drone
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Skycatch today announced a $25 million raise, led by ADB Ventures and Wavemaker. Founded in 2013, the Bay Area-based company provides centimeter-accurate 3D scanning services, primarily for construction sites and mining operations.
The service has already been rolled out in a number of different locations around the world — with north of 10,000 sites, according to founder and CEO Christian Sanz. The list includes Chile, Colombia, Peru, Brazil, Australia, Canada, the U.S., Indonesia, China, Philippines, Thailand and Japan. In particular, the company is seeking to work with sites where connectivity is limited.
“The process of generating high-precision, centimeter-accurate data is extremely difficult. It typically is owned by the laser scanning market,” says Sanz. “Drones, in general, out of the box are not able to achieve that. We saw the true value prop for Skycatch is operating in edge environments where there’s no connection to internet. That’s where we saw the most demand, initially. That is typically mining companies, operating in all of these remote regions.”
Image Credits: Skycatch
The company’s technology works with off-the-shelf drones, including ones manufactured by DJI. It provides the 3D mapping software, as well as a base station with an edge processor, known as the Edge 1. Skycatch is also working with off-the-shelf lidar companies to help capture data in more difficult environments, including underground for mining operations.
“Asian Development Bank (ADB) aims to play a catalytic role to enable technology in infrastructure projects, which result in reduced carbon footprints and increased safety and operational efficiency,” ADB’s Daniel Hersson said in a statement provided to TechCrunch. “The enterprise-grade Skycatch technology for capturing, processing and analyzing high accuracy 3D drone data is a critical part to accomplishing that mission.”
The funds will go toward expanding the 50-person company’s sales and marketing team — both of which have been fairly small portions of the company’s overall headcount.
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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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London-based edtech startup, pi-top, has unboxed a new flagship learn-to-code product, demoing the “go anywhere” Pi-powered computer at the Bett Show education fare in London today.
Discussing the product with TechCrunch ahead of launch, co-founder and CEO Jesse Lozano talked up the skills the company hopes students in the target 12-to-17 age range will develop and learn to apply by using sensor-based connected tech, powered by its new pi-top 4, to solve real world problems.
“When you get a pi-top 4 out of the box you’re going to start to learn how to code with it, you’re going to start to learn and understand electronic circuits, you’re going to understand sensors from our sensor library. Or components from our components library,” he told us. “So it’s not: ‘I’m going to learn how to create a robot that rolls around on wheels and doesn’t knock into things’.
“It’s more: ‘I’m going to learn how a motor works. I’m going to learn how a distance sensor works. I’m going to learn how to properly hook up power to these different sensors. I’m going to learn how to apply that knowledge… take those skills and [keep making stuff].”
The pi-top 4 is a modular computer that’s designed to be applicable, well, anywhere; up in the air, with the help of a drone attachment; powering a sensing weather balloon; acting as the brains for a rover style wheeled robot; or attached to sensors planted firmly in the ground to monitor local environmental conditions.
The startup was already dabbling in this area, via earlier products — such as a Pi-powered laptop that featured a built in rail for breadboarding electronics. But the pi-top 4 is a full step outside the usual computing box.
The device has a built-in mini OLED screen for displaying project info, along with an array of ports. It can be connected to and programmed via one of pi-top’s other Pi-powered computers, or any PC, Mac and Chromebook, with the company also saying it easily connects to existing screens, keyboards and mice. Versatility looks to be the name of the game for pi-top 4.

pi-top’s approach to computing and electronics is flexible and interoperable, meaning the pi-top 4 can be extended with standard electronics components — or even with Littlebits‘ style kits’ more manageable bits and bobs.
pi-top is also intending to sell a few accessories of its own (such as the drone add-on, pictured above) to help get kids’ creative project juices flowing — and has launched a range of accessories, cameras, motors and sensors to “allow creators of all ages to start learning by making straight out of the box”.
But Lozano emphasizes its platform play is about reaching out to a wider world, not seeking to lock teachers and kids to buying proprietary hardware. (Which would be all but impossible, in any case, given the Raspberry Pi core.)
“It’s really about giving people that breadth of ability,” says Lozano, discussing the sensor-based skills he wants the product to foster. “As you go through these different projects you’re learning these specific skills but you also start to understand how they would apply to other projects.”
He mentions various maker projects the pi-top can be used to make, like a music synth or wheeled robot, but says the point isn’t making any specific connected thing; it’s encouraging kids to come up with project ideas of their own.
“Once that sort of veil has been pierced in students and in teachers we see some of the best stuff starts to be made. People make things that we had no idea they would integrate it into,” he tells us, pointing by way of example to a solar car project from a group of U.S. schoolkids. “These fifteen year olds are building solar cars and they’re racing them from Texas to California — and they’re using pi-tops to understand how their cars are performing to make better race decisions.”
pi-top’s new device is a modular programmable computer designed for maker projects
“What you’re really learning is the base skills,” he adds, with a gentle sideswipe at the flood of STEM toys now targeting parents’ wallets. “We want to teach you real skills. And we want you to be able to create projects that are real. That it’s not block-based coding. It’s not magnetized, clipped in this into that and all of a sudden you have something. It’s about teaching you how to really make things. And how the world actually works around you.”
The pi-top 4 starts at $199 for a foundation bundle which includes a Raspberry Pi 3B+,16GB SD card, power pack, along with a selection of sensors and add-on components for starter projects.
Additional educational bundles will also launch down the line, at a higher price, including more add ons, access to premium software and a full curriculum for educators to support budding makers, according to Lozano.
The startup has certainly come a long way from its founders’ first luridly green 3D printed laptop which caught our eye back in 2015. Today it employs more than 80 people globally, with offices in the UK, US and China, while its creative learning devices are in the hands of “hundreds of thousands” of schoolkids across more than 70 countries at this stage. And Lozano says they’re gunning to pass the million mark this year.
So while the ‘learn to code’ space has erupted into a riot of noise and color over the past half decade, with all sorts of connected playthings now competing for kids’ attention, and pestering parents with quasi-educational claims, pi-top has kept its head down and focused firmly on building a serious edtech business with STEM learning as its core focus, saving it from chasing fickle consumer fads, as Lozano tells it.
“Our relentless focus on real education is something that has differentiated us,” he responds, when asked how pi-top stands out in what’s now a very crowded marketplace. “The consumer market, as we’ve seen with other startups, it can be fickle. And trying to create a hit toy all the time — I’d rather leave that to Mattel… When you’re working with schools it’s not a fickle process.”
Part of that focus includes supporting educators to acquire the necessary skills themselves to be able to teach what’s always a fast-evolving area of study. So schools signing up to pi-top’s subscription product get support materials and guides, to help them create a maker space and understand all the ins and outs of the pi-top platform. It also provides a classroom management backend system that lets teachers track students’ progress.
“If you’re a teacher that has absolutely no experience in computer science or engineering or STEM based learning or making then you’re able to bring on the pi-top platform, learn with it and with your student, and when they’re ready they can create a computer science course — or something of that ilk — in their classroom,” says Lozano.
pi-top wants kids to use tech to tackle real-world problems
“As with all good things it takes time, and you need to build up a bank of experience. One of the things we’ve really focused on is giving teachers that ability to build up that bank of experience, through an after school club, or through a special lesson plan that they might do.
“For us it’s about augmenting that teacher and helping them become a great educator with tools and with resources. There’s some edtech stuff they want to replace the teacher — they want to make the teacher obsolete. I couldn’t disagree with that viewpoint more.”
“Why aren’t teachers just buying textbooks?” he adds. “It takes 24 months to publish a textbook. So how are you supposed to teach computer science with those technology-based skills with something that’s by design two years out of date?”
Last summer pi-top took in $16M in Series B funding, led by existing founders Hambro Perks and Committed Capital. It’s been using the financing to bring pi-top 4 to market while also investing heavily in its team over the past 18 months — expanding in-house expertise in designing learning products and selling in to the education sector via a number of hires. Including the former director of learning at Apple, Dr William Rankin.
The founders’ philosophy is to combine academic expertise in education with “excellence in engineering”. “We want the learning experience to be something we’re 100% confident in,” says Lozano. “You can go into pi-top and immediately start learning with our lesson plans and the kind of framework that we provide.”
“[W]e’ve unabashedly focused on… education. It is the pedagogy,” he adds. “It is the learning outcome that you’re going to get when you use the pi-top. So one of the big changes over the last 18 months is we’ve hired a world class education team. We have over 100 years of pedagogical experience on the team now producing an enormous amount of — we call them learning experience designers.”
He reckons that focus will stand pi-top in good stead as more educators turn their attention to how to arm their pupils with the techie skills of the future.
“There’s loads of competition but now the schools are looking they’re [asking] who’s the team behind the education outcome that you’re selling me?” he suggests. “And you know what if you don’t have a really strong education team then you’re seeing schools and districts become a lot more picky — because there is so much choice. And again that’s something I’m really excited about. Everybody’s always trying to do a commercial brand partnership deal. That’s just not something that we’ve focused on and I do really think that was a smart choice on our end.”
Lozano is also excited about a video the team has produced to promote the new product — which strikes a hip, urban note as pi-top seeks to inspire the next generation of makers.
“We really enjoy working in the education sector and I really, really enjoy helping teachers and schools deliver inspirational content and learning outcomes to their students,” he adds. “It’s genuinely a great reason to wake up in the morning.”
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Not far from Tel Aviv a drone flies low over a gritty landscape of warehouses and broken pavement. It slowly approaches its home — a refrigerator-sized box inside a mesh fence, and hovers, preparing to dock. It descends like some giant bug, whining all the way, and disappears into its base where it will be cleaned, recharged and sent back out into the air. This drone is doing the nearly impossible: it’s flying and landing autonomously and can fly again and again without human intervention — and it’s doing it all inside a self-contained unit that is one of the coolest things I’ve seen in a long time.
The company that makes the drone, Airobotics, invited us into their headquarters to see their products in action. In this video we talk with the company about how the drones work, how their clients use the drones for mapping and surveillance in hard-to-reach parts of the world and the future of drone autonomy. It’s a fascinating look into technology that will soon be appearing in jungles, deserts and war zones near you.
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The American Red has teamed up with the UPS Foundation and drone manufacturer CyPhy Works to bring drones to sites of natural disasters. The goal is to use drones tethered to the ground to assess damages through constant aerial observations. This is where CyPhy Works comes in. The pilot program utilizes CyPhy Works’ Persistent Aerial Reconnaissance and Communications (PARC) platform. In… Read More
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Owners of the DJI Spark will be glad to know they now have a little more functionality with their palm-sized selfie drone. Thanks to a software update, users will be able to get a panoramic, 180-degree photo of themselves. The drone’s 12-megapixel sensor will fly in a circle around the subject (presumably you) and stitch together 21 individual photos. Photo resolution has been improved… Read More
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Engineering problems can sometimes appear simple beside the amorphous challenges of regulating and managing cutting edge technology use within existing societal structures. But early stage startup Flock is viewing the knotted intersection of technology and regulation as just another business opportunity. Read More
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In today’s episode of “boring patents…wait, WHAT ARE THOSE???”, it looks like Twitter filed a patent for messaging with or from, or both, an unmanned vehicle (drone!) in June of this year. It was just published a few days ago. It’s probably something that was put together at a hackathon and someone at Twitter said “hey that’s cool let’s patent… Read More
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