The GoPro MAX is the ultimate pocketable travel vlogging camera

GoPro’s first foray into the 360-degree action was the GoPro Fusion, and while it was a strong first offering, the new GoPro MAX ($ 499) is a very different – and much improved – immersive action camera that has a lot to offer experienced videographers and voices alike. To be sure, the MAX has trade-offs, but taken together, it presents arguably the best overall combination of features and value for travel and adventure vloggers who don’t want to break the bank or haul a huge amount of kit while they get out and explore.

It’s hip to be square

The new GoPro MAX’s form factor is both familiar and different for fans of the company’s Hero line. It’s almost like you stacked two Heros on top of each other, with a square box instead of a small rectangle as a result. The design helps accommodate both the dual optics that GoPro uses to achieve its 360-degree capture, as well as the built-in touchscreen display that can be used as a selfie viewfinder, too, when operating in Hero mode.

The ruggedized case can survive submersion in water up to 16 feet deep, and it’s splash proof as well. There are additional protective lenses for the two dome-shamed cameras in the box, as well, which GoPro advises you use in potentially messy environments to protect the optics. Both front and back sides of the camera also feature grills for microphones, which can capture 360 immersive audio when the camera is operating in 360 mode, or act as truly impressive directional shotgun mics when vlogging or working in Hero mode.

GoPro MAX 3Like the new Hero 8, the MAX has built-in GoPro accessory mounts, that fold out of the body on the bottom. This ensure you won’t have to pack the MAX in an external cage to attach it to the wide range of available GoPro mounts that exist out there, cutting down on bulk and the amount of stuff you need to pack when you take it out on the road.

The rubberized coating ensures you can keep a firm grip on the camera when you’re using it without any accessories, and GoPro’s easy to access and prominently placed external buttons mean that you can control shutter and power while you’re using it in even the messiest circumstances. Removable batteries mean you can charge and keep a few on hand to ensure you don’t miss an opportunity to get some great footage.

360 or not to 360

The MAX is a very capable 360-degree camera, on par with some of the best in the market. It handles stitching automatically, and when paired with the MAX Grip + Tripod, it’ll even get rid of any awkward stitch lines where you’re gripping the camera. Using their software, you can then use the 360 footage to create a lot of compelling effects during edits, including panning and transitioning between views, zooming in and out, and basically pulling off final edits that you wouldn’t even be able to get with a few different cameras and shooters all going at once.

That said, there are some limits to the 360 shooting: You can see where GoPro’s software has stitched together its two wide angle captures to achieve the effect, for instance, even if only slightly. And while the tools that GoPro provides for stringing together edits are surprisingly user-friendly, you will need to spend some time with it in order to make the most of the tools available – novices can easily create somewhat disorienting cuts before they get there bearings.

The beauty of the MAX, however, is that 360 is just one of the capabilities it offers – and in fact, that provides the basis for much more interesting things that most users will get plenty more value out of. Foremost among these is HyperSmooth, which, when combined with MAX’s exclusive horizon levelling feature, makes for some of the smoothest, best quality stabilized video footage you can get with any camera without a gimbal.

By default, horizon levelling on the MAX will work in both landscape and portrait modes, and switch between those orientations when you turn the camera 90 degrees. But if you lock the orientation to landscape, you can rotate the MAX freely and the horizon stays level, with footage staying smooth and stable – to an almost spooky degree.

There can sometimes be a slightly noticeable fuzziness when you pivot from one orientation to the other in captured footage, but it’s barely detectable, and it only happens if you rotate fully 90 degrees. Otherwise, the horizon stays look and footage stays smooth, regardless of how much movement, bounce or jitters you have holding the camera. It’s amazing, and should be experienced in person to truly appreciate how much tech went into this.

The perfect run-and-gun mix

That is one reason that this is the camera you want with you when you’re out and about. But it’s not all the MAX offers in this regard. GoPro has made use of the 360 capture to implement so-called ‘Digital Lenses,’ which change the field of view, and adjust distortion to get at final results that can really change the look and feel of the video you capture. There’s a new ‘Narrow’ mode that’s even more constrained than the typical ‘Linear’ mode GoPro offers, and a new Max SuperView mode that pushes wide beyond previous limits for a really dramatic look.

Because the camera is capturing 360 content at 6K, you don’t get 4K resolution when it’s cropped down to Hero mode. But you do get up to 1440p as well as 1080p options, which are plenty for most vlogging and travel log purposes. This is one area where there’s a compromise to be made in exchange for some of the flexibility and convenience you get from the MAX, but in my opinion it’s a worthwhile trade-off.

As mentioned, you also get a ruggedized camera that can even snorkel with you in the MAX 360, as well as a selfie screen and highly capable microphones built-in (in the video above you’ll notice that there is some deterioration in sound when it detects water). It really seems like GoPro did everything they could to ensure that if you wanted to, you could easily just grab the MAX and get out there, without worrying about packing any accessories beyond maybe their Shorty tripod or that MAX grip I mentioned.

GoPro MAX 2Bottom Line

GoPro’s Fusion was a compelling camera for a specific set of users, but the MAX feels like it might be flipping the script on the whole GoPro lineup. In short, the MAX seems like a great default option for anyone new to action cameras or looking for a comprehensive all-arounder that’s easy to learn, but becomes more powerful in time.

The MAX’s amazing stabilization is also probably better suited to vlogging and social video than it is to the actual action camera set, because it’s so smooth and refined. You can alter to what extent it triggers, of course, but overall MAX just seems like a device that can do magic with its built in software for aspiring content creators who would rather leave the DSLR and the gimbal at one – or who never thought to pick one up in the first place.

Gadgets – TechCrunch

The ultimate guide to gifting STEM toys: tons of ideas for little builders

The holiday season is here again, touting all sorts of kids’ toys that pledge to pack ‘STEM smarts’ in the box, not just the usual battery-based fun.

Educational playthings are nothing new, of course. But, in recent years, long time toymakers and a flurry of new market entrants have piggybacked on the popularity of smartphones and apps, building connected toys for even very young kids that seek to tap into a wider ‘learn to code’ movement which itself feeds off worries about the future employability of those lacking techie skills.

Whether the lofty educational claims being made for some of these STEM gizmos stands the test of time remains to be seen. Much of this sums to clever branding. Though there’s no doubt a lot of care and attention has gone into building this category out, you’ll also find equally eye-catching price-tags.

Whatever STEM toy you buy there’s a high chance it won’t survive the fickle attention spans of kids at rest and play. (Even as your children’s appetite to be schooled while having fun might dash your ‘engineer in training’ expectations.) Tearing impressionable eyeballs away from YouTube or mobile games might be your main parental challenge — and whether kids really need to start ‘learning to code’ aged just 4 or 5 seems questionable.

Buyers with high ‘outcome’ hopes for STEM toys should certainly go in with their eyes, rather than their wallets, wide open. The ‘STEM premium’ can be steep indeed, even as the capabilities and educational potential of the playthings themselves varies considerably.

At the cheaper end of the price spectrum, a ‘developmental toy’ might not really be so very different from a more basic or traditional building block type toy used in concert with a kid’s own imagination, for example.

While, at the premium end, there are a few devices in the market that are essentially fully fledged computers — but with a child-friendly layer applied to hand-hold and gamify STEM learning. An alternative investment in your child’s future might be to commit to advancing their learning opportunities yourself, using whatever computing devices you already have at home. (There are plenty of standalone apps offering guided coding lessons, for example. And tons and tons of open source resources.)

For a little DIY STEM learning inspiration read this wonderful childhood memoir by TechCrunch’s very own John Biggs — a self-confessed STEM toy sceptic.

It’s also worth noting that some startups in this still youthful category have already pivoted more toward selling wares direct to schools — aiming to plug learning gadgets into formal curricula, rather than risking the toys falling out of favor at home. Which does lend weight to the idea that standalone ‘play to learn’ toys don’t necessarily live up to the hype. And are getting tossed under the sofa after a few days’ use.

We certainly don’t suggest there are any shortcuts to turn kids into coders in the gift ideas presented here. It’s through proper guidance — plus the power of their imagination — that the vast majority of children learn. And of course kids are individuals, with their own ideas about what they want to do and become.

The increasingly commercialized rush towards STEM toys, with hundreds of millions of investor dollars being poured into the category, might also be a cause for parental caution. There’s a risk of barriers being thrown up to more freeform learning — if companies start pushing harder to hold onto kids’ attention in a more and more competitive market. Barriers that could end up dampening creative thinking.

At the same time (adult) consumers are becoming concerned about how much time they spend online and on screens. So pushing kids to get plugged in from a very early age might not feel like the right thing to do. Your parental priorities might be more focused on making sure they develop into well rounded human beings — by playing with other kids and/or non-digital toys that help them get to know and understand the world around them, and encourage using more of their own imagination.

But for those fixed on buying into the STEM toy craze this holiday season, we’ve compiled a list of some of the main players, presented in alphabetical order, rounding up a selection of what they’re offering for 2018, hitting a variety of price-points, product types and age ranges, to present a market overview — and with the hope that a well chosen gift might at least spark a few bright ideas…


Adafruit Kits

Product: Metro 328 Starter Pack 
Price: $ 45
Description: Not a typical STEM toy but a starter kit from maker-focused and electronics hobbyist brand Adafruit. The kit is intended to get the user learning about electronics and Arduino microcontrollers to set them on a path to being a maker. Adafruit says the kit is designed for “everyone, even people with little or no electronics and programming experience”. Though parental supervision is a must unless you’re buying for a teenager or mature older child. Computer access is also required for programming the Arduino.

Be sure to check out Adafruit’s Young Engineers Category for a wider range of hardware hacking gift ideas too, from $ 10 for a Bare Conductive Paint Pen, to $ 25 for the Drawdio fun pack, to $ 35 for this Konstruktor DIY Film Camera Kit or $ 75 for the Snap Circuits Green kit — where budding makers can learn about renewable energy sources by building a range of solar and kinetic energy powered projects. Adafruit also sells a selection of STEM focused children’s books too, such as Python for Kids ($ 35)
Age: Teenagers, or younger children with parental supervision


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Anki

Product: Cozmo
Price: $ 180
Description: The animation loving Anki team added a learn-to-code layer to their cute, desktop-mapping bot last year — called Cozmo Code Lab, which was delivered via free update — so the cartoonesque, programmable truck is not new on the scene for 2018 but has been gaining fresh powers over the years.

This year the company has turned its attention to adults, launching a new but almost identical-looking assistant-style bot, called Vector, that’s not really aimed at kids. That more pricey ($ 250) robot is slated to be getting access to its code lab in future, so it should have some DIY programming potential too.
Age: 8+


Dash Robotics

Product: Kamigami Jurassic World Robot
Price: ~$ 60
Description: Hobbyist robotics startup Dash Robotics has been collaborating with toymaker Mattel on the Kamigami line of biologically inspired robots for over a year now. The USB-charged bots arrive at kids’ homes in build-it-yourself form before coming to programmable, biomimetic life via the use of a simple, icon-based coding interface in the companion app.

The latest addition to the range is dinosaur bot series Jurassic World, currently comprised of a pair of pretty similar looking raptor dinosaurs, each with light up eyes and appropriate sound effects. Using the app kids can complete challenges to unlock new abilities and sounds. And if you have more than one dinosaur in the same house they can react to each other to make things even more lively.
Age: 8+


Kano

Product: Harry Potter Coding Kit
Price: $ 100
Description: British learn-to-code startup Kano has expanded its line this year with a co-branded, build-it-yourself wand linked to the fictional Harry Potter wizard series. The motion-sensitive e-product features a gyroscope, accelerometer, magnetometer and Bluetooth wireless so kids can use it to interact with coding content on-screen. The company offers 70-plus challenges for children to play wizard with, using wand gestures to manipulate digital content. Like many STEM toys it requires a tablet or desktop computer to work its digital magic (iOS and Android tablets are supported, as well as desktop PCs including Kano’s Computer Kit Touch, below)
Age: 6+

Product: Computer Kit Touch
Price: $ 280
Description: The latest version of Kano’s build-it-yourself Pi-powered kids’ computer. This year’s computer kit includes the familiar bright orange physical keyboard but now paired with a touchscreen. Kano reckons touch is a natural aid to the drag-and-drop, block-based learn-to-code systems it’s putting under kids’ fingertips here. Although its KanoOS Pi skin does support text-based coding too, and can run a wide range of other apps and programs — making this STEM device a fully fledged computer in its own right
Age: 6-13



Lego

Product: Boost Creative Toolbox
Price: $ 160
Description: Boost is Lego’s relatively recent foray into offering a simpler robotics and programming system aimed at younger kids vs its more sophisticated and expensive veteran Mindstorms creator platform (for 10+ year olds). The Boost Creative Toolbox is an entry point to Lego + robotics, letting kids build a range of different brick-based bots — all of which can be controlled and programmed via the companion app which offers an icon-based coding system.

Boost components can also be combined with other Lego kits to bring other not-electronic kits to life — such as its Stormbringer Ninjago Dragon kit (sold separately for $ 40). Ninjago + Boost means = a dragon that can walk and turn its head as if it’s about to breathe fire
Age: 7-12


littleBits

Product: Avengers Hero Inventor Kit
Price: $ 150
Description: This Disney co-branded wearable in kit form from the hardware hackers over at littleBits lets superhero-inspired kids snap together all sorts of electronic and plastic bits to make their own gauntlet from the Avengers movie franchise. The gizmo features an LED matrix panel, based on Tony Stark’s palm Repulsor Beam, they can control via companion app. There are 18 in-app activities for them to explore, assuming kids don’t just use amuse themselves acting out their Marvel superhero fantasies
Age: 8+

It’s worth noting that littleBits has lots more to offer — so if bringing yet more Disney-branded merch into your home really isn’t your thing, check out its wide range of DIY electronics kits, which cater to various price points, such as this Crawly Creature Kit ($ 40) or an Electronic Music Inventor Kit ($ 100), and much more… No major movie franchises necessary


Makeblock

Product: Codey Rocky
Price: $ 100
Description: Shenzhen-based STEM kit maker Makeblock crowdfunded this emotive, programmable bot geared towards younger kids on Kickstarter. There’s no assembly required, though the bot itself can transform into a wearable or handheld device for game playing, as Codey (the head) detaches from Rocky (the wheeled body).

Despite the young target age, the toy is packed with sophisticated tech — making use of deep learning algorithms, for example. While the company’s visual programming system, mBlock, also supports Python text coding, and allows kids to code bot movements and visual effects on the display, tapping into the 10 programmable modules on this sensor-heavy bot. Makeblock says kids can program Codey to create dot matrix animations, design games and even build AI and IoT applications, thanks to baked in support for voice, image and even face recognition… The bot has also been designed to be compatible with Lego bricks so kids can design and build physical add-ons too
Age: 6+

Product: Airblock
Price: $ 100
Description: Another programmable gizmo from Makeblock’s range. Airblock is a modular and programmable drone/hovercraft so this is a STEM device that can fly. Magnetic connectors are used for easy assembly of the soft foam pieces. Several different assembly configurations are possible. The companion app’s block-based coding interface is used for programming and controlling your Airblock creations
Age: 8+



Ozobot

Product: Evo
Price: $ 100
Description: This programmable robot has a twist as it can be controlled without a child always having to be stuck to a screen. The Evo’s sensing system can detect and respond to marks made by marker pens and stickers in the accompanying Experience Pack — so this is coding via paper plus visual cues.

There is also a digital, block-based coding interface for controlling Evo, called OzoBlockly (based on Google’s Blockly system). This has a five-level coding system to support a range of ages, from pre-readers (using just icon-based blocks), up to a ‘Master mode’ which Ozobot says includes extensive low-level control and advanced programming features
Age: 9+


Pi-top


Product: Modular Laptop
Price: $ 320 (with a Raspberry Pi 3 Model B+), $ 285 without
Description: This snazzy 14-inch modular laptop, powered by Raspberry Pi, has a special focus on teaching coding and electronics. Slide the laptop’s keyboard forward and it reveals a built in rail for hardware hacking. Guided projects designed for kids include building a music maker and a smart robot. The laptop runs pi-top’s learn-to-code oriented OS — which supports block-based coding programs like Scratch and kid-friendly wares like Minecraft Pi edition, as well as its homebrew CEEDUniverse: A Civilization style game that bakes in visual programming puzzles to teach basic coding concepts. The pi-top also comes with a full software suite of more standard computing apps (including apps from Google and Microsoft). So this is no simple toy. Not a new model for this year — but still a compelling STEM machine
Age: 8+


