robotics
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Space attracts a lot of attention as an area of frontier tech investment and entrepreneurship, but there’s another vast expanse that could actually be more addressable by the innovation economy — Earth’s oceans.
Seafaring startups aren’t attracting quite as much attention as their spacefaring cousins, but 2019 still saw a flurry of activity in this sector and 2020 could be an even big year for everything aquatic.
One big similarity between space tech and seafaring opportunities is that data collection represents a significant percent of the potential market. Data collection in and around Earth’s oceans has increased dramatically in recent years thanks to the availability, efficacy and cost of sensor technologies — in 2017, it was estimated that as much ocean data had been gathered in the past two years as in all of human history. But relatively speaking, that barely scratches the surface.
Ocean observation has largely been driven by scientific and research goals, which means there’s bound to be a pretty hard cap on available funding. But ocean data has value in all kinds of private’s sector pursuits, including the potential for autonomous commercial cargo transportation (more on that later), as well as predicting weather and climate conditions that impact shipping routes, agriculture and more.
Various methods exist for collecting data about Earth’s oceans, including space-based satellite observation. Startups like Terradepth, Saildrone and Promare have all proposed various autonomous seafaring data collection vehicle designs that could leverage robotics to bring ocean observation at scale closer to home. These firms are using technology that’s been made affordable for startup budgets through miniaturization and efficiency gains evolved through the progress of the smartphone and other computing industries.
This past year, Xprize awarded millions in prize money to teams that competed in the Ocean Discovery competition for autonomous ocean floor mapping, which is resulting in spin-out ventures that have a head start on success.
As in space, data collection and observation can take many forms, so we can expect to see many industry-specific approaches emerge to capitalize on what are surprisingly large market opportunities, even for seemingly narrow types of data. Continued efforts to refine and improve robotics technologies like sensing and vision should drive even more growth in autonomous ocean observation in 2020.
Oceanfaring drones aren’t just about data collection, however; a huge portion of the global logistics market still relies on giant cargo vessels. The drive to automate container ships is nothing new, but it’s reaching a point where we’re actually starting to see autonomous cargo vehicles embark, including this Chinese cargo ship that set out from Guangdong at the end of this year and a ship called the Yara Birkeland has begun trials out of Rotterdam and expects to be operating fully autonomously by 2022.
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Modern agriculture involves fields of mind-boggling size, and spraying them efficiently is a serious operational challenge. Pyka is taking on the largely human-powered spray business with an autonomous winged craft and, crucially, regulatory approval.
Just as we’ve seen with DroneSeed, this type of flying is risky for pilots, who must fly very close to the ground and other obstacles, yet also highly susceptible to automation; That’s because it involves lots of repetitive flight patterns that must be executed perfectly, over and over.
Pyka’s approach is unlike that of many in the drone industry, which has tended to use multirotor craft for their maneuverability and easy take-off and landing. But those drones can’t carry the weight and volume of pesticides and other chemicals that (unfortunately) need to be deployed at large scales.

The craft Pyka has built is more traditional, resembling a traditional one-seater crop dusting plane but lacking the cockpit. It’s driven by a trio of propellers, and most of the interior is given over to payload (it can carry about 450 pounds) and batteries. Of course, there is also a sensing suite and onboard computer to handle the immediate demands of automated flight.
Pyka can take off or land on a 150-foot stretch of flat land, so you don’t have to worry about setting up a runway and wasting energy getting to the target area. Of course, it’ll eventually need to swap out batteries, which is part of the ground crew’s responsibilities. They’ll also be designing the overall course for the craft, though the actual flight path and moment-to-moment decisions are handled by the flight computer.
Example of a flight path accounting for obstacles without human input
All this means the plane, apparently called the Egret, can spray about a hundred acres per hour, about the same as a helicopter. But the autonomous craft provides improved precision (it flies lower) and safety (no human pulling difficult maneuvers every minute or two).
Perhaps more importantly, the feds don’t mind it. Pyka claims to be the only company in the world with a commercially approved large autonomous electric aircraft. Small ones like drones have been approved left and right, but the Egret is approaching the size of a traditional “small aircraft,” like a Piper Cub.
Of course, that’s just the craft — other regulatory hurdles hinder wide deployment, like communicating with air traffic management and other craft; certification of the craft in other ways; a more robust long-range sense and avoid system and so on. But Pyka’s Egret has already flown thousands of miles at test farms that pay for the privilege. (Pyka declined to comment on its business model, customers or revenues.)
