Smart mobility is as relevant as ever, with growing urbanisation rates in almost all countries across the globe. But the concept isn’t new. At least I recall reading about the future of driving when I was very young, and a university project concluded that in the future, cars would be able to connect to each other and slide onto some sort of rail system when driving on the highway, so nobody would have to worry about steering or speeding when covering the long stretches of the journey. Not surprising, the project couldn’t have been more wrong in its conclusion. But why didn’t it work? It would have reduced accidents, pollutant emissions, road wear and maintenance costs, and it would have probably been quite easy to develop guiding chips and software to let cars in and out of the chain.

Well, the answer is simple, and is proven by the fact that car sales are still going up worldwide in spite of an ever-growing range of alternative transportation methods available to the buyers: freedom. As global wealth keeps increasing, all societies can recognize that the first luxury people growing out of poverty take is to buy a car, in many cases even before considering taking out a mortgage to buy a house. Why do they do that? Obviously to signal their increased wealth to the people around them (it’s harder to show if your house is bought or rented), but also to enjoy the freedom of being able to go exactly where they want to go and when. In these corona times being able to move about without bumping into others in public transportation is of course also an important factor. If this wasn’t the case, car sales would be dropping rapidly. Public transportation is cheaper, if you compare it to total cost of ownership of a car it’s easy math, and in many cases it’s also faster and easier. Plus, you can be productive getting some work done or enjoying a good rest when you don’t have to sit at the wheel in a traffic jam.

For those who care about global warming and reducing the environmental impact, there’s even further incentive to get rid of the car, but still, this is not what we see in the new car sales figures – although you could argue that some people buy a new car because it pollutes less than the old one.

Bicycles

With all the new technology, it will be very interesting to see how smart mobility will be implemented in cities across the globe, and if it will change the trend for good. After all, it’s be big cities with massive population numbers that will make a difference for the planet. If we look at a city like Copenhagen, it has for many years focused on being the world’s best city to ride a bicycle in, and it has implemented many innovative structures allowing cyclists to zip from one place to another in a matter of minutes with minimal need to stop along the way. Some places bridges have been built just to cater to cyclists. No doubt you can get around faster and cheaper in Copenhagen if you ride a bike than by any other means of transportation.

Another thing that is becoming increasingly interesting in the big cities is the drone technology, now we have seen Chinese firefighters putting out high-rise fires using drones controlled from the ground, and many places they have also begun working as parcel or food delivery agents. But is there a viable case to argue that we will all be flying in private drone vessels instead of driving in cars in the coming decade? I wouldn’t bet my money on it. First of all, it would take long until the general public would trust a drone manufacturer enough to not fear dropping to the ground or being flung into a building or another drone mid-air at any moment. Second of all, they would most definitely run on electricity, which we know from electric cars means very heavy batteries and/or short operation times. Probably in colder regions you would also struggle with much lower performance during winter, and possibly weather conditions not allowing them to take off.

That’s another nightmare scenario – to be caught in a thunderstorm or hailstorm up in the air.

Naturally, the ultimate challenge would be that everyone would basically need to have a pilot license to operate them, and air traffic control would be an entirely new concept in this scenario. We have all seen movies like Stars Wars or The Fifth Element where flying vehicles somehow get into invisible lanes and layers, but it’s hard to see how that can go from fiction to reality.

Urban hubs

So, how can consumers most likely have their desire for freedom fulfilled within a smart mobility concept? Most likely by creating urban hubs or city line parking facilities, so it’s easy to take the car to, from, or between cities, but not inside them. At these hubs, you would park the car and jump on the next shuttle to anywhere in the city, or even ride a bike that you brought with you. Designing these hubs, along with ample green areas in the cities, is the only way that any city planner can create the grounds for real smart mobility, and not take people’s freedom away from them. Then the only thing left is to address the issue of the environmental impact caused by passenger cars, both combustion engine emissions and tyre pollution from wear during use and waste management at end of tyre life.

Tyre manufacturers don’t seem to be making huge changes to the technology yet, except for a few innovative products like the Michelin Tweel – and the ultimate challenge is of course that the vehicle so far has to be in contact with the road surface to move and handle satisfactorily. It’s hard to imagine any tyre concept where rubber against the road surface isn’t involved, and it’s also hard to imagine any tyre manufacturