As I watched Graham Sykes climb onto his rocket bike, I was worried for a moment that I was about to film a man as he died. But as he hurtled past me at hundreds of miles per hour and engulfed me in a cloud of steam, I realised I needn’t have worried — this is just a normal day for Sykes.
I was at the Santa Pod raceway in Bedfordshire, England, meeting Sykes and his team as they prepped his entirely steam-powered bike — dubbed Force of Nature — for a potentially record-breaking speed attempt during a drag-racing festival. After battling through the crowds flooding into the venue, I eventually found Sykes and his team among cars and bikes of all shapes and sizes, diligently preparing Force of Nature for its one scheduled run that day.
Sykes, who seemed far calmer than I expected, offered me a marshmallow as I got my first glimpse of the bike, “I tend to not eat a great deal before a run, except for sugary sweets — we’ve all got our vices!” he said.
Sykes (in his racing leathers) and the team make some adjustments to the bike.
Andrew Lanxon/CNET
The bike looked like nothing I’d ever seen before. Long and sleek with enormous funnel-shaped exhausts on the back, the only thing that marked it out as a motorcycle was the fact it was a vehicle on two wheels. A mechanical engineer by trade, Sykes has made almost every component himself from his workshop in his back garden.
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Not that you’d guess. Peering close up at various components, I felt I was looking at something crafted in a NASA lab rather than in someone’s garden shed. At the heart of the bike’s steam propulsion system is a 120-liter boiler, heated by a burner to around 260 degrees Celsius (around 500 Fahrenheit). That boiling process creates an immense amount of pressure inside the tank, which is released when the starting lights go green in about 3 seconds, propelling the bike to speeds of over 200 miles per hour.
The boiler is the only component not built by Sykes He instead sourced it from a company that manufactures pressurized vessels for the nuclear and oil and gas industries. The reason simply comes down to safety. “If it exploded, it wouldn’t just be myself that would be injured or killed,” said Sykes. “It would be everyone else around me too.”
The Santa Pod Raceway plays host to all kinds of drag races, including this one involving what I’m pretty sure is a Mustang. It wasn’t easy to capture, especially when shooting on Kodak Gold film.
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Andrew Lanxon/CNET
Despite the very real risks involved, Sykes struck me as very calm and relaxed on the day. He was clearly enjoying himself as he helped the team do the pre-run checks and chatted with excited fans who came to the team’s base to meet Sykes and get his autograph. He was clearly in his element.
“I always wanted to ride a rocket bike,” he said “But no one was going to ask me ‘Hey Graham, do you fancy riding my rocket bike?’ so the only way to do it was to build one. In the 1970s Evel Knievel tried to jump over Snake River Canyon and that was a super-heated water rocket, so that’s what inspired me.”
The race day drew tens of thousands of fans, all eager to see cars and bikes move faster than they really have any right to.
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Andrew Lanxon/CNET
But nerves do still set in, even for Sykes. “Every time you get on the bike, you have trepidation,” he said “You have that adrenaline and you’ve got that little bit of reservation in your head that says ‘when I press this button, my life is gonna change. Hopefully for the better.”
I positioned myself next to the track, with a clear view of the starting line. I could see Sykes and the team preparing, and had a nice bit of space that would allow me to see him zoom past. I was there to film the spectacle too, but when each run lasts a matter of seconds, it’s not an easy task to capture. Aside from the camera in my hand and the three cameras I had on tripods, I’d also attached a number of GoPro cameras to his bike (using industrial clamps to ensure they didn’t fly off with the force of the acceleration).
Even so, I was nervous about missing the one opportunity I had to capture Sykes in action. And I was right to be: Before his run, I practiced on other drag races, from tuned-up road cars to hot-rods powered by literal rockets pulled out of fighter jets. The speeds these vehicles achieved were astonishing to me, and the noise was like nothing I’d ever heard.
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The rocket-powered drag cars were fast and probably the loudest things I’ve ever heard.
Andrew Lanxon/CNET
But the practice helped me prepare to get the shot, and as I got the thumbs up that the run was soon to begin, I braced myself. As, I imagine, did Sykes. “When we get the bike to the starting line, Diane, my wife, takes the safety pin out, shows me the pin to say that it’s out and the bike is live, taps me on the head which is as good as a kiss, and… off we go,” he told me.
“Nothing can prepare you for what you’re going to experience. It’s like being kicked from behind — the G-Force pulls your body backwards.”
The lights counted down, turned green and Sykes went off like a bullet. A huge plume of steam erupted from the bike’s exhaust, knocking back one of my cameras, positioned nearby, and sending it hurtling 30 feet into a barrier. I panned my camera quickly as he shot past me, before the wall of steam swept over me.
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When most races last only a few seconds, it’s really a case of “blink and you miss it.”
Andrew Lanxon/CNET
It was astonishing to watch and I can’t begin to imagine what it must feel like for Sykes on the bike. I’ve driven some speedy cars in my time at CNET but the fastest acceleration I’ve experienced is 0 to 60 miles per hour in about 2.8 seconds. That felt insanely fast to me — fast enough that I didn’t like it. I felt the edges of my vision blurring and I didn’t want to do it again.
Sykes does 0 to 60 mph in under half a second.
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The Force of Nature bike didn’t break its own records that day. But the run, at least, was a safe one. “Once I see that parachute come out at the end, I know everything’s all right,” said Diane.
Every run is also a great performance that shows the amassed crowds the true power of what steam can do. “People think that steam is an old-fashioned, out-of-date power source, said Sykes. “But every power station that generates power from fuel is really powered by steam.”
Sykes shares a kiss with his wife Diane following the speed attempt.
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Andrew Lanxon/CNET
“When we first started building [the bike] we wanted to run a 5-second quarter mile, with a 200 mph pass — neither had been done before using steam,” he added “We’ve since achieved both of those goals.”
Sykes and the team hope to achieve a 4-second run in the future. From what I saw of their precision, dedication and passion, I don’t think it’ll be long before they get there.
John Ternus has been talking about focusing on Apple’s core strength of design once he takes over as CEO, and a now a questionable report extrapolates that this means he’ll shake up the design team.
John Ternus is now best known for taking over as Apple CEO from Tim Cook, but as recently as January 2026, he took control of the firm’s design team. Now according to Bloomberg, far from leaving that because of other CEO duties, he is planning to continue working on Apple’s whole design philosophy.
Reportedly, Ternus told staff that under him, Apple will “keep focusing on design, because design is core to what we do in Apple.”
He said that Apple has brought “truly incredible design” to customers, and done so more than any other firm. Ternus claims that the best-designed item that most customers have, is an Apple product.
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“We’re going to make sure that stays the case,” he said.
There are no further details, although the report echoes claims from January 2026 that Ternus plans a shakeup of the design teams. What is clear, though, is that this is going to mark a clear difference between Ternus and his predecessor, Tim Cook.
Cook was once criticized by Steve Jobs for not being a product person, in the way that Jobs or Jony Ive would obsess over them. It’s repeatedly been reported that Cook did not often visit the design teams, and now it’s said that Ternus has already devoted a lot of his time to the design division.
The first products to come out under Ternus’s aegis will be the iPhone 18 range in September 2026, the month he officially takes over. It’s said that Apple is aiming to mark the 20th anniversary of the original iPhone with a series of new devices, including a new iPhone Fold, and AirPods with cameras, in 2027.
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Even those, though, are already at the testing stage. So while Ternus has been involved with them, it could take a couple of years before Apple releases a device that was made entirely on his watch.
This week the Ubuntu desktop’s director of engineering announced they’re bringing speech-to-text dictation to Ubuntu Desktop, aiming for an experience “that feels like a natural part of the desktop while respecting user privacy and running entirely on local hardware.”
“Speech recognition has become a common feature on modern platforms, and we think it should be a first-class experience on Ubuntu Desktop as well.”
For Ubuntu 26.10, the initial version of Myna is expected to be a desktop dictation tool built around GNOME on Wayland with a push-to-talk mechanism gatekeeping when your microphone accepts input. Using it means holding a hotkey, speaking, and letting go. A small activity indicator shows while it is listening, and the transcribed text lands wherever the cursor was sitting when dictation started.
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Recognition itself happens inside a sandboxed component called the Canonical Inference Snap, while a Speech Orchestrator manages the session and an Audio Adapter handles whatever the microphone picks up, denoising and chunking it before it ever reaches the model… Speech recognition will happen locally, and an internet connection is not needed once the appropriate model is installed… The audio data won’t be sticking around either, being stored in a small in-memory buffer that gets discarded the moment the session ends. Features like dictation into password fields, wake words, continuous listening, voice assistants, voice commands, translation, speaker identification, and automatic language detection are all off the table…
You should also know that Canonical is looking for feedback before the specs for Myna are finalized, especially from people who already rely on dictation or assistive tools on Linux.
If you bought an iPhone 16 or iPhone 15 when they launched, you may be able to claim some of the money from a class action lawsuit against Apple. It’s all tied to the new Apple Intelligence features the company previewed during launch — features that ultimately didn’t arrive on time, but were finally unveiled more extensively this month at WWDC 2026.
Apple settled a shareholder lawsuit in May, agreeing to pay $250 million to customers who bought the iPhone 16 and some iPhone 15 models during a specified period. The lawsuit alleged that Apple misled customers by promising AI features that didn’t ship when the new devices did. Payouts between $25 and $95 per eligible device are expected.
In a statement to CNET Managing Editor David Lumb, an Apple spokesperson said, “Apple has reached a settlement to resolve claims related to the availability of two additional features. We resolved this matter to stay focused on doing what we do best, delivering the most innovative products and services to our users.”
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Why is there a lawsuit over Apple Intelligence?
When Apple advertised its new iPhone 16 lineup, it emphasized how they were optimized for AI features such as an enhanced Siri that could act as an intelligent agent. When the phones did arrive, Apple Intelligence wasn’t yet ready; its first features didn’t arrive until iOS 18.1, five weeks later.
According to the proposed settlement, “Apple allegedly saturated the market with deceptive ads, inducing consumers to purchase iPhones based on the promise of certain enhanced Siri features.”
Customers who purchased one of the following devices between June 10, 2024, and March 29, 2025, are eligible to receive a settlement payment:
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iPhone 16
iPhone 16E
iPhone 16 Plus
iPhone 16 Pro
iPhone 16 Pro Max
iPhone 15 Pro
iPhone 15 Pro Max
The iPhone 15 Pro and iPhone 15 Pro Max are included because they had the processor and memory to run Apple Intelligence features.
It’s estimated that there are approximately 36 million customers eligible for this settlement.
Watch this: What iPhone Users Actually Want From the New Google-Powered Siri
How to claim your portion of the settlement
For now, you need to wait.
As set forth in the settlement, Apple will provide a list of eligible customers and their contact information to a settlement administrator.
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After the data has been verified, the company Verita will send email and postal notices to those customers directing them to a settlement website. That site has not yet been created. The deadline for filing your claim will be 90 days after your notice arrives.
When can you expect to receive a settlement payment?
According to the settlement, Apple must provide the information about affected customers within five days of the settlement approval, which was scheduled for June 17, 2026.
When the data is provided and verified, a 45-day notice period begins to inform potential consumers that they’re eligible for a payment.
The actual payment of claims will occur within a 60-calendar-day window after the final details, such as exclusions and objections, have been worked out. That puts the first checks or deposits arriving sometime after September 2026, depending on court dates and possible extensions.
A group of companies that specialize in tracking international shipments of sensitive technologies is backing a Capitol Hill bill that would require America’s most powerful AI chips to incorporate stronger security mechanisms aimed at preventing the chips from reaching China and other adversaries. The letter, signed by six companies, says the Chip Security Act (CSA) would increase American chip companies’ competitiveness and close key loopholes in the U.S. export control regime.
The move clashes with claims from semiconductor lobbying groups that the requirements would constrain America’s booming chip industry. Sent to congressional leadership Thursday morning and seen by NBC News, the dispatch instead argues that more robust security verification would assure chip customers and manufacturers that they are abiding by sensitive restrictions on chip sales. The companies argue that the boosted confidence will “lead to increased sales, faster export approvals, larger transactions, greater access to new markets, and more expansive chip deals.”