Robo Wunderkind


Product: Starter Kit
Price: $ 200 
Description: Programmable robotics blocks for even very young inventors. The blocks snap together and are color-coded based on function so as to minimize instruction for the target age group. Kids can program their creations to do stuff like drive, play music, detect obstacles and more via a drag-and-drop coding interface in the companion Robo Code app. Another app — Robo Live — lets them control what they’ve built in real time. The physical blocks can also support Lego-based add-ons for more imaginative designs
Age: 5+


Root Robotics

Product: Root
Price: $ 200
Description: A robot that can sense and draw, thanks to a variety of on board sensors, battery-powered kinetic energy and its central feature: A built-in pen holder. Root uses spirographs as the medium for teaching STEM as kids get to code what the bot draws. They can also create musical compositions with a scan and play mode that turns Root into a music maker. The companion app offers three levels of coding interfaces to support different learning abilities and ages. At the top end it supports programming in Swift (with Python and JavaScript slated as coming soon). An optional subscription service offers access to additional learning materials and projects to expand Root’s educational value
Age: 4+



Sphero


Product: Bolt
Price: $ 150
Description: The app-enabled robot ball maker’s latest STEM gizmo. It’s still a transparent sphere but now has an 8×8 LED matrix lodged inside to expand the programmable elements. This colorful matrix can be programmed to display words, show data in real-time and offer game design opportunities. Bolt also includes an ambient light sensor, and speed and direction sensors, giving it an additional power up over earlier models. The Sphero Edu companion app supports drawing, Scratch-style block-based and JavaScript text programming options to suit different ages
Age: 8+


Tech Will Save Us

Product: Range of coding, electronics and craft kits
Price: From ~$ 30 up to $ 150
Description: A delightful range of electronic toys and coding kits, hitting various age and price-points, and often making use of traditional craft materials (which of course kids love). Examples include a solar powered moisture sensor kit ($ 40) to alert when a pot plant needs water; electronic dough ($ 35); a micro:bot add-on kit ($ 35) that makes use of the BBC micro:bit device (sold separately); and the creative coder kit ($ 70), which pairs block-based coding with a wearable that lets kids see their code in action (and reacting to their actions)
Age: 4+, 8+, 11+ depending on kit


UBTech Robotics

Product: JIMU Robot BuilderBots Series: Overdrive Kit
Price: $ 120
Description: More snap-together, codable robot trucks that kids get to build and control. These can be programmed either via posing and recording, or using Ubtech’s drag-and-drop, block-based Blockly coding program. The Shenzhen-based company, which has been in the STEM game for several years, offers a range of other kits in the same Jimu kit series — such as this similarly priced UnicornBot and its classic MeeBot Kit, which can be expanded via the newer Animal Add-on Kit
Age: 8+


Wonder Workshop

Product: Dot Creativity Kit 
Price: $ 80
Description: San Francisco-based Wonder Workshop offers a kid-friendly blend of controllable robotics and DIY craft-style projects in this entry-level Dot Creativity Kit. Younger kids can play around and personalize the talkative connected device. But the startup sells a trio of chatty robots all aimed at encouraging children to get into coding. Next in line there’s Dash ($ 150), also for 6+ year olds. Then Cue ($ 200) for 11+. The startup also has a growing range of accessories to expand the bots’ (programmable) functionality — such as this Sketch Kit ($ 40) which adds a few arty smarts to Dash or Cue.

With Dot, younger kids play around using a suite of creative apps to control and customize their robot and tap more deeply into its capabilities, with the apps supporting a range of projects and puzzles designed to both entertain them and introduce basic coding concepts
Age: 6+


Gadgets – TechCrunch

Chinese chip spying report shows the supply chain remains the ultimate weakness

Thursday’s explosive story by Bloomberg reveals detailed allegations that the Chinese military embedded tiny chips into servers, which made their way into datacenters operated by dozens of major U.S. companies.

