercharge their abilities. Today, German Bionic, one of the startups designing exoskeletons specifically aimed at industrial and physical applications — it describes its Cray X robot as “the world’s first connected exoskeleton for industrial use,” that is, to help people lifting and working with heavy objects, providing more power, precision and safety — is announcing a funding round that underscores the opportunity ahead.

The Augsburg, Germany-based company has raised $20 million, funding that it plans to use to continue building out its business, as well as its technology, both in terms of the hardware and the cloud-based software platform, German Bionic IO, that works with the exoskeletons to optimize them and help them “learn” to work better.

The Cray X currently can compensate up to 30 kg for each lifting movement, the company says.

“With our groundbreaking robotic technology that combines human work with the industrial Internet of Things (IIoT), we literally strengthen the shop floor workers’ backs in an immediate and sustainable way. Measurable data underscores that this ultimately increases productivity and the efficiency of the work done,” says Armin G. Schmidt, CEO of German Bionic, in a statement. “The market for smart human-machine systems is huge and we are now perfectly positioned to take a major share and substantially improve numerous working lives.”

The Series A is being co-led by Samsung Catalyst Fund, a strategic investment arm from the hardware giant, and German investor MIG AG, one of the original backers of BioNtech, the breakthrough company that’s developed the first COVID-19 vaccine to be rolled out globally.

Storm Ventures, Benhamou Global Ventures (founded and led by Eric Benhamou, who was the founding CEO of Palm and before that the CEO of 3com) and IT Farm also participated. Previously, German Bionic had only raised $3.5 million in seed funding (with IT Farm, Atlantic Labs and individual investors participating).

German Bionic’s rise comes at an interesting moment in terms of how automation and cloud technology are sweeping the world of work. When people talk about the next generation of industrial work, the focus is usually on more automation and the rise of robots to replace humans in different stages of production.

But at the same time, some robotics technologists have worked on another idea. Because we’re probably still a long way away from being able to make robots that are just like humans, but better in terms of cognition and all movements, instead, create hardware that doesn’t replace, but augments, live laborers, to help make them stronger while still being able to retain the reliable and fine-tuned expertise of those humans.

The argument for more automation in industrial settings has taken on a more pointed urgency in recent times, with the rise of the COVID-19 health pandemic: Factories have been one of the focus points for outbreaks, and the tendency has been to reduce physical contact and proximity to reduce the spread of the virus.

Exoskeletons don’t really address that aspect of COVID-19 — even if you might require less of them as a result of using exoskeletons, you still require humans to wear them, after all — but the general focus that automation has had has brought more attention to the opportunity of using them.

And in any case, even putting the pandemic to one side, we are still a long way away from cost-effective robots that completely replace humans in all situations. So, as we roll out vaccinations and develop a better understanding of how the virus operates, this still means a strong market for the exoskeleton concept, which analysts (quoted by German Bionic) predict could be worth as much as $20 billion by 2030.

In that context, it’s interesting to consider Samsung as an investor: The company itself, as one of the world’s leading consumer electronics and industrial electronics providers, is a manufacturing powerhouse in its own right. But it also makes equipment for others to use in their industrial work, both as a direct brand and through subsidiaries like Harman. It’s not clear which of these use cases interests Samsung: whether to use the Cray X in its own manufacturing and logistics work, or whether to become a strategic partner in manufacturing these for others. It could easily be both.

“We are pleased to support German Bionic in its continued development of world-leading exoskeleton technology,” says Young Sohn, corporate president and chief strategy officer for Samsung Electronics and chairman of the board, Harman, in a statement. “Exoskeleton technologies have great promise in enhancing human’s health, wellbeing and productivity. We believe that it can be a transformative technology with mass market potential.”

German Bionic describes its Cray X as a “self-learning power suit” aimed primarily at reinforcing lifting movements and to safeguard the wearer from making bad calls that could cause injuries. That could apply both to those in factories, or those in warehouses, or even sole trader mechanics working in your local garage. The company is not disclosing a list of customers, except to note that it includes, in the words of a spokesperson, “a big logistics player, industrial producers and infrastructure hubs.” One of these, the Stuttgart Airport, is highlighted on its site.  

“Previously, efficiency gains and health promotion in manual labor were often at odds with one another. German Bionic Systems managed to not only break through this paradigm, but also to make manual labor a part of the digital transformation and elegantly integrate it into the smart factory,” says Michael Motschmann, managing partner with MIG in a statement. “We see immense potential with the company and are particularly happy to be working together with a first-class team of experienced entrepreneurs and engineers.”

Exoskeletons as a concept have been around for over a decade already — MIT developed its first exoskeleton, aimed to help soldiers carrying heavy loads — back in 2007, but advancements in cloud computing, smaller processors for the hardware itself and artificial intelligence have really opened up the idea of where and how these might augment humans. In addition to industry, some of the other applications have included helping people with knee injuries (or looking to avoid knee injuries!) ski better, and for medical purposes, although the recent pandemic has put a strain on some of these use cases, leading to indefinite pauses in production.

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Space startup Aevum debuts world’s first fully autonomous orbital rocket launching drone

Launching things to space doesn’t have to mean firing a large rocket vertically using massive amounts of rocket-fuel-powered thrust — startup Aevum breaks the mould in multiple ways, with an innovative launch vehicle design that combines uncrewed aircraft with horizontal take-off and landing capabilities, with a secondary stage that deploys at high altitude and can take small payloads the rest of the way to space.

Aevum’s model actually isn’t breaking much new ground in terms of its foundational technology, according to founder and CEO Jay Skylus, with whom I spoke prior to today’s official unveiling of the startup’s Ravn X launch vehicle. Skylus, who previously worked for a range of space industry household names and startups, including NASA, Boeing, Moon Express and Firefly, told me the startup has focused primarily on making the most of existing available technologies to create a mostly reusable, fully automated small payload orbital delivery system.

To his point, Ravn X doesn’t look too dissimilar from existing jet aircraft, and bears obvious resemblance to the Predator line of UAVs already in use for terrestrial uncrewed flight. The vehicle is 80 feet long, and has a 60-foot wingspan, with a total max weight of 55,000 lbs including payload. Seventy percent of the system is fully reusable today, and Skylus says the goal is to iterate on that to the point where 95% of the launch system will be reusable in the relatively near future.

Image Credits: Aevum

Ravn X’s delivery system is designed for rapid response delivery, and is able to get small satellites to orbit in as little as 180 minutes — with the capability of having it ready to fly and deliver another again fairly shortly after that. It uses traditional jet fuel, the same kind used on commercial airliners, and it can take off and land in “virtually any weather,” according to Skylus. It also takes off and lands on any one-mile stretch of traditional aircraft runway, meaning it can theoretically use just about any active airport in the world as a launch and landing site.

One of they key defining differences of Aevum relative to other space launch startups is that what they’re presenting isn’t theoretical, or in development — the Ravn X already has paying customers, including over $1 billion in U.S. government contracts. Its first mission is with the U.S. Space Force, the ASLON-45 small satellite launch mission (set for late 2021), and it also has a contract for 20 missions spanning nine years with the U.S. Air Force Space and Missile Systems Center. Deliveries of Aevum’s production launch vehicles to its customers have already begun, in fact, Skylus says.

The U.S. Department of Defense has for quite some time now been actively pursuing space launch options that provide it with responsive, short turnaround launch capabilities. That’s the same goal of companies like Astra, which was originally looking to win the DARPA challenge for such systems (since expired) with its Rocket small launcher. Aevum’s system has the added advantage of being essentially fully compatible with existing airfield infrastructure — and also of not requiring that human pilots be involved or at risk at all, as they are with the superficially similar launch model espoused by Virgin Orbit.

Aevum isn’t just providing the Ravn X launcher, either; its goal is to handle end-to-end logistics for launch services, including payload transportation and integration, which are parts of the process that Skylus says are often overlooked or underserved by existing launch providers, and that many companies creating payloads also don’t realize are costly, complicated and time-consuming parts of actually delivering a working small satellite to orbit. The startup also isn’t “re-inventing the wheel” when it comes to its integration services — Skylus says they’re working with a range of existing partners that all already have proven experience doing this work but haven’t previously had the motivation or the need to provide these kinds of services to the customers that Skylum sees coming online, both in the public and private sector.

The need isn’t for another SpaceX, Skylus says; rather, thanks to SpaceX, there’s a wealth of aerospace companies that previously worked almost exclusively with large government contracts and the one or two massive legacy rocket companies to put missions together. They’re now open to working with the greatly expanded market for orbital payloads, including small satellites that aim to provide cost-effective solutions in communications, environmental monitor, shipping and defense.

Aevum’s solution definitely sounds like it addresses a clear and present need, in a way that offers benefits in terms of risk profile, reusability, cost and flexibility. The company’s first active missions will obviously be watched closely, by potential customers and competitors alike.

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