Most electric motorcycles still behave like motorcycles first and utility machines second. They chase performance numbers, oversized displays, or aggressive styling while ignoring a simple reality: most urban riders just want something practical enough to replace short car trips. The ANY LUV1 approaches the problem differently. Instead of behaving like a sportbike with batteries attached, it feels more like a compact urban tool designed around everyday life.

Created by Belgian startup ANY Mobility, LUV1 is sandwiched somewhere between an electric scooter, cargo bike, and lightweight motorcycle. The company calls it a “Life Utility Vehicle,” and the name makes sense once you look beyond the styling. Nearly every part of the vehicle revolves around usability, whether that means carrying groceries, office gear, camera equipment, or handling the kind of short-distance errands people usually default to using a car for.

Designer: ANY Mobility

That practicality starts with its packaging. The integrated cargo compartment offers 120 liters of storage, which is significantly more useful than the tiny under-seat compartments found on most scooters. It is large enough to carry shopping bags, delivery equipment, or a backpack and helmet without forcing riders to strap everything externally. Front and rear cargo racks expand that flexibility further, while configurable dividers allow owners to organize storage depending on the task at hand.

The modular approach is where the concept becomes genuinely interesting. Instead of locking owners into one fixed setup, the LUV1 can be customized with interchangeable body panels, seating layouts, storage accessories, and optional weather protection. One configuration can prioritize cargo hauling during the week while another leans toward casual commuting on weekends. It follows the same logic that made modular furniture and adaptable workspaces appealing: people increasingly want products that evolve with their routines rather than forcing routines around the product.

Visually, the bike avoids the exaggerated “future mobility” look many startups lean on. The clean bodywork and restrained surfacing come from Granstudio, the Italian design firm led by former Pininfarina design director Lowie Vermeersch. That design pedigree shows in the proportions and detailing. Even functional components like the storage compartments and structural frame feel integrated into the design rather than added as an afterthought.

Underneath the bodywork sits a modular aluminum chassis produced using high-pressure die-casting, a manufacturing method more commonly associated with larger automotive companies. The setup helps reduce complexity while providing the platform with enough flexibility to support various accessories and future configurations. Power comes from an 11 kW rear hub motor paired with dual swappable lithium-ion battery packs totaling 6.5 kWh. ANY Mobility claims a range of 68 to 87 miles, depending on use, while the top speed is rated at 62 mph, making the bike suitable for both dense city streets and suburban commuting. Charging the batteries through a standard 220V outlet reportedly takes under four hours.

The LUV1 also keeps accessibility in mind. It weighs around 352 pounds and features a relatively approachable 30.9-inch seat height, making low-speed maneuvering less intimidating for newer riders and shorter commuters alike. According to reports, the company expects pricing to fall between €7,000 and €10,000 (approximately $8,150 – $11,600) depending on configuration, and reservations have already opened ahead of production plans.

What makes the ANY LUV1 stand out is not raw performance or futuristic gimmicks, but how realistically it understands modern urban mobility. Most people are not looking for an electric motorcycle to replace weekend entertainment. They are looking for something convenient enough to replace unnecessary car usage, and the LUV1 feels designed precisely around that idea.

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Every sensor on a Waymo robotaxi sees the world in layers. The LiDAR maps it in three dimensions, radar bounces through it, and cameras read it in color and contrast, building a composite picture of the road that no human retina could match at the same fidelity. So when a Waymo encountered a flooded section of a 40 mph road in San Antonio on April 20, the car absolutely saw the water. It slowed down for it. Then it drove in anyway, floated off the road surface, and came to rest in Salado Creek. The voluntary recall Waymo filed with NHTSA on April 30, covering 3,791 vehicles, was triggered not by a sensor that missed a hazard, but by a software stack that saw the hazard clearly and still chose the wrong response.

You might be sitting in one of those 3,791 recalled vehicles right now, somewhere in Phoenix, Los Angeles, Austin, or Atlanta, and Waymo has confirmed the permanent software fix is still in development. Tesla’s Cybercab, entering production at Giga Texas, runs a supervised robotaxi service in Austin, Dallas, and Houston on a pure-vision architecture with no LiDAR whatsoever. Uber’s platform in Dallas is dispatching Avride-operated Hyundai Ioniq 5s that are currently under NHTSA investigation for 16 crashes involving lane changes and failure to stop for traffic ahead. Amazon’s Zoox uses cameras, LiDAR, radar, and long-wave infrared on every vehicle, the most sensor-redundant consumer-facing stack in the industry, and is still in limited city testing. Each platform has a different answer to what a self-driving car should do when it encounters something it cannot traverse, and after the San Antonio creek, all of those answers deserve a much closer look.

The NHTSA recall notice characterizes the flaw precisely: the software “may allow the vehicle to slow and then drive into standing water on higher speed roadways.” That is a classification error buried in the decision stack, not a sensor failure, and the distinction matters more than the recall number suggests. Waymo’s 5th-gen Jaguar I-Pace and 6th-gen Zeekr RT both carry LiDAR, radar, and cameras in overlapping fields of view, and the San Antonio car processed the flooded road accurately as a hazard worth responding to. The decision architecture, however, had no hard-stop condition for water on a 40 mph road, only a caution flag that reduced speed and left proceeding as an available output. A separate Waymo had already been stranded near McCullough Avenue in San Antonio roughly two weeks before the April 20 incident, confirming this was a repeatable failure mode across a fleet that was still carrying passengers in nine other cities.

Tesla’s Cybercab carries no LiDAR, putting its supervised fleet in Austin, Dallas, and Houston in a fundamentally different position when floodwater appears than Waymo’s overlapping sensor stack would. The platform relies on eight cameras and 4D millimeter-wave radar, meaning no independent depth-sensing channel exists to assess water severity when camera visibility degrades in heavy rain. A real-world FSD 14.3.1 test in April 2026 ended in manual takeover when the front bumper camera submerged, a precise illustration of where the vision-only approach runs out of information. Avride, dispatching Hyundai Ioniq 5s through Uber’s Dallas app since December, is under concurrent NHTSA investigation for 16 crashes involving lane changes and failures to stop for road hazards, all 16 occurring with a trained safety monitor seated in the vehicle. Amazon’s Zoox sits at the opposite end of the sensor redundancy spectrum, combining cameras, LiDAR, radar, and long-wave infrared in a 360-degree array with a human TeleGuidance fallback for scenarios the stack cannot resolve, though its commercial footprint remains a fraction of Waymo’s.

The Waymo recall, the Avride probe, and a dashcam video of a Waymo rolling through a red light on Irving Boulevard in Dallas all surfaced in the same seven-day window, collectively mapping the same design gap across three platforms: a perception-to-action pipeline that detects a hazard but generates the wrong response to it. Waymo’s OTA patch is deploying now, but the permanent fix remains in development, meaning every current ride runs on interim constraints rather than a finished solution. The San Antonio incident involved an empty car, and that is the only reason this story ends with a recovery operation rather than a casualty report. Each platform carrying passengers today is still writing its edge-case rulebook, publishing each new chapter only after something breaks on a live road. Knowing which system you are riding in, what its sensor stack can assess in a sudden storm, and whether its flood-detection logic has been patched from an interim fix to an actual solution is, I’d argue, the most practical safety question a passenger can ask in 2026.