The company’s founding team — Michael Norcia, Chuma Ogunwole, Kyle Moore and Nathan White — comes from a variety of well-known companies working in adjacent spaces: Cora, Kittyhawk, Joby Aviation, Google X, Waymo and Morgan Stanley (that’s the COO).
The $11 million seed round was led by Prime Movers Lab, with participation from Y Combinator, Greycroft, Data Collective and Bold Capital Partners.
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Plenty of the ocean remains unexplored, even though it’s a huge trove of potentially valuable information. Current methods for mapping and gathering ocean data, especially deep-ocean data, generally require humans in the mix (even if controlling vehicles remotely), are immensely expensive and are not designed for long periods of operation. Startup Terradepth, founded by two ex-Navy SEALs and based in Austin, Texas, is aiming to change all that using autonomous submersible vehicles that can, if deployed as a fleet with adequate scale, provide access to deep-ocean information on a data-as-a-service basis.
The startup has raised $8 million in funding in a new round led by storage hardware company Seagate Technology, and the funding will help it pursue its ambitious goal of demonstrating their technology at work in an open-water environment by next summer. From there, it hopes to scale its operations the following year, and ultimately operate an entire networked fleet of its fully autonomous underwater robots, which it calls “Autonomous Hybrid Vehicles,” or AxV.
Terradepth says that its technology will be able to operate at a scale and cost not previously possible because of their use of autonomous navigation, and it will aim to offer raw data, information processed through their own machine-learning powered analytics layer, or cloud-based third-party analytics. They aim to offer multispectral imaging, surveillance and monitoring/forecasting services for off-shore equipment and resources.
In addition to co-founders Joe Wolfel and Judson Kauffman, Terradepth’s small team includes a range of roboticists and engineers with expertise in both software and hardware. Their vehicles are designed to alternate between deep ocean passes and trips to the water’s surface, with underwater AxV communicating with the surface-based robots, which are simultaneously recharging, which then pass on data collected to satellites for relaying back to data centers and customers.
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Early-stage startup founders heed this call. Lock down your opportunity to exhibit your early-stage startup in front of a veritable who’s who in the robotics and AI industries while you can. Yes, it’s only December. And yes, TC Sessions: Robotics+AI 2020 takes place months from now on March 3 in Berkeley. Here’s why timing matters.
We have a limited number of demo tables, and they’re going fast — only nine left. Get ahead of the curve and buy your Early-Stage Startup Exhibitor Package now. It includes four tickets to the event, so you and your crew can showcase your startup in front of 1,500 influential attendees. We’re talking about the exact demographic that can help move your business forward.
A one-day event, TC Sessions: Robotics+AI focuses exclusively on these two world-changing technologies. Programming features in-depth interviews, panel discussions, Q&As, workshops and networking opportunities with the industries’ leading minds, makers, technologists, researchers and investors.
As one of a select number of exhibitors, you’ll place your startup in the path of those industry leaders. Here are just a few of the luminaries scheduled to speak at this year’s event:
That’s an awesome start to the speaker lineup, and we’re just getting started. We’re announcing more every week, so keep checking back. Take a look at last year’s agenda to get a sense of the kind of programming you can expect.
Hey, there’s more than one way to shine at this event. Check out Pitch Night, our new pitch competition. It’s totally free and open to founders of early-stage startups focused on robotics and AI. Simply apply here by February 1.
TC Sessions: Robotics+AI 2020 takes place on March 3 at UC Berkeley’s Zellerbach Hall. Don’t miss this opportunity to step in the spotlight. Buy an Early-Stage Startup Exhibitor Package and present your product and company to the top movers and shakers in robotics and AI.
Is your company interested in sponsoring or exhibiting at TC Sessions: Robotics & AI 2020? Contact our sponsorship sales team by filling out this form.
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Gecko Robotics has landed $40 million in financing as it looks to build an additional 40 robots over the next year to meet what the company sees as growing demand for its safety and infrastructure monitoring services.
“We are growing fast solving critical infrastructure problems that affect our lives, and can even save lives,” says Jake Loosararian, Gecko Robotics’ 28-year-old co-founder and chief executive officer, in a statement. “At our core, we are a robot-enabled software company that helps stop life-threatening catastrophes. We’ve developed a revolutionary way to use robots as an enabler to capture data for predictability of infrastructure; reducing failure, explosions, emissions and billions of dollars of loss each year.”
In the three years since its launch in 2016, Gecko Robotics has managed to grow from a small team of Pittsburgh robotics experts hailing from Carnegie Mellon. Indeed, the company has added more than 100 new employees. The hiring push has been largely around creating a team of qualified experts in particular market segments who can operate the robots that Gecko deploys to industrial work sites.
There’s been something of a robotics revolution in the safety and compliance market over the past few years. From automated assembly lines to warehouses and now to chemical plants and refineries, robots are making their presence felt.
And Gecko isn’t the only company that’s trying to tackle the market. Other companies like Invert Robotics, a Christchurch, New Zealand-based company, has built its own competitive robotic safety inspector.
The initial pitch from Gecko managed to attract angel investors like Mark Cuban, Deep Nishar (a managing partner at SoftBank), Josh Reeves and Jake Seid, the managing director at Stone Bridge Ventures.
Now the company adds the Midwestern venture capital juggernaut Drive Capital to its stable of investors.
“We are very excited for the future of robotics in industrial inspection. The Gecko Robotics team are revolutionizing an industry that is in need of a real upgrade and will save lives,” said Mark Kvamme, lead investor and partner at Drive Capital. “I see amazing potential for Gecko’s business model, they are on the path to become a market leader in their industry.”
Gecko Robotics has already opened a 20,000-square-foot office in Houston, and has offices in Houston, Austin and Pittsburgh.
“The robots are amazing, but they’re not going to be able to complete the job done by these experts who have experience of 30 to 40 years,” says Loosararian. “We have thought leaders who go out in the field… they take the robots out and they use their own manual ability and knowledge to provide the expertise to the clients.”
Gecko currently has 60 robots in its stable of robots and will add at least another 40 over the course of the year. “The product at the end is the software license that they pay for annually,” Loosararian says.
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Mark your calendars and dust off your public-speaking skills. This year, there’s an exciting new opportunity at TC Sessions: Robotics + AI, which returns to UC Berkeley on March 3, 2020. We’ve added a pitch-off specifically for early-stage startups focused on AI or robotics.
You heard right. In addition to a full day packed with speakers, breakout sessions and Q&As featuring the top names, leading minds and creative makers in robotics and AI, we’re upping the ante. We’ll choose 10 startups to pitch at a private event the night before the show opens. Here’s how it works.
The first step: Apply to the pitch-off by February 1. TechCrunch editors will review all applications and select 10 startups to participate. We’ll notify the founders by February 15 — you’ll have plenty of time to hone your pitch.
You’ll deliver your pitch at a private event, and your audience will consist of TechCrunch editors, main-stage speakers and industry experts. Our panel of VC judges will choose five teams as finalists, and they will pitch the next day on the main stage at TC Sessions: Robotics + AI.
Talk about an unprecedented opportunity. Place your startup in front of the influential movers and shakers of these two world-changing industries — and get video coverage on TechCrunch, too. We expect attendance to meet or exceed last year’s, when 1,500 people attended the show and tens of thousands followed along online.
Oh, and here’s one more pitch-off perk. Each of the 10 startup team finalists will receive two free tickets to attend TC Sessions: Robotics + AI 2020 the next day.
TC Sessions: Robotics + AI 2020 takes place on March 3. Apply to the pitch-off here by February 1. Don’t want to pitch? That’s fine — but don’t miss this epic day-long event dedicated to exploring the latest technology, trends and investment strategies in robotics and AI. Get your early-bird ticket here and save $100. We’ll see you in Berkeley!
Is your company interested in sponsoring or exhibiting at TC Sessions: Robotics & AI 2020? Contact our sponsorship sales team by filling out this form.
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Have we got a Cyber Monday deal for you. TC Sessions: Robotics+AI (March 3) and TC Sessions: Mobility (May 14) are coming back to California in 2020, with early-bird tickets starting at $275 and $250 respectively. But if you buy your pass today, you’ll save an extra 15% on each event. How sweet is that?
Don’t delay, startuppers. Buy your pass to TC Sessions: Robotics+AI and/or TC Sessions: Mobility before this one-day deal expires promptly tonight at 11:59 pm PT.
Oh, and did we mention that all startup exhibitor tables are also 15% off? Tables are good for early-stage startups and come with four (4) tickets and demo area at the conference. Book your table for Mobility here or one for Robotics here.