We covered the story earlier, including denials by Apple, Amazon and Supermicro — the server maker that was reportedly targeted by the Chinese government. Amazon said in a blog post that it “employs stringent security standards across our supply chain.” The FBI and the Office for the Director of National Intelligence did not comment, but denied comment to Bloomberg.

Much of the story can be summed up with this one line from a former U.S. official: “Attacking Supermicro motherboards is like attacking Windows. It’s like attacking the whole world.”

It’s a fair point. Supermicro is one of the biggest tech companies you’ve probably never heard of. It’s a computing supergiant based in San Jose, Calif. with global manufacturing operations across the world — including China, where it builds most of its motherboards. Those motherboards trickle throughout the rest of the world’s tech — and were used in Amazon’s datacenter servers that powers its Amazon Web Services cloud and Apple’s iCloud.

One government official speaking to Bloomberg said China’s goal was “long-term access to high-value corporate secrets and sensitive government networks,” which fits into the playbook of China’s long-running effort to steal intellectual property.

“No consumer data is known to have been stolen,” said Bloomberg.

Infiltrating Supermicro, if true, will have a long lasting ripple effect on the wider tech industry and how they approach their own supply chains. Make no mistake – introducing any kind of external tech in your datacenter isn’t taken lightly by any tech company. Fears of corporate and state-sponsored espionage has been rife for years. It’s chief among the reasons why the U.S. and Australia have effectively banned some Chinese telecom giants — like ZTE — from operating on its networks.

Having a key part of your manufacturing process infiltrated — effectively hacked — puts every believed-to-be-secure supply chain into question.

With nearly every consumer electronics or automobile, manufacturers have to procure different parts and components from various sources across the globe. Ensuring the integrity of each component is near impossible. But because so many components are sourced from or assembled in China, it’s far easier for Beijing than any other country to infiltrate without anyone noticing.

The big question now is how to secure the supply chain?

Companies have long seen supply chain threats as a major risk factor. Apple and Amazon are down more than 1 percent in early Thursday trading and Supermicro is down more than 35 percent (at the time of writing) following the news. But companies are acutely aware that pulling out of China will cost them more. Labor and assembly is far cheaper in China, and specialist parts and specific components often can’t be found elsewhere.

Instead, locking down the existing supply chain is the only viable option.

Security giant Crowdstrike recently found that the vast majority — nine out of ten companies — have suffered a software supply chain attack, where a supplier or part manufacturer was hit by ransomware, resulting in a shutdown of operations.

But protecting the hardware supply chain is a different task altogether — not least for the logistical challenge.

Several companies have already identified the risk of manufacturing attacks and taken steps to mitigate. BlackBerry was one of the first companies to introduce root of trust in its phones — a security feature that cryptographically signs the components in each device, effectively preventing the device’s hardware from tampering. Google’s new Titan security key tries to prevent manufacturing-level attacks by baking in the encryption in the hardware chips before the key is assembled.

Albeit at start, it’s not a one-size-fits-all solution. Former NSA hacker Jake Williams, founder of Rendition Infosec, said that even those hardware security mitigations may not have been enough to protect against the Chinese if the implanted chips had direct memory access.

“They can modify memory directly after the secure boot process is finished,” he told TechCrunch.

Some have even pointed to blockchain as a possible solution. By cryptographically signing — like in root of trust — each step of the manufacturing process, blockchain can be used to track goods, chips, and components throughout the chain.

Instead, manufacturers often have to act reactively and deal with threats as they emerge.

According to Bloomberg, “since the implanted chips were designed to ping anonymous computers on the internet for further instructions, operatives could hack those computers to identify others who’d been affected.”

Williams said that the report highlights the need for network security monitoring. “While your average organization lacks the resources to discover a hardware implant (such as those discovered to be used by the [Chinese government]), they can see evidence of attackers on the network,” he said.

“It’s important to remember that the malicious chip isn’t magic — to be useful, it must still communicate with a remote server to receive commands and exfiltrate data,” he said. “This is where investigators will be able to discover a compromise.”

The intelligence community is said to be still investigating after it first detected the Chinese spying effort, some three years after it first opened a probe. The investigation is believed to be classified — and no U.S. intelligence officials have yet to talk on the record — even to assuage fears.

Gadgets – TechCrunch