The post Waymo’s Self-Driving Car Saw the Flood and Drove In Anyway. Here’s The Problem Plaguing Every Robotaxi. first appeared on Yanko Design.

Wheelhome is a budding compact camping solutions enterprise in the United Kingdom. It is changing the way camping is perceived and how all-electric camping trips can be made more convenient. First, it launched the electric rooftop camper for the Tesla’s popular Model 3, and now it is offering other lighter vehicle owners an alternative for solo or two-person camping with the new Dashaway ECT micro camping trailers.

Designed for efficient electric camping trips, the Dashaway ECT trailer comes in two variants: a solo version and a two-person model. The campers are packed with all the amenities and facilities one needs, from a lounge to beds and a toilet to a kitchen, so they can be fully packed for all sorts of camping requirements.

Designer: Wheelhome

A provided awning is one of the major highlights of the Dashaway ECT series. It is part of the trailer and delivers an additional outer space that can be used for a portable toilet. Of course, it is optional, but with awning rolled up on the front of the trailer when riding, you have the option of expanding the living space. It can unfurl easily and attach to the roof and two side poles to create a sizable space. Besides the awning, the trailer is otherwise similar to the other options on the market, measuring 12.5 feet long and about 5.3 feet wide, but it differentiates itself in the convenience campers can have inside.

When in drive mode, the Dashaway ECTS one berth and the ECT 2 two berth pack down to a height of 3.8 feet. At the camp, both models can pop up to the height of 6 feet. Setting up the trailers is as easy as it can get. No additional tools or any specific training is necessary. The process takes a few minutes. First, using a motorized mover the trailer can be positioned using a remote control, without even the tow vehicle. When in place, the stabilizer legs are lowered and the roof can be lifted up using a gas strut-assisted crank and the fabric side-walled camp is ready to live.

However, before you start living, you can access the camper via single rear entry and layout the furniture and furnishing inside (which folds down when the camper is packed for the road). The interior has the kitchen setup at the entrance complete with an induction hob, kettle, air fryer, and microwave, and then is the seating lounge facing outward, toward the camp entry. The seat also accommodates a 12L fridge underneath. The lounge – depending on the berth configuration you have picked – is either one seat or two. the seats flatten down into a single or double bed at night. The sides are provided with large windows covered with mesh, which light up the interior.

Wheelhome provides the ECT series with ample storage cabinets and compartments under the seat(s). The trailer features a 3-kWh lithium battery, 200-watt rooftop solar panel connected to a 3,000 W inverter. Dashaway ECTS is available for a starting price of £19,750 (roughly $26,000), and the ECT2 is priced at £26,225 (about $35,000).

The post This Expandable Popup Micro Camper Turns Your EV Into a Fully Equipped Tiny Home for Off-Grid Escapes first appeared on Yanko Design.

Fighter pilots have had heads-up displays since the 1950s, because asking a human to look down at instruments while traveling at 600 miles per hour and making life-or-death decisions is an engineering failure, not a pilot failure. The technology migrated to production cars in 1988 when GM offered the first automotive HUD in the Oldsmobile Cutlass Supreme, and every generation of premium vehicle design since has treated it as table stakes. Tesla rewrote so many conventions of the automobile that it’s easy to forget it left one important capability behind. For all the innovation packed into the Model 3 and Model Y, their dashboards direct critical driving data to a screen mounted nowhere near where human eyes naturally rest during forward motion. TrantorVision built NeuroHUD to close that gap, and the Kickstarter campaign funded in 30 minutes.

Built alongside a community of over 4,000 Tesla owners from mid-2025 through early 2026, NeuroHUD projects Tesla driving data directly into the driver’s forward sightline rather than leaving it on a screen at center console height. Installation takes about one minute, requires no tools and no disassembly, and leaves the factory wiring completely untouched, keeping the manufacturer’s warranty intact. The compute module clips behind Tesla’s center screen and draws power through a single USB-C cable, with no hardwired connections and no vehicle modifications of any kind. From there, a dual-channel data system reads Tesla’s screen directly through AI cameras and simultaneously pulls deeper vehicle telemetry through the Tesla API, creating a richer information layer than either method could supply alone. The result covers speed, navigation, gear state, battery range, blind-spot alerts, and takeover warnings, all projected directly in the driver’s line of sight.

Designer: TrantorVision

Click Here to Buy Now: $379 $629 (40% off). Hurry, only a few left! Raised over $474,000.

A pair of 150-degree AI fisheye cameras face Tesla’s display and read high-frequency data like speed at 50 Hz, fast enough to keep the HUD readout synchronized with the car’s actual state without perceptible lag at any velocity. Lower-frequency information, covering gear position, battery range, and navigation turns, arrives through the Tesla API on a separate channel, and the system routes each data type through the appropriate pipeline based on how quickly it needs to update. End-to-end latency on the AI vision side sits as low as 20 milliseconds, tighter than many production-fitted HUDs achieve through direct hardware integration. The onboard processor is a 6-core Arm DynamIQ chip paired with an Arm Mali G610 MP4 GPU and 4GB of LPDDR4 RAM, running Ubuntu Core Linux with Wi-Fi 6 and Bluetooth 5.4 connectivity. That compute specification would look comfortable in a mid-range Android tablet, which gives a sense of how much processing headroom TrantorVision has reserved for future OTA feature additions.

At 1,500 nits of peak brightness, NeuroHUD’s 4-inch TFT LCD panel is engineered specifically around the failure mode that sinks most aftermarket HUDs in real-world use: direct sunlight washout. The panel runs at 480×800 resolution with a 140-degree viewing angle, keeping displayed information legible across a wide range of driver head positions without requiring precise alignment to a narrow sweet spot. The modular Light Engine gives drivers a genuine choice of projection method rather than committing them to a single approach. Combiner Mode positions a semi-transparent screen in the driver’s sightline for the sharpest image quality, with projected information appearing to float in the forward visual field at a focal distance that keeps eyes aimed naturally at the road. Windshield Projection Mode throws the image directly onto the glass for a more immersive overlay, and both modes switch without tools or any hardware intervention.

HomeControl is a GPS-triggered garage automation system that learns the driver’s RF remote signal, geolocates the home driveway, and fires the garage door automatically as the car turns in, with a physical button for manual override available at any time. Screen Mirroring turns the HUD into a secondary phone display, meaning Google Maps or Waze can be projected directly onto the combiner or windshield without any dependency on Tesla’s native navigation system. UI customization runs three levels deep: a mobile app for toggling individual elements, a full UI editor for precise sizing and positioning of each data element, and an open API interface for users who want to build a custom renderer entirely from scratch. A community layer lets drivers share layouts or download configurations built by other NeuroHUD owners worldwide, making the display experience as much a living software product as a hardware one. The combination of GPS automation, open API access, and a community-driven layout library gives NeuroHUD a software depth that compounds as its user base grows.

TrantorVision began the project in January 2025 with the goal of building a heads-up display designed around Tesla’s unique display architecture from the ground up. By May 2025 an engineering prototype was assembled and the AI vision system validated through real-world road testing; by July the product was publicly announced with a community already exceeding 4,000 Tesla owners across multiple platforms. Production design locked in December 2025, with the first batch of production samples arriving in January 2026. The device supports Model 3 from 2017 to 2023, Model Y from 2020 to 2025, Model 3 Highland from 2023 onward, Model Y Juniper from 2025 onward, and the Cybertruck from 2023 onward, covering both left-hand-drive and right-hand-drive configurations with Model 3/Y Standard trim included. An OTA Compatibility Upgrade Service is built in, meaning the hardware is designed to receive future software capabilities without requiring a new unit.

The standard NeuroHUD carries an early bird price of $379 against a retail MSRP of $629, covering Tesla data integration, mobile app control, UI community access, the custom UI editor, screen mirroring, and CarPlay and Android Auto support. The NeuroHUD Pro steps to $429 at early bird pricing, down from $729 retail, adding HomeControl, Windshield Projection Mode, deeper Tesla API integration, and enhanced hardware built to grow its feature set through over-the-air updates. Both tiers ship with a windshield film, USB-C power cable, Thunderbolt cable, 12V car adapter, cable clips, and a quick start guide, backed by a one-year warranty. Shipping is free to the continental United States and Canada, with a flat $10 covering the EU, UK, Australia, Hong Kong, and all other worldwide regions, with customs fees covered for most major markets. Global delivery is scheduled to begin between September and October 2026.

Click Here to Buy Now: $379 $629 (40% off). Hurry, only a few left! Raised over $474,000.

The post Tesla Left a Glaring Gap in Every Model 3 and Model Y. This $379 HUD Fixes It. first appeared on Yanko Design.

What you actually see here is a one-off submersible that is equally capable above the surface as it is underwater. For anyone who remembers the futuristic watercraft showcased in the James Bond film Spectre, there is now a rare opportunity to own one of the strangest and most ambitious vehicles ever built. Called the Scubacraft SC3, the experimental vessel was developed during the late 2000s as a functioning prototype that blurred the line between speedboat and personal submarine.

Unlike many fictional gadgets seen in Bond movies, the SC3 was not a movie prop designed solely for visual appeal. It was engineered as a real-world concept capable of operating both on the water’s surface and beneath it. The project reportedly attracted interest from the UK Special Boat Service and even DARPA because of its unconventional capabilities and military-style versatility before eventually making its way into the Bond universe. In Spectre, the matte-black machine appeared in Q’s workshop alongside the iconic Aston Martin DB10, instantly becoming one of the more memorable background vehicles in the film.

Designer: Bonhams

Now heading to auction through Bonhams, the SC3 remains the only prototype ever produced, making it less of a practical recreational craft and more of a collectible piece of engineering history. Its rarity is amplified by the fact that no production version ever followed, despite the concept demonstrating genuine functionality both above and below the waterline.

On the surface, the SC3 behaves much like a high-performance jet boat. It is powered by a Kawasaki 1,498cc inline four-cylinder engine connected to a jet-drive propulsion system, allowing it to skim across the water at impressive speeds. The real transformation begins once the craft enters deeper waters. With the underwater mode activated, electrically powered thrusters take over while hydrodynamic control surfaces guide the vessel beneath the surface at speeds of around three knots.

Unlike traditional submarines, however, the SC3 does not feature a sealed or pressurized cabin. Occupants are exposed directly to the surrounding water and must wear full diving gear before submersion. This open-water diving approach significantly reduces complexity and weight while creating an experience closer to underwater flight than conventional submarine travel. The setup accommodates three people, including the driver and two passengers, all seated in exposed racing-style seats integrated into the craft’s lightweight body.

Visually, the SC3 still looks every bit like a futuristic Bond vehicle. The original composite plastic bodywork remains intact, paired with carbon-fiber construction elements and upholstered leather racing seats that reinforce its cinematic personality. Its aggressive low-slung silhouette, combined with stealth-inspired matte-black paintwork, gives it an appearance that still feels ahead of its time more than a decade after it was built.

Vehicles attempting to combine marine and underwater transportation are exceptionally rare because of the engineering compromises involved. The SC3 stands out precisely because it became a fully operational prototype rather than a concept sketch or film mock-up. That achievement alone makes it one of the most unusual experimental watercraft ever created and an undeniably fascinating piece of Bond-related automotive history.

The post James Bond-inspired Scubacraft SC3 turns your underwater adventure fantasy into reality first appeared on Yanko Design.

The 2026 F1 season marks the biggest technical reset the sport has seen in over a decade, with new power unit regulations that push electric deployment even harder and a reshuffled grid that includes Audi’s factory entry and Cadillac arriving as a legitimate constructor. It’s the kind of moment when the paddock genuinely opens up to new possibilities, when manufacturers who’ve been sitting on the sidelines start doing the math on whether an F1 program could actually make sense. Lamborghini will almost certainly remain on those sidelines, because spending nine figures annually to race in a series where your parent company already fields a team (Audi, also owned by Volkswagen Group) would be corporate redundancy at its most wasteful. But that didn’t stop designer Daniel Rodriguez from asking what a Lamborghini livery would look like if Sant’Agata Bolognese decided to crash the party anyway. If it did, it would be the third bull-based team on the track after Red Bull and Racing Bulls!

Rodriguez’s concept wraps a 2026-spec F1 car in Arancio Borealis and gloss black with a geometric lattice pattern that pulls directly from Lamborghini’s current design vocabulary. The hexagonal graphics echo the Revuelto’s taillight treatment and the angular obsession that defines the brand’s styling language, flowing from dense at the cockpit to sparse at the rear wing. Italian flag accents trace the halo and nose cone, sponsor logos for Macron and Eni add commercial credibility, and the raging bull emblem sits on the rear wing endplates where it would photograph beautifully in the pit lane even if TV cameras never caught it. The renders are good enough to pass for official press shots, lit with the kind of moody amber-to-black gradients that Lamborghini’s own marketing team would approve.

Designer: Daniel Rodriguez

What makes this livery work is that Rodriguez doesn’t try to make the F1 car look like a Lamborghini road car, because that’s impossible and also beside the point. An F1 car is a regulatory sculpture shaped by wind tunnel data and the FIA’s technical rulebook, and no amount of vinyl wrap changes that fundamental reality. Instead, the livery translates Lamborghini’s graphic and color vocabulary into a form factor that has nothing to do with mid-engine supercars, and it does so in a way that feels both authentic to the brand and appropriate for the paddock. The Arancio Borealis orange sits somewhere between molten lava and a traffic cone, instantly recognizable as Lamborghini without requiring the car to sprout scissor doors or a V12 exhaust note. The gloss black creates genuine visual tension rather than just contrast, breaking up the body in a way that emphasizes the car’s aerodynamic surfaces instead of fighting them.

The hexagonal lattice pattern running down the sidepods and over the engine cover is the detail that sells the whole concept. Lamborghini has been obsessed with hexagons since the Aventador introduced them as a recurring motif back in 2011, and they’ve since migrated to every surface the brand touches. Taillights, grilles, interior stitching, wheel designs, all of it hexagons. Rodriguez takes that obsession and applies it to the F1 car’s sidepods in a way that creates visual density without cluttering the canvas. The pattern starts tight and geometric at the front, creating a sense of structural integrity, then gradually opens up as it flows rearward, giving the eye a path to follow from cockpit to diffuser. It’s a graphic solution that respects both the brand’s identity and the car’s aerodynamic purpose.

The Italian tricolor is handled with restraint, running as a thin accent stripe that outlines the halo and reappears on the nose cone. It’s subtle enough to avoid looking like a generic tribute to the brand’s Sant’Agata Bolognese heritage, but prominent enough that the car reads as distinctly Italian when parked next to Ferrari’s red. The sponsor integration is equally thoughtful. Macron, the Italian sportswear brand that already kits out Bologna FC and the Italian national rugby team, appears on the sidepods and rear wing. Eni, the Italian energy giant with deep motorsport ties, gets placement on the engine cover. Both partnerships feel plausible rather than fantastical, the kind of commercial relationships Lamborghini could actually secure if they showed up to the grid tomorrow.

Even the mandated wheel covers, which the 2026 regulations require for aerodynamic efficiency and which most teams treat as blank canvases or necessary evils, get the hexagon treatment here. It’s a small detail that maintains visual consistency across every surface, ensuring the car reads as a cohesive design rather than a collection of sponsor panels held together by regulations. The raging bull emblem on the rear wing endplates is rendered in white against black, a detail that would be nearly invisible during race broadcasts but would photograph beautifully in static pit lane shots and pre-race media coverage.

Will Lamborghini actually enter F1 in 2026 or beyond? Almost certainly not. The economics don’t justify it, the brand’s identity doesn’t need F1 validation, and their motorsport budget is better spent on GT3 programs that connect directly to road car sales. But Rodriguez’s concept does something more valuable than predicting the future. It proves that Lamborghini’s design language is strong enough to survive translation into a form factor it was never intended for, and it shows what the 2026 grid would look like with a raging bull parked next to the prancing horse.

The post This 2026 Lamborghini F1 Livery Proves the Raging Bull Belongs on the Grid (Even If It Never Happens) first appeared on Yanko Design.

Most upcycling projects ask you to forget what something used to be. Omri Piko Kahan’s bike frame chairs ask the opposite. The geometry is still unmistakably a bicycle frame, the head tube, the top tube, the triangulated rear triangle, all of it present and accounted for, just oriented sideways and asked to hold a person instead of propel one. Kahan, an industrial designer based in Israel, builds lounge chairs from pairs of retired frames, and the whole point is that the donor material remains fully readable, repurposed without being disguised.

Structurally, the approach is clean and considered. Each frame pair is positioned symmetrically, fork and chainstay ends touching the floor as legs, the top tube running horizontally as an armrest. A slung seat and backrest in leather or canvas complete the form. The result has the relaxed posture of a Barcelona chair and the material honesty of something that was clearly built, not styled.

Designer: Omri Piko Kahan

Bicycle frames are absurdly overbuilt for what Kahan is asking them to do. A modern aluminum road frame is engineered to survive repeated impact loads from a rider pushing 300 watts through rough tarmac, and it does that while weighing somewhere between 1,000 and 1,400 grams. The structural surplus in that kind of engineering is enormous, which is why two of them positioned as a chair frame and asked to support a seated adult is, from a load-bearing standpoint, almost comically within spec. The geometry does the rest. Bicycle frames already resolve forces through triangulated sections, and a lounge chair asks for exactly that kind of lateral and compressive stability.

What Kahan has figured out is the orientation problem. Flip a frame on its side and the existing tube angles don’t automatically produce a useful chair geometry. The fork legs and chainstay ends need to hit the floor at the right height relative to each other, the top tube needs to land at armrest height, and the whole thing needs to produce a seat rake that doesn’t pitch you forward or swallow you whole. The matched top tube angles across both frames in the Cube and Trek build suggest this took real iteration, because they align with a precision that reads as deliberate rather than lucky. Filed fillets at the junctions and a custom setback upper support holding the sling confirm someone was paying close attention to finish quality.

The two builds photographed so far, one pairing a blue Cube road frame with a Trek, another combining a GT Transeo 3.0 with what appears to be a Supreme-branded MTB frame, show how much the donor bikes drive the final character of each piece. The GT build in particular has a longer wheelbase geometry that gives the chair a wider, more reclined stance than the Cube version. Kahan is taking custom orders, with pricing worked out per commission, which makes sense given that no two donor frame combinations will produce the same structural or ergonomic outcome.

The post These Old Bike Frames Upcycled Into Armchairs Are The Coolest Thing You’ll See Today first appeared on Yanko Design.

Could the most efficient VTOL design of the 21st century have been sitting in a patent office since 1928? Willard Ray Custer thought so, and spent decades trying to prove it. His channel wing concept, which set propellers into semicircular cutouts in each wing to blast high-velocity air across the lifting surface at low forward speeds, worked well enough that his team demonstrated near-vertical liftoff decades before the term eVTOL existed. Aviation’s mainstream never adopted it, partly because the aircraft of that period were too heavy and partly because the jet age arrived and swept most unconventional configurations off the table. The concept sat in aerospace history books, occasionally surfacing in academic papers and NASA wind tunnel tests, never finding its way into a production aircraft.

HopFlyt is the company making the argument that the wait is finally over. Founded in 2016 by Rob Winston, a former NASA engineer and Marine Corps test pilot, the Maryland-based startup has built the Cyclone, a hybrid VTOL drone that pairs Custer’s channel wing geometry with pivoting mounts, modern composites, and a hybrid electric-fuel drivetrain. The channels orient rearward for vertical takeoff, pivot beneath the wing for forward cruise, and can even act as aerodynamic brakes on descent. HopFlyt claims the configuration cuts climb power consumption by a third compared to conventional VTOLs, holds fuel burn to under three gallons per hour, and enables cargo runs of 250 lbs across 800-plus miles of range. A 2027 commercial launch is the target, aimed squarely at naval resupply, offshore energy logistics, and medical delivery markets.

Designer: HopFlyt

The engineering logic behind the channel wing is cleaner than it might first appear. A conventional fixed wing generates lift by moving through air fast enough for pressure differentials to do their work, which means you need significant forward velocity before the wing becomes useful. Custer’s insight was to bring the air to the wing instead, using a propeller seated inside a curved half-channel to accelerate flow across the lifting surface regardless of forward speed. HopFlyt’s pivoting channel takes this further, allowing the geometry to optimize for hover and cruise independently rather than compromising between them. Chief Engineer Neil Winston, whose background spans NAVAIR flight test, puts it plainly: the ideas were always there, but the digital control systems, electric motors, and lightweight materials needed to execute them simply did not exist until now.