It doesn’t take artificial intelligence to recognize great opportunity, and you’ll find plenty of it at our day-long exploration of the latest issues, trends, tech and products in robotics+AI and mobility. At each of last year’s events, 1,000+ of each category’s top minds and makers gathered for live interviews, demos and workshops featuring world-renown technologists, founders and investors — not to mention world-class networking.
Past Robotics+AI Speakers:
Past Mobility Speakers:
We’re just getting started on building out the event agenda and we’ll announce plenty more speakers and panelists over the coming months, so keep checking back.
Mark your calendar, join us at UC Berkeley on March 3 for TC Sessions: Robotics or come to San Jose on May 14 for TC Sessions: Mobility and spend an entire day with the best and brightest minds and makers. Don’t miss this Cyber Monday opportunity to save an extra 15% on tickets to TC Sessions: Robotics+AI and/or TC Sessions: Mobility.
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The Valley’s affinity for robotics shows no signs of cooling. Technical enhancements through innovations like AI/ML, compute power and big data utilization continue to drive new performance milestones, efficiencies and use cases.
Despite the old saying, “hardware is hard,” investment in the robotics space continues to expand. Money is pouring in across robotics’ billion-dollar sub verticals, including industrial and labor automation, drone delivery, machine vision and a wide range of others.
According to data from Pitchbook and Crunchbase, 2018 saw new highs for the number of venture deals and total invested capital in the space, with roughly $5 billion in investment coming from nearly 400 deals. With robotics well on its way to again set new investment peaks in 2019, we asked 13 leading VCs who work at firms spanning early to growth stages to share what’s exciting them most and where they see opportunity in the sector:
Participants discuss the compelling business models for robotics startups (such as “Robots as a Service”), current valuations, growth tactics and key robotics KPIs, while also diving into key trends in industrial automation, human replacement, transportation, climate change, and the evolving regulatory environment.
Which trends are you most excited in robotics from an investing perspective?
The opportunity to unlock human superpowers:
- Increase productivity to enhance creativity leading to new products and businesses.
- Automating dangerous tasks and eliminating undesirable, dangerous jobs in mining, manufacturing, and shipping/logistics.
- Making the most deadly mode of transport: driving, 100% safe.
How much time are you spending on robotics right now? Is the market under-heated, overheated, or just right?
- Three-quarters of the new opportunities I look at involve some sort of automation.
- The market for robot startups attempting direct human labor replacement, floor-sweeping, and dumb-waiter robots, and robotic lawnmowers and vacuums is OVER heated (too many startups).
- The market for robot startups that assist human workers, increase human productivity, and automate undesirable human tasks is UNDER heated (not enough startups).
Are there startups that you wish you would see in the industry but don’t? Plus any other thoughts you want to share with TechCrunch readers.
I want to see more founders that are building robotics startups that:
- Solve LATENT pain points in specific, well-understood industries (vs. building a cool robot that can do cool things).
- Focus on increasing HUMAN productivity (vs. trying to replace humans).
- Are solving for building interesting BUSINESSES (vs. emphasizing cool robots).
Three years ago, the most compelling companies to us in the industrial space were in software. We now spend significantly more time in verticalized AI and hardware. Robotic companies we find most exciting today are addressing key driver areas of (1) high labor turnover and shortage and (2) new research around generalization on the software side. For many years, we have seen some pretty impressive science projects out of labs, but once you take these into the real world, they fail. In these changing environmental conditions, it’s crucial that robots work effectively in-the-wild at speeds and economics that make sense. This is an extremely difficult combination of problems, and we’re now finally seeing it happen. A few verticals we believe will experience a significant overhaul in the next 5 years include logistics, waste, micro-fulfillment, and construction.
With this shift in robotic capability, we’re also seeing a shift in customer sentiment. Companies who are used to buying outright machines are now more willing to explore RaaS (Robot as a Service) models for compelling robotic solutions – and that repeat revenue model has opened the door for some formerly enterprise software-only investors. On the other hand, companies exploring robotics in place of tasks with high labor shortages, such as trucking or agriculture, are more willing to explore per hour or per unit pick models.
Adoption won’t be overnight, but in the medium term, we are very enthusiastic about the ways robotics will transform industries. We do believe investing in this space requires the right technical know-how and network to evaluate and support companies, so momentum investors looking to dip their hand into a hot space may be disappointed.