Despite U.S. export control laws banning sales of advanced AI chips to certain countries, including China, loopholes in current requirements have allowed billions of dollars’ worth of America’s best AI chips to be sold to entities in third-party countries that can then forward them to China. In just one case in March, the Justice Department charged three people with conspiring to forward $2.5 billion of AI chips to China. The CSA aims to address those loopholes, mandating that chip exporters better track where advanced chips are sent, via either bespoke location-verification hardware or software that can run on existing hardware. That, bill proponents claim, would ensure that sensitive chips could be sold to countries like Malaysia or Indonesia without fear of further transfer to China… Experts say that because chips perform the advanced computations required for frontier AI systems, cutting off access to the chips is crucial to prevent geopolitical rivals from using AI systems for military or economic purposes.
Forward-looking: The next version of HDMI is mainly about pushing bandwidth higher to carry better video and audio, not small, incremental tweaks. HDMI 2.2, teased at CES 2025 and formally released by the HDMI Forum in June of that year, raises maximum bandwidth to 96Gbps, twice that of HDMI 2.1, allowing more uncompressed video data to move between devices.
HDMI 2.2 can carry uncompressed 4K video at up to 240Hz, something that currently requires Display Stream Compression (which as we’ve shown however, is not a big limitation). It can also reach 4K at 480Hz using 4:2:0 chroma subsampling, and handle uncompressed RGB 8K at 60Hz.
The added bandwidth cuts down on the compression and other tricks current hardware has had to rely on to push high frame rates. For gamers, that extra headroom makes it easier to drive high refresh rates at 4K and beyond without leaning as heavily on compression or workarounds.
With compression still in the toolkit when needed, the spec allows for more extreme modes, too, including 1440p at refresh rates above 1,000Hz – numbers that, for now, sit well beyond everyday use.
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That leap is tied to FRL2, the updated signaling technology underpinning HDMI 2.2. The transition is already underway at the hardware level. “We’re hearing chip manufacturers will start to sample their FRL2 chips this year,” Rob Tobias, CEO and president of the HDMI Licensing Administrator, told ARMdevices at Computex 2026. “And so we should start to see some 96 or up to 96 gigabit HDMI 2.2 products next year.” Certification efforts are ongoing, and the first wave of compatible devices is expected in 2027.
Still, the headline number – 96Gbps – doesn’t tell the whole story. HDMI 2.2 rolls out in multiple tiers, including 64Gbps and 80Gbps versions, and certification doesn’t require manufacturers to hit the top speed. That means two devices both labeled “HDMI 2.2” could perform very differently depending on how they’re built. For buyers, that puts more weight on spec sheets than branding.
In the PC space, the timing is complicated by the fact that DisplayPort 2.1 already delivers up to 80Gbps and is widely used in high-end monitors. For enthusiasts running multi-display setups, HDMI hasn’t been the primary interface for some time, and that’s unlikely to change overnight. Licensing costs may also factor into how quickly HDMI 2.2 gains traction compared with DisplayPort.
Where HDMI continues to hold ground is in the living room. Features like ARC, CEC, and ALLM are already deeply integrated into TVs and home theater systems, and HDMI 2.2 adds another layer with Latency Indication Protocol, or LIP, aimed at tightening audio-video synchronization – a persistent issue with soundbars and AV receivers. It’s a small but practical upgrade, and one that targets a problem many users encounter even in otherwise high-end setups.
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Even so, there’s a gap between what the specification allows and what current content actually demands. Most games and video still operate well below the limits of HDMI 2.1, and 4K at 120Hz – already supported – remains underutilized. It’s easy enough to imagine future consoles taking advantage of higher refresh rates, but widespread use will depend on both hardware and software catching up.
That lag is likely to show up in the rollout. GPU support isn’t expected until late 2027 or later, and early adoption will likely be confined to premium hardware. On the TV side, HDMI capabilities often depend on the underlying processing chips, which have historically led to uneven feature support even among top-tier models. There’s little reason to expect a cleaner transition this time around.
For now, HDMI 2.2 is more about preparing for future hardware than something people need to upgrade to right away. The spec sets a high ceiling, but it may take several product generations before most users see a tangible benefit. In the meantime, its presence will likely be felt more in product positioning than in everyday performance.
Portland, Oregon-based Leatherman is known for its multitools, which feature a plier-based design built around an iconic butterfly mechanism — unlike the iconic Swiss Army Knife. One would imagine the pricing hierarchy for its lineup would be defined by the number of tools, the materials, and the build quality; while that’s generally the case, it’s not for the pliers. Instead, the blade is how you gauge whether your Leatherman multitool is cheap or expensive.
Except for the military and law-enforcement-specific MUT models that retail at $230, all inexpensive (relatively speaking, of course) Leatherman multitools bearing unmarked knife blades are made from 420HC steel. The $100 Skeletool CX and RX variants charge a $10 premium over the base Skeletool to incorporate premium 154CM steel. However, the flagship Leatherman Arc ($250) and Wave Alpha ($200) are equipped with a knife fashioned from an exotic made-in-USA steel branded as CPM MagnaCut. This steel is usually found in high-end pocket knives priced around $300, and it isn’t uncommon for some MagnaCut knives to hit the $500 mark.
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Knife steels are designed to strike an optimal balance between three mutually exclusive traits: toughness, edge retention, and corrosion resistance. MagnaCut is a super steel engineered to significantly outperform both 420HC and 154CM in all three aforementioned parameters. The super steel’s improved toughness allows the knife to be ground thinner, with a blade geometry that cuts effortlessly. Meanwhile, its elevated hardness means it stays sharper for longer and resists corrosion better.
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What makes CPM MagnaCut steel so special?
Nachiket/SlashGear
CPM stands for Crucible Particle Metallurgy, a fancy trademark for Crucible Industries’ proprietary technique for manufacturing sintered steel. This process atomizes individual alloying elements into tiny, uniformly shaped balls. These powdered elements are then combined in precise ratios under extreme heat and uniform pressure to form an unnaturally dense metal with a perfect grain microstructure and perfect distribution of alloying elements.
This matters because the complex metallurgy underpinning knife steels essentially boils down to finding the sweet spot between hardness, toughness, and corrosion resistance. For example, increasing the carbon content of steel improves hardness and edge retention, but it also reduces toughness. Adding elements such as chromium, vanadium, and niobium to form carbides improves corrosion and wear resistance but makes the blade edge prone to chipping. Steels manufactured using the CPM process allow metallurgists to fine-tune these blends to nail the performance sweet spot.
That’s basically how MagnaCut manages to hit the Goldilocks zone of chromium content, improving corrosion resistance while inhibiting the formation of chromium carbides. Instead, it has harder and smaller vanadium and niobium carbides throughout, which improve wear resistance and significantly reduce chipping compared to other so-called super steels like CPM Rex 121 – even if it retains edges better than MagnaCut. CPM MagnaCut might not be the absolute best at any single metric, but it is an excellent all-rounder, and that’s precisely why Leatherman uses it on its priciest multitools.
Perseverance is officially a marathon finisher. NASA shared this week that the Mars rover has surpassed a total distance of 26.2 miles since it landed on the red planet five years ago. Considering its speed tops out at .1 mph under the best conditions, that’s a pretty remarkable achievement. It crossed the marathon mark on June 14, according to NASA. “Perseverance is only the second explorer to travel the distance of a marathon on another world, following NASA’s Opportunity rover, which accomplished the feat in 2015,” the space agency wrote in an Instagram post.
By comparison, it took Opportunity 11 years and two months to cover that much ground. The Curiosity rover, which has been on Mars since 2012, has driven just over 23 miles. Perseverance “crossed the milestone while exploring intriguing, ancient terrain to the west of Jezero Crater, where the robotic geologist discovered the remnants of an ancient lake, and possible signs of ancient life,” NASA said. The rover recently sent back images from its western excursion, which included a selfie.
In between playing Doom on the most ergonomically challenged devices, [Aaron Christophel] likes to take a relaxing break with reverse-engineering Xiaomi Mi Band fitness trackers and writing custom firmware for them. Also so that he can play more Doom on those, natch. The latest subject comes in the form of the Mi Band 10, which features a BES2700iMP SoC, known internally at the manufacturer Bestechnic as the BEST1503. This is all documented on the GitHub project.
In the accompanying video we get some more details on this project, with the main challenge being that for this Mi Band 10 there’s no public SDK for its SoC. This was a major bummer until [Aaron] realized that the BEST1306 (BES2700IHC) is effectively the same SoC, but with a leaked SDK available via apparently audio-focused development kits. From there a BEST1503-compatible SDK could be assembled.