The hybrid drivetrain is what gives the Cyclone its range credentials and separates it from the crowded field of pure-electric eVTOLs currently chasing urban air taxi certifications. Battery power handles the vertical takeoff and hover phases, where the channel wing’s efficiency advantage is most pronounced, while a turbogenerator takes over for forward cruise, extending endurance far beyond what any battery pack realistically supports today. HopFlyt puts the operational cost savings at 90 percent compared to helicopters performing equivalent missions, a figure that, if it holds up under real-world conditions, makes the Cyclone genuinely disruptive in sectors where helicopter logistics are currently the only viable option. Offshore energy platforms and naval resupply operations run on helicopter economics right now, and those economics are punishing.

HopFlyt has reached this point on a fraction of the capital that comparable advanced air mobility startups have burned through, operating out of a private hangar in Maryland with a team whose combined aerospace experience runs to over a century. The company is currently in a Series A raise to fund hybrid-electric prototype development and initiate flight demonstrations ahead of that 2027 target. Whether the Cyclone becomes the aircraft that finally vindicates Willard Ray Custer’s century-old intuition depends on what those demonstrations produce. The aerodynamics have always been sound. Now the rest of the technology has caught up.

The post Semicircular Wings give this Hybrid eVTOL an 800 Mile Range with 30% Less Power Consumption first appeared on Yanko Design.

Modern sailing superyachts often struggle to balance two competing priorities: the elegance and efficiency of wind-powered travel and the expansive living spaces typically associated with large motor yachts. The A100 sailing yacht concept approaches this challenge with a bold rethink of traditional yacht architecture. Developed through a collaboration between Van Geest Design and Rob Doyle Design, the 100-meter vessel proposes a layout that delivers the interior volume of a motor yacht while maintaining the identity and performance of a sailing superyacht.

At the core of the concept is a design strategy that maximizes usable space. Traditional sailing yachts require wide side decks for crew movement and sail handling, which limits interior width. The A100 concept reduces the width of these side decks, allowing the main deck to stretch nearly the full beam of the yacht. This architectural shift creates significantly larger interior spaces than typically found on sailing yachts of comparable size.

Designer: Van Geest Design and Rob Doyle Design

The main deck is designed as the primary social and living area. Here, the owner’s suite occupies a substantial portion of the deck, offering a level of space rarely seen on sailing yachts. Adjacent to the suite is a central lounge and formal dining area intended for gatherings and entertaining. An additional space can function as a library or a private cinema, adding flexibility to the interior layout. Large sections of glass surround these living areas, filling the interior with natural light and offering uninterrupted views of the ocean.

Below deck, the yacht accommodates guest cabins along with a variety of leisure-focused facilities. This level also houses a dedicated diving room and storage for water toys such as jet skis and e-foils, allowing guests to transition between onboard relaxation and water activities easily. The layout is designed to maintain a strong visual connection with the surrounding seascape while ensuring privacy and comfort for those on board.

Outdoor areas play an equally important role in this larger-than-life superyacht design. The upper deck includes the navigation and steering stations, along with flexible lounge spaces for relaxation or wellness activities. At the stern, a large beach club spans the full width of the yacht, creating a welcoming space for guests to gather close to the water. Toward the bow, storage areas accommodate tenders and recreational equipment without disrupting the clean lines of the deck.

The sailing system is based on two free-standing DynaRig masts, a modern configuration used on some of the world’s largest sailing yachts. The system employs curved yards that support multiple sails, all of which can be deployed and adjusted electronically at the push of a button. The rotating masts simplify sail handling while maintaining efficient propulsion for a vessel of this scale.

Beyond its layout and sailing system, the A100 concept also reflects growing interest in more sustainable superyacht designs. By relying heavily on wind propulsion supported by advanced onboard energy systems, the concept explores ways to reduce reliance on conventional engine power. If brought to life, the A100 would stand among the largest sailing yachts ever built!

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It’s rare to come across a capable mobile living unit built onto the back of a Midsize Light Commercial Vehicle (LCV). The versatile delivery truck platform has the power and capacity to carry a living unit, but it’s not a preferred conversion choice for obvious reasons: It wouldn’t go beyond the convenient city and semi-urban paths.

If you’re someone who is content with camping in designated sites and parks at accessible distances over a weekend; the Ari 458 Pro electric camper van is tailored for your ‘compact, efficient and consistently sustainable’ lifestyle. For those who prefer the rugged wilderness, look over for other options.

Designer: Ari Motors

Created in Germany by Ari Motors, the Ari 458 Pro doesn’t have the rugged appearance: It’s not meant to be a mean adventure rig. The docile appearance may not be German, but the quality of what you get onboard the motorhome – space-saving design with maximum flexibility for living and traveling – is definitely German, if you know what I mean.

Designed to be Germany’s smallest electric camper van out there, Ari 458 Pro is created keeping in mind adventurers and family campers interested in short vacations. The mini-camper with 30 square feet of living space has a top speed of 70 km/h (44 mph) and about 230 kilometers (143 miles) range. It draws power from a solitary 23.5kWh electric motor, which produces up to 20 horsepower.  A choice of 15kWh battery is also available. It will perhaps reduce the range from 143 to roughly 112 miles.

It comes based on a resilient chassis with an integrated power supply, solar and water systems, while the interior is left out as a blank canvas for the individual to customize to their different requirement. Users can choose to customize the 12.5 feet long, 4.9 feet wide, and 6 feet high (headroom) camper interior from a minimalist solution for sleeping to a fully-equipped home with kitchenette, storage, couch, bed and other necessities.

Created small and compact, the Ari 458 Pro camper van can park conveniently in any parking space, and as the company says, ‘fit narrow roads where larger motorhomes cannot go.’ Its cockpit is interestingly furnished with two seats, a digital display, and a reversing camera to ensure safety. The camper van is currently available in Germany and is priced at €30,381 ($35,100). We do not have a word on the Air 458 Pro’s international availability, but for the interested, the Ari 458 Pro is available in the country in over 30 different variants: food truck, box van, flatbed, tipper, or even a compact garbage truck. These configurations start at €15,790 ($18,200).

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In the world of Formula-1 world championships are won by the slender margin of milliseconds that turn into big margins after every passing lap. The level of engineering in the pinnacle of Motorsports is unparalleled, and the drivers competing for the top podium step do every little thing that gives them a strategic advantage over their rivals.

Personal training is a part of the drill to stay in top shape, but the real deal is to polish the skills and gain telemetry data in the racing sims that very closely mimic the nuances of each track on the season calendar. With the hybrid era, the need for simulating the real track conditions has become even more important, given the metamorphosis this sport is undergoing.  A good simulator plays a vital role in giving the F1 and F2 drivers a fair idea of areas to improve, or develop strategic maneuvers that can be finally implemented on the track.

Designer: Cool Performance

With over two decades of motorsport experience and trusted by over 250 professional racers, Cool Performance now brings its most advanced F1 sim racer for professionals and motorsports fans. Current F1 drivers who train their driving skills on the Formula Pro Simulator include Lando Norris, Carlos Sainz, Sebastian Vettel and Alex Albon. Founder Oliver Norris has designed the simulator from the ground up with tons of experience in his own Motorsports journey and his brother Lando’s last couple of successful F1 seasons.