We’re entering the early stages of the golden age of robotics. Robotics is already a huge, multibillion-dollar market – but today that market is dominated by industrial robotics, such as welding and assembly robots found on automotive assembly lines around the world. These robots repeat basic tasks, over and over, and are usually separated by caged walls from humans for safety. However, this is rapidly changing. Advances in perception, driven by deep learning, machine vision and inexpensive, high-performance cameras allow robots to safely navigate the real world, escape the manufacturing cages, and closely interact with humans.
I think the biggest opportunities in robotics are those which attack enormous markets where it’s difficult to hire and retain labor. One great example is long-haul trucking. Highway driving represents one of the easiest problems for autonomous vehicles, since the lanes tend to be well-marked, the roads have gentle curves, and all traffic runs in the same direction. In the United States alone, long haul trucking is a multi-hundred billion dollar market every year. The customer set is remarkably scalable with standard trailer sizes and requirements for shipping freight. Yet at the same time, trucking companies have trouble hiring and retaining drivers. It’s the perfect recipe for robotic opportunity.
I’m intrigued by agricultural robots. I’ve seen dozens of companies attacking every part of the farming equation – from field clearing and preparation, to seeding, to weeding, applying fertilizer, and eventually harvesting. I think there’s a lot of value to be “harvested” here by robots, especially since seasonal field labor is becoming harder to find and increasingly expensive. One enormous challenge in this market, however, is that growing seasons mean that the robotic machinery has a lot of downtime and the cost of equipment isn’t as easily amortized in other markets with higher utilization. The other big challenge is that fields are very, very tough on hardware and electronics due to environmental conditions like rain, dust and mud.
There are a ton of important problems to be solved in robotics. The biggest open challenges in my mind are locomotion and grasping. Specifically, I think that for in-building applications, robots need to be able to do all the thing which humans can do – specifically opening and closing doors, climbing stairs, and picking items off of shelves and putting them down gently. Plenty of startups have tackled subsets of these problems, but to date no one has built a generalized solution. To be fair, to get to parity with humans on generalized locomotion and grasping, it’s probably going to take another several decades.
Overall, I feel like the funding environment for robotics is about right, with a handful of overfunded areas (like autonomous passenger vehicles). I think that the most overlooked near-term opportunity in robotics is teleoperation. Specifically, pairing fully automated robotic operations with occasional human remote operation of individual robots. Starship Technologies is a perfect example of this. Starship is actively deploying local delivery robots around the world today. Their first major deployment is at George Mason University in Virginia. They have nearly 50 active robots delivering food around the campus. They’re autonomous most of the time, but when they encounter a problem or obstacle they can’t solve, a human operator in a teleoperation center manually controls the robot remotely. At the same time. Starship tracks and prioritizes these problems for engineers to solve, and slowly incrementally reduces the number of problems the robots can’t solve on their own. I think people view robotics as a “zero or one” solution when in fact there’s a world where humans and robots work together for a long time.
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It’s time to get your robotics fix, startup fans. That’s right, TC Sessions: Robotics & AI returns to UC Berkeley’s Zellerbach Hall on March 3, 2020. Join us for a day-long deep dive focused on the intersection of robotics and AI — arguably two of the most exciting and world-changing technologies.
Registration is now open. Save the date and save $100 when you buy an early-bird ticket to TC Sessions: Robotics & AI 2020. Want to save even more? Buy in bulk. You’ll save an extra 18% when you purchase four or more tickets at once.
This is our fourth year hosting this event and last year, 1,500 founders, technologists, engineering students and investors heard TechCrunch editors interview top leaders in AI and robotics, participated in workshops, watched live demos, attended speaker Q&As and enjoyed world-class networking. With so many advances in a range of technologies like AI, GPUs, sensors (to name just a few), it’s an exciting time to be part of this rapidly evolving space.
We’re building out the speaker roster and agenda, so keep checking back. In the meantime, take a look at last year’s agenda to get a sense of the quality programming you can expect.
Boston Dynamics founder Marc Raibert, a perennial favorite at TC Sessions: Robotics & AI, offers this perspective on the conference. It “blends the best of thoughtful, research-focused robotics with a unique business in technology focus.”
TC Sessions: Robotics & AI takes place on March 3, 2020 at UC Berkeley’s Zellerbach Hall. It’s not too early to save the date, and it’s never too early to save $100 on the price of admission. Join the top people in robotics and AI for a full day devoted to world-changing technologies.
Is your company interested in sponsoring or exhibiting at TC Sessions: Robotics & AI 2020? Contact our sponsorship sales team by filling out this form.
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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.
“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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