Naturally, to check that all of this was working correctly Doom was ported to the device courtesy of the GBADoom project. This mostly works aside from the display running in single-bit SPI mode instead of quad-SPI that it should be capable of, along with limited color depth. Despite burning all the tokens on the Claude, this provided little help, probably because the required information hasn’t leaked out of Bestechnic yet and ended up in the training data set.
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Since the Mi Band 9 uses the same SoC, it’s expected that this reverse-engineered SDK will also work for that fitness band, though that hasn’t been tested yet.
Welcome back to TechCrunch Mobility — your central hub for news and insights on the future of transportation. To get this in your inbox, sign up here for free — just click TechCrunch Mobility!
Today is Juneteenth, a U.S. federal holiday marking the end of slavery in the United States.
About 10 years ago, there was a lot of chatter about who was winning the self-driving car race. One of the problems with that debate — besides assuming there would be just one winner — was that no one had a reliable way to measure it. This was an early era filled with a lot of demos and capital, but little substance — at least what the public, and folks like myself, had access to.
Advisory and research startup Autnmy AI has developed a generative AI platform to create a benchmarking system that evaluates and ranks autonomous vehicle companies in an effort to answer that question in real time. And this week, the startup released its Road to Autonomy Index, which searches relevant global public databases, including federal and state reports, SEC documents, public exchanges, and other data. The system weighs the company’s operations, scale, revenue, commercial partnerships, manufacturing, and safety record based on that data and provides an update every 12 hours. There are four indices that rank robotaxis, autonomous driving licensing companies, autonomous trucks, and delivery bots.
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One important note, per Autnmy AI co-founder Rob Grant, the AI platform doesn’t just scrape information off the internet. “We agreed early on, we don’t scrape information,” he said. “If it’s publicly available or if it’s available under a Creative Commons license, we will use that information. We do have some license data that we pay folks for, and under that agreement too.”
The indices take a global approach, which produces some interesting results. One of the initial takeaways that made an impression on Grant was China’s stronger ranking across multiple categories.
As of Friday, the robotaxi leader was not Waymo. It was China’s Baidu Apollo Go program — just barely. Waymo was in the secondary position, followed by Chinese companies Pony.ai and WeRide. Tesla was in the fifth position.
A little bird
Image Credits:Bryce Durbin
I was reminded recently by a little bird to keep an eye on the Texas automated vehicle tracker tool that launched in May. And I am glad they did; looks like Tesla, Waymo, and Zoox are building up their respective fleets in the state. Reminder: This doesn’t mean every one of these are being used commercially. Zoox, for instance, cannot operate commercially until it receives an exemption from the federal government. It currently has the ability to give rides in its custom-built robotaxi but cannot charge customers.
As of May 28, Waymo had 577 autonomous vehicles registered in the state. It now has 620 of them, about a 7.5% increase in less than a month. Tesla now has 69 registered autonomous vehicles, a 64% increase from the 42 it had on May 28. Zoox, which had 35 registered autonomous vehicles last month, now has 43.
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Avride, Nuro, and Volkswagen subsidiary MOIA are holding steady at 317, 47, and 12, respectively.
Cargofy, a logistics company that uses AI to automate freight operations, raised $11 million in a Series A funding round led by u.ventures, Toloka, and Movens Capital. Des Traynor, co-founder of Intercom, and several angel investors, also participated.
Carro, the Singapore-based online car marketplace, acquired Australian used-car platform CarPlace, Reuters reported. Terms were not disclosed.
Gatik,a startup that has developed self-driving trucks for short hauls, announced a multi-year partnership with PepsiCo. The companies wouldn’t share the value of this deal, but it does signal PepsiCo’s commitment to Gatik, which is already operating driverless trucks for the food and beverage giant across Arkansas, Arizona, and Texas.
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QuantumScape announced a joint research agreement with Honda R&D Co. to accelerate solid-state battery development and associated manufacturing processes.
Automaker Stellantis, self-driving startup Wayve, and ride-hailing giant Uberstruck a deal to jointly develop and deploy driverless robotaxis.
XDOF, a startup focused on robot training data, raised $70 million from Thrive Capital, Spark Capital, a16z, Lux, and WndrCo.
Notable reads and other tidbits
Image Credits:Bryce Durbin
A video posted on Reddit showed a driver running a stop sign and hitting an autonomous vehicle in Dallas. TechCrunch confirmed it was an Avride robotaxi, which was hailed via the Uber app. An Avride spokesperson said no injuries were reported and that data from the incident is being reviewed “to continuously refine our technology and processes, as part of our standard procedures.” When asked about the reaction of the self-driving system and the human safety operator who was behind the wheel, Avride said, “Our safety review is currently ongoing, so we cannot provide more precise details at this time.”
Over on X, folks spotted a Tesla with an authorized limousine permit sticker for San Francisco County and the San Francisco International Airport. A spokesperson for SFO told TechCrunch that “Tesla has been issued a limousine permit to operate at SFO. This is for traditional limousine operations, meaning the vehicles have a human driver. Tesla has not been issued a permit for any autonomous operations at SFO.”
Mobileye, which has pitched itself as an autonomous vehicle technology supplier, is now making moves to become a robotaxi operator. The company plans to launch a robotaxi service in an unnamed U.S. city in 2027. History lesson: Mobileye founder and CEO Amnon Shashua told me back in 2020 that to crack the holy grail of passenger car autonomy, you needed to pursue robotaxis first.
Uber plans to launch a premium robotaxi service in Houston by mid-2027, making it the second U.S. market under its partnership with EV maker Lucid and autonomous vehicle startup Nuro.
Waymorecalled its fleet of nearly 4,000 robotaxis to stop them from driving into highway construction zones. Waymo took its robotaxis off the freeways weeks ago and has identified at least 13 instances of its robotaxis driving into highway sections that were closed for construction. Here is a detail worth noting: The software fix is “under development,” which means this issue is not resolved.
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Mosquitoes turn pleasant summer nights into itchy ordeals for anyone spending time outdoors. One inventor refused to accept the usual sprays, candles, and frantic swatting as the only options. Instead he created a full-body electric grid that delivers a direct shock to any insect that gets too close. Russian maker Dani Cruster, who runs the DiWHY YouTube channel, drew inspiration from ordinary bug zappers. Those devices use two layers of mesh or grid with high voltage running between them. When a mosquito flies into the space, it completes the circuit and ends its life with a sharp crack. Cruster simply asked what would happen if someone wore that same grid.
He began with heavy-duty construction mesh, which is commonly used on construction sites. The metal netting turned out to be two electrode layers. Use a centimeter-thick PVC foam board to build the frames that hold the mesh in place. A heat gun, similar to the one used to warm up paint or drywall during a renovation, is used to soften the plastic, allowing it to be twisted into curved panels that fit around the torso, arms, and legs. The finished design resembles a jumble of old Roman armor cobbled together from materials available at any hardware store.
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To deliver the electricity, he used six miniature high-voltage converters made from inexpensive shock guns found in markets. Each is powered by two regular 1.5 volt alkaline batteries and can produce an output of around 10,000 volts. Each module’s wires link to the panel’s inner and outer meshes. The builder meticulously checked all of the connections before placing the modules directly into the PVC frame. The distance between mesh layers is far more significant than anything else. High voltage can jump through the air, and the builder had worked out that a whole centimeter of space would keep sparks from reaching the person inside the suit. If it’s too small, you risk burning a hair or giving the wearer a painful shock. As long as the spacing is just right, the electricity will remain between the layers and zap any insects that pass through.
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Things became a little more tricky when he decided he wanted to create an entire suit. He had to measure and cut eighteen individual pieces of PVC, heat and shape each one separately, and then stretch mesh across both sides of the frames. The inner mesh layers are all electrically linked, therefore electricity cannot easily reach the skin. Six units are connected in parallel to power the whole costume. The battery packs will last for approximately an hour before needing to be replaced with new cells.
When testing the suit, he began with only one arm panel. Testers felt a small tickle and saw hairs stand up on their arms, but the gap prevented any serious shocks. Throughout the live tests, the builder donned dielectric gloves and goggles. He made it a point to underline how dangerous high voltage is and how you should never try to reproduce it unless you have been properly warned about the dangers.
The real trial was a facility in the deep forests outside Tarkov in Russia’s Tver Oblast, an area infamous for swarms of mosquitoes and ticks. When the user of the expensive outfit stepped out into the thick of it all, flipped on the modules, and started making their way through the woods, as the results were rather swift. Any insects that came into contact with the mesh screen simply did not survive. [Source]
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