What you’re looking at is a new airbag system integrated directly into a “race-ready” skinsuit, not bolted on like other solutions. It was developed for road cyclists by Van Rysel, with the help of airbag technology specialist In&motion. It’s currently being tested on pro riders ahead of a general consumer release sometime “within the next two years.”

Its development comes after the UCI, pro cycling’s governing body, put out a call in February seeking gear that could help protect riders traveling faster than ever.

The current version is in final validation ahead of potential race deployment. It has a total weight of about 700 grams (500 grams for the airbag components), making it significantly lighter than airbag systems worn in MotoGP, says Van Rysel. And like the proven MotoGP solutions, Van Rysel’s Airbag deploys in just 60 milliseconds after its impact-detection algorithm senses that something has gone horribly wrong.

The skinsuit is design to be aerodynamic and to dissipate heat, with abrasion-resistant materials used to help reduce the risk of road rash and other surface-level skin injuries. The Airbag deploys to protect areas of the upper body not covered by a helmet, including the central core, cervical zone, and spinal line. More extensive protection will be explored in the future.

“Behind every race number, there’s a human being and sadly it is still widely accepted that a rider can lose everything in a fraction of a second due to a crash,” says Van Rysel product manager Jocelyn Bar. “What helmets represented 20 years ago, we think Airbag can represent today, but now, we’re looking beyond the head, we need to protect as much of the body as we can.”

For years, the conversation around clean transportation has leaned heavily toward batteries. Longer range, faster charging, more EVs on the road. That’s been the story. So when Toyota Motor Corporation decided to team up with Daimler Truck and Volvo Group, it raised a fair question: Why double down on hydrogen now? The three companies plan to become equal partners in Cellcentric, a venture focused on fuel-cell systems for heavy-duty trucks and industrial vehicles. The goal is straightforward. Build better hydrogen systems, scale production, and make zero-emissions trucking more realistic. But under the surface, there’s a bigger shift happening.

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TOYOTA IS USING AI TO DESIGN BETTER CARS FASTER

Hydrogen trucks vs battery trucks: two paths, not one

Most people think the future of clean vehicles is all battery-powered. That’s partly true, especially for cars. Heavy-duty trucking is a different story. Battery-electric trucks work well for shorter routes. However, long-haul freight brings different challenges. Bigger batteries add weight. Charging takes time. Payload capacity can take a hit. Hydrogen offers a different tradeoff. Fuel-cell trucks can refuel faster and travel longer distances without carrying massive battery packs. That makes them appealing for long-distance shipping, where every minute off the road matters. That’s exactly why this partnership exists. As Daimler Truck’s leadership has emphasized, hydrogen is meant to complement battery-electric systems, not replace them.

Toyota has been quietly building toward this for decades

This move might feel sudden, but Toyota has been laying the groundwork since the early 1990s. The company launched the Toyota Mirai in 2014, one of the first mass-produced hydrogen cars. On paper, it looked like a glimpse into the future. In practice, it struggled to catch on. Sales have been limited, and the biggest issue has not been the car itself. It’s the lack of hydrogen refueling infrastructure. In the U.S., you are mostly limited to California if you want to drive one regularly. Still, Toyota didn’t walk away. Instead, it expanded into trucks. It tested hydrogen-powered heavy-duty vehicles in Europe, partnered with manufacturers, and integrated fuel-cell systems into commercial platforms. That experience is now feeding directly into this new partnership.

Why teaming up makes sense right now

Building hydrogen technology is expensive. Building the infrastructure is even harder. That’s where this alliance comes in. By combining strengths, each company fills a gap. Toyota brings decades of fuel-cell research and manufacturing experience. Daimler Truck contributes deep knowledge of commercial vehicles and logistics. Volvo Group adds global scale and operational reach. Together, they can share costs, accelerate development, and push for infrastructure growth at the same time. That last piece matters most. Hydrogen only works if there are enough places to refuel. Europe is investing heavily in that network, with plans to expand significantly by 2030. This partnership positions all three companies to benefit if that rollout gains traction.

The bigger picture for EVs and clean tech

This does not mean battery EVs are slowing down. Automakers are still investing heavily in electric cars, better batteries and faster charging networks. Toyota itself continues to expand its EV lineup and production capabilities. What this partnership shows is a shift in strategy. Instead of betting everything on one approach, companies are spreading their bets across multiple technologies. That increases flexibility and improves the chances of meeting long-term emissions goals. Hydrogen may not dominate passenger cars. In trucking, though, it has a real opportunity.

TOYOTA UNVEILS HYDROGEN-POWERED PICKUP AND SUV

What this means to you

Even if you never plan to drive a hydrogen vehicle, this still affects you. Freight powers almost everything you buy. From groceries to electronics, trucks move it across long distances every day. If hydrogen helps clean up long-haul trucking, it could reduce emissions in one of the hardest sectors to fix. It also signals something important about the future of transportation. There won’t be a single solution that works everywhere. Different technologies will serve different needs depending on the job.

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Kurt’s key takeaways

At first glance, this move feels like a detour from the EV momentum we’ve been seeing. Look closer, and it starts to make more sense. Heavy-duty transport has unique demands. Hydrogen happens to solve some of them more efficiently than batteries can today. Toyota joining forces with Daimler Truck and Volvo is less about changing direction and more about covering all bases. If infrastructure catches up, this could become one of the more important shifts in clean transportation.

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So here’s the real question. If hydrogen ends up powering the trucks that deliver everything you rely on, does it matter what technology powers your own car? Let us know by writing to us at Cyberguy.com

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