The professional-grade simulator has a precision-designed cockpit and race seat to recreate the realism of FPV in the single-seater racer. To simulate the nuances of a Formula -1 car riding the tarmac, the simulator has a high-torque force feedback steering and a Leo Bodnar SimSteering 2 base. This lets the sim racer feel every little bump of the chicane or the minute grip changes when the car is steered off the racing line. Braking in Formula 1 is way more challenging than your average SUV. That is mimicked by the CP-S hydraulic pedals with an AP Racing master cylinder support, which can simulate 200 kgs of braking force. For that, you’ll require immense strength in your core and lower body.

Every little detail of this F1 simulator is narrowed down to the last millimeter, much like the Formula 1 cars. Right from the highly technical CP-S Formula steering wheel that has virtually everything right at arms distance for the driver, to the CP-S custom hydraulic pedals, nothing gets better than the Cool Performance’s option. Clearly, if you want to feel the realism and the tiny details of Formula 1, this is it. Each one of the Formula Pro F1 simulators is custom-manufactured and tested by Oliver and Adrian Quaife-Hobbs in Kent, United Kingdom.

Eager buyers can opt for a single curved screen setup or a multiscreen array for better realism. If you are a purist, then the UK-based manufacturer can create a bespoke version of the sim to fit your specific needs. The Formula Pro simulator price starts from $40,950 and can go higher depending on the add-ons demanded or the bespoke modifications required.

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Two-wheelers have always demanded a certain level of skill and balance from riders, especially at low speeds or when navigating crowded city streets. OMO X by Omoway attempts to change that equation by introducing what the company describes as the world’s first mass-produced self-balancing electric motorcycle. Designed around advanced robotics and artificial intelligence, the new age electric bike blends traditional scooter convenience with autonomous technology that aims to make urban mobility easier and safer.

At the core of the two-wheeler is Omoway’s newly introduced OMO-ROBOT architecture, a full-stack control platform that integrates sensors, perception systems, decision-making software, and mechanical actuation into a unified framework. The system combines aerospace-grade gyroscope technology with reinforcement-learning models to continuously stabilize the motorcycle. This architecture allows the OMO X to maintain balance on its own, even when stationary, eliminating one of the biggest challenges riders face on two-wheeled vehicles.

Designer: Omoway

The balancing capability is achieved through a Control Moment Gyroscope (CMG) module. Using the principle of angular momentum, the spinning gyroscope actively stabilizes the vehicle, keeping it upright without rider input. Beyond simply preventing tip-overs, the system also supports a range of riding assistance features. These include slip prevention on wet surfaces, assistance while cornering, and obstacle-avoidance capabilities designed to enhance safety during everyday riding.

Omoway is also positioning the OMO X as a highly intelligent mobility device. The scooter incorporates a network of sensors and cameras that continuously monitor the surrounding environment and feed data into an AI-based riding system. This enables features such as adaptive speed adjustments, hazard detection, and automated safety responses if the system identifies a potential risk. Some demonstrations have even shown the scooter maneuvering on its own, driving onto a stage without a rider, and responding to remote commands through a smartphone app.

Another notable capability is automated parking. Instead of requiring riders to maneuver the bike into tight urban spaces manually, the OMO X can guide itself into a parking spot once a location is selected. The system relies on its self-balancing capability and onboard sensors to navigate safely, a feature that reflects the growing overlap between robotics and personal transportation.

The electric scooter’s futuristic design further reinforces its technological identity. Its sharp, angular styling and distinctive lighting signature give it a modern aesthetic that stands apart from traditional scooters. In a way, it carries the Tesla Cybertruck aesthetic, with a continuous front light bar replacing a conventional headlamp and creating a visually striking presence on the road.

Production plans for the OMO X are already underway. The company announced that the model has entered mass production following its global launch event in Singapore, with pre-orders expected to open in April 2026. Indonesia has been selected as the first launch market, where the electric scooter will debut commercially in Jakarta shortly afterward. Omoway is reportedly working with multiple regional distributors and plans to establish a dealer network of more than 100 locations in the country.

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Track Trailer, the name behind the famous Tvan off-road camper trailers, needs little introduction. It has been powering the overlanding experience in Australia and worldwide for a good part of four decades now. Over the years, we have seen some interesting variants of the Tvan, which has now reached the MK6. The sixth iteration in the successful portfolio, Tvan MK6 Model, retains the same aluminum body, which runs in the bloodline, but is more spacious and even more comfortable.

As the appearance suggests, the new Tvan MK6 is available in four variants and is almost identical to its predecessors. What changes are the interior space and the headroom, which make the MK6 a different entrant in the same effective branding of the world’s toughest off-roading trailer.

Designer: Track Trailer

Track Trailer first tried reworking the interior space with the MK5 model. It was done staying within the confines of the Tvan styling: no pop-up roof attachment, but a slight raise in roof height. With the MK6, the company has also stayed true to its design ideology. It has only increased headroom, stretched the neck forward, and pushed the sides of the trailer outward to increase the interior space by up to 20%.

The expansion to the trailer permits more natural light inside the cabin, which is constructed using an aluminum sandwich-panel construction. Moreover, the MK6 features a durable chassis based on an advanced suspension system that enables it to roll comfortably on rugged terrains and off-road destinations. With its ruggedness assured, the camping trailer is ideal for all types of adventures, which is facilitated by its quick setup and clever storage designed throughout its exterior and also on the inside.

MK6 measures 16-foot-long and 6.3 feet wide, the trailer has an interesting storage cabinet in the extended nose up front, comprising a pantry and up to 95 liters fridge/freezer. Slightly further back is the slide-out kitchen with a three-burner gas stove, a full-size sink connected to a 108L fresh water tank, and a storage drawer topped with a prep area.

The most interesting part of the MK6 camping trailer is the rear hatch design. It features Track Trailer’s patented Skyward Lift Up Deck, which combines the hatch and the hard-floor deck. The electric lock system allows the two to lift up in unison for quick and direct access into the living space of the trailer. Just when you need it, a tent can be attached to the trailer to increase the living quarters.

Inside is a double bed surrounded by large windows and overhead and sidewall storage. LED lighting and dual roof hatches complete the design. Since the MK6 is available in four variants, each is designed differently for off-the-grid living. The entry-level Inspire features a 125Ah lithium battery that draws energy from a 200W rooftop solar panel, while a 350W inverter takes care of the power backup. Firetail accommodates a pair of 125Ah batteries, a 2000W inverter, and some premium features in the kitchen.

Tvan MK6 Murranji adds a 200W solar panel to the Firetail setup, but leaves out the inverter. The top-of-the-line, Lightning, on the other hand, comes with a 500Ah battery. It features a 2,000W inverter and a 360W solar panel to complete its all-electric setup. Each of these models can have further upgrades with add-ons like awnings and more. MK6 starts at AU$69,900 (approximately $50,000) with the mentioned amenities.

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What began as a playful internet prank has evolved into a genuine motorsport project. The racing version of the BMW M3 Touring 24H will compete at the legendary 24 Hours of Nürburgring in 2026, turning an April Fools’ joke into a unique moment for endurance racing. Built by BMW M Motorsport, the car will take on the infamous Nürburgring Nordschleife (often called the “Green Hell”), bringing a wagon body style (rarely seen in modern motorsport) to one of the world’s most demanding circuits.

The idea originated on April 1, 2025, when BMW shared images of a supposed race-ready M3 Touring on social media as part of its annual April Fools’ tradition. The concept depicted a full-blown GT-style race car based on the performance wagon, complete with aggressive aerodynamic components and racing livery. While initially intended as a joke, the reaction from fans was overwhelmingly positive. Enthusiasts embraced the idea of a high-performance wagon competing on the track, prompting BMW engineers to explore whether the concept could become reality.

Designer: BMW Group

That fan enthusiasm ultimately led to the creation of the BMW M3 Touring 24H, a competition-ready machine developed specifically for endurance racing at the Nürburgring. The car is scheduled to make its racing debut at a round of the Nürburgring Langstrecken-Serie (NLS) before appearing at the 24-hour race itself in May 2026. The event will mark a rare sight in modern motorsport: a long-roof station wagon battling alongside purpose-built race cars in one of the world’s toughest endurance competitions.

Visually, the M3 Touring 24H transforms a practical family wagon into a striking track weapon. The bodywork incorporates wide fenders, a deep front splitter, aerodynamic side panels, and a large rear wing mounted above the tailgate. A racing diffuser and enlarged air intakes help optimize airflow and cooling during long stints on track, while the overall stance mirrors the aggressive proportions of BMW’s GT race cars. The familiar Touring silhouette remains intact, giving the car a distinctive appearance that blends practicality with pure racing performance.

Although detailed technical specifications for the race version remain limited, the project draws inspiration from the performance credentials of the road-going BMW M3 CS Touring. That high-performance wagon uses a 3.0-liter twin-turbocharged inline-six engine producing around 543 horsepower and 650 Nm of torque, paired with an eight-speed transmission and BMW’s M xDrive all-wheel-drive system. The result is a wagon capable of accelerating from 0 to 62 mph in about 3.5 seconds and reaching a top speed of approximately 186 mph.

The Nürburgring itself has long been central to BMW M’s development and racing activities. The 12.9-mile circuit features more than 70 corners and dramatic elevation changes, making it one of the most challenging tracks in the world. BMW M vehicles have achieved numerous successes there over the years, including multiple victories in the 24-hour race, reinforcing the brand’s deep connection to the track. The debut of the BMW M3 Touring 24H represents more than just a novelty. It highlights how fan enthusiasm and digital culture can influence real-world automotive projects, especially when a playful idea resonates strongly with enthusiasts.

When the M3 Touring 24H lines up on the grid at the Nürburgring in 2026, it will stand out among the field not only for its unusual body style but also for the story behind its creation.

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Reverse driving accounts for just 1% of all driving time, yet it’s responsible for roughly 25% of all accidents. A dirty backup camera in winter, mud season, or on dusty country roads is not a hypothetical inconvenience but a genuine safety liability, one that most drivers have resigned themselves to either living with or solving by stepping out of the car every time. Mike Klein, a Vermont-based tinkerer with a characteristically no-nonsense approach to annoying problems, got fed up enough to build a solution in his garage. What started as a Ziploc-bag-and-zip-tie prototype strapped to his license plate has turned into the Lens Lizard, a compact, self-contained, remote-controlled backup camera washer that just hit Kickstarter and has absolutely run away with its funding goal.

The concept is beautifully blunt. Lens Lizard mounts behind your license plate, sandwiched discreetly between the plate and the bumper using your car’s existing screw holes. No drilling, no wiring, no running tubing through door gaps or under trim panels. The whole install takes under five minutes with a standard screwdriver, and once it’s on, it’s invisible. The unit itself houses a fluid reservoir, a battery pack, and a high-pressure nozzle that you aim at your camera once during setup and then never have to touch again. When your backup camera gets caked in snow/ice or road salt on a grey January morning, or buried under a slush splatter from the truck overtaking you on a Vermont highway, you press a wireless remote button from inside the car and a jet of washer fluid blasts the lens clean. Sort of like a lizard or a chameleon striking its prey with a sharp, swift flick of its tongue. Except this time, it’s a concentrated jet of soapy water. Maybe a Pokémon reference would work better but I don’t want Nintendo’s lawyers sending me a cease and desist.

Designer: Mike Klein

Click Here to Buy Now: $99 $149.99 ($50.99 off) Hurry! Only 5 days left.

The engineering philosophy here is aggressively practical. Klein explicitly designed the Lens Lizard for Vermont winters, which means sub-zero temperatures, aggressive road salting, heavy snow, and the kind of freeze-thaw cycling that destroys lesser materials. The housing is sealed and built from automotive-grade materials, and the battery and fluid reservoir are sized to last four-plus months between refills and recharges, meaning you top everything up roughly once per season.

Maintenance is a non-event: open the latch, refill with washer fluid, charge via USB-C, close it back up. Klein’s origin story is worth noting too, because it gives the product a satisfying internal logic. He tried hydrophobic lens covers (they peeled), ceramic coatings (they did essentially nothing), and eventually decided to just build a scaled-down windshield washer system for his license plate. The first prototype was, by his own admission, ridiculous. But it worked, and that was enough to tell him the idea had legs.

Lens Lizard works with any vehicle where the backup camera sits above the license plate, which covers 99% of cars on the road, pickup trucks very much included. The product ships with assorted license plate screws to handle different fastener sizes, and the adjustable nozzle lets you dial in the spray angle for your specific camera position during initial setup. After that, the unit lives its entire life tucked behind the plate, completely out of sight. The wireless remote is puck-shaped and lives wherever you keep it in the cabin, a glove box, a cupholder, the center console.

The Lens Lizard starts at just $99 for the entire kit as an early bird discount off its $149 price tag. A dual bundle costs $189 if you’ve got two cars, and all bundles include the Lens Lizard unit, a wireless remote, a battery pack, and an assortment of screws to help you install the gizmo on your car. Given its specific design (and that every nation has a different license plate), the Lens Lizard only ships to the US and Canada for now, although I’m sure a more universal version is in the works. Production is slated to begin in April 2026, with shipping to backers planned for May. For drivers in cold-weather states, high-dust regions, or anywhere that sees serious road grime, it’s a hard value proposition to argue with. Certain premium vehicles have had integrated camera washers for years, quietly tucked into the bumper plumbing. Klein has simply figured out how to give everyone else the same result for under a hundred bucks, no dealer visit required.

Click Here to Buy Now: $99 $149.99 ($50.99 off) Hurry! Only 5 days left.

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Few sports cars have preserved the spirit of lightweight performance quite like the Caterham Seven. With its minimalist design and uncompromising focus on driving purity, the model has remained one of the most authentic expressions of classic British motoring. Now, the British manufacturer has introduced a special variant that celebrates a lesser-known but historically important racing story. Developed in collaboration with Hersham and Walton Motors (HWM), the Caterham Seven HWM Edition pays tribute to the small British team that once challenged Europe’s best on the Grand Prix stage.

HWM was founded in 1938 and built a reputation in the early post-war years as a determined independent racing constructor. Its most famous machine was the 1951 HWM-Alta single-seater, which achieved several international race victories and podium finishes during an era dominated by far larger teams. The car also played a role in motorsport history by giving legendary driver Sir Stirling Moss an early Formula 1 appearance. By creating the Seven HWM Edition, Caterham and HWM are celebrating that underdog spirit and the shared heritage of two British brands deeply rooted in racing culture.

Designer: Caterham and HWM

The limited-run model is inspired by the original HWM-Alta racer. Only 19 examples will be produced for the UK market, mirroring the exclusivity of historic racing specials and emphasizing the handcrafted nature of Caterham’s vehicles. Each car is finished in a distinctive HWM Green paint, a color digitally matched to the original 1951 race car. Exterior detailing reinforces the historical connection, with Alta-inspired side panel louvres, a bespoke nosecone grille, and suspension components such as the wishbones, anti-roll bar, and headlight brackets finished in Retro Grey. A centrally mounted chrome fuel filler cap and a special HWM Caterham nosecone badge further distinguish the model.

Inside the cockpit, the retro theme continues with a focus on craftsmanship and period-correct design cues. The dashboard features a hand-turned aluminum SuperSprint panel fitted with classic SMITHS chrome dials and a solid metal master cut-off switch. Drivers interact with the car through a polished wooden Moto-Lita quick-release steering wheel, while chrome-finished controls for the gear lever and handbrake add to the vintage racing aesthetic. The body-colored transmission tunnel enhances the bespoke feel, and buyers can choose between leather-trimmed seats or lightweight composite racing seats embroidered with the HWM logo. A numbered plaque on the passenger side of the dashboard marks each vehicle as “1 of 19,” underscoring its rarity.

Despite its historic inspiration, the Seven HWM Edition remains a thoroughly modern performance machine. The car is based on the Caterham Seven 420 platform and is powered by a naturally aspirated 2.0-liter Duratec four-cylinder engine producing around 210 horsepower. Paired with a five-speed manual gearbox and driving the rear wheels, the lightweight sports car delivers an impressive power-to-weight ratio of roughly 375 horsepower per ton. As a result, it can accelerate from 0 to 60 miles per hour in just 3.8 seconds and reach a top speed of approximately 136 miles per hour.

Prices for the Caterham Seven HWM Edition start at £57,990 (approximately $78,000), positioning it as an exclusive offering for enthusiasts who value both heritage and pure driving engagement.

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Road construction has a complexity problem. Getting a stretch of road built in a remote region, a disaster zone, or difficult terrain typically means coordinating multiple heavy machines, multiple skilled operators, and a logistical chain that can collapse at any point. Yan Zhang and Jialu Hou, two designers from Shandong University of Art and Design, spent several months in 2024 working on a concept that treats all of that complexity as a design challenge worth solving from scratch.

The result is PaveLink, an autonomous modular road-building system that arrives as a single articulated electric train and deploys into a coordinated fleet of AI-guided construction robots on site. One system. One delivery. A drone overhead, autonomous modules on the ground, and an intelligent command hub managing all of it in real time.

Designers: Yan Zhang and Jialu Hou

The truck head is a blocky, panoramic-windshield command center with a drone launch platform built right into the roof. When PaveLink reaches its target location, that drone lifts off first, ascending to map the terrain using aerial sensors and streaming data back to the cab in real time. The drone itself is worth a second look: shaped like a swept-back arrowhead with a multi-rotor configuration, it looks aggressive and purposeful in the air, matching the amber and gunmetal black palette of the ground units working below it.

Four distinct unit types detach from that spine: a front-loader with a wide scoop bucket, an excavator arm for breaking ground, a grader for leveling, and a heavy steel drum compactor for finishing the surface. On their own, each unit looks almost insectoid, riding on two or three fat rugged wheels with articulated limbs that flex and angle across uneven ground. Together, working in coordinated parallel, they turn what would normally require a crew of operators and days of staging into something that functions more like a synchronized performance.

All the modules stay tethered to the system via cables, which serve double duty as power lines and data channels. PaveLink runs fully electric, so there’s no diesel cloud hanging over the operation, and the continuous cable connection means the modules never need to stop and recharge independently. The drone keeps feeding updated terrain data overhead, flagging hazards and fine-tuning the AI’s workflow decisions as ground conditions change.

PaveLink is aimed squarely at the places traditional road construction struggles most: disaster-hit zones, remote regions with no skilled operators, and rugged terrain that conventional machinery can’t navigate efficiently. The modular autonomous approach answers all three problems at once. Fewer humans in harm’s way, fewer separate machines to transport in, and an AI coordination layer that adapts to whatever chaotic ground conditions it finds on arrival.

The post Transformers-inspired Shapeshifting Machine Splits Into An Entire Road-Construction Robot Fleet first appeared on Yanko Design.

Mercedes-Benz and Volkswagen have produced some of the best camper vans on the market, and they’ve long shared a common collaborator. Now, with Mercedes-Benz taking the complete production of its Marco Polo under its wings, Volkswagen and other competitors can expect some serious competition. The newly updated 2026 Marco Polo is the first new addition to Mercedes in-house van life portfolio and flaunts an interesting pop-up roof, which is its main talking point.

According to Mercedes-Benz press information, the body of the V-Class Marco Polo is built at the company’s Vans plant in Vitoria, Spain. The vehicle is then converted into a pop-up camper van at the Ludwigsfelde plant in Germany. The overall in-house production of the Marco Polo means it’s of the “highest quality standard” and that the company has complete control over every detail and pace at which it is produced.

Designer: Mercedes-Benz

Substantiating the fact, Sagree Sardien, head of sales & marketing Mercedes-Benz Vans said, it is a “Mercedes-Benz through and through,” which is designed to offer buyers a more sophisticated home on wheels. “A home that effortlessly combines travel and everyday life – while making a stylish statement,” he said.

To that accord, the Mercedes-Benz 2026 Marco Polo is a compact, luxury camper van featuring a pop-up roof, convertible downstairs seating, kitchen, and ambient lighting to uplift the mood when you’re inside the van. The major update from the 2024 model of the van is focused around the improvement to the lifting roof space. The double-skinned aluminum pop-top makes for an additional 4 inches of headroom and is provided with an ambient LED system that allows the space to feel lively and inviting.

Downstairs, the Marco Polo doesn’t make many changes. It comes equipped with a kitchen featuring double burner gas stove, a sink, mini fridge, and a swiveling bench that can easily facilitate dining and sleeping. During mealtime, you have a folding table that reaches out of the kitchen block, and during the night it folds up to make room for the convertible sofa to create a double bed.

MBAC infotainment suite is another interesting facet of the new Mercedes camper van. Sitting in the cockpit, the smart touchscreen can control the interior components like the vehicle’s upgraded eight-speaker audio system and pop-up roof lighting. The infotainment system also has instant control to pop-up roof. You can deploy or retract the lifting roof remotely, while also maintaining the temperature of the van home.

The new Marco Polo will be available to order soon, Mercedes notes. It also mentions in the press release that the launch of Marco Polo Horizon is also on the cards. This model shares similar features except for the built-in kitchen unit, making it suitable for weekend outings or short holidays only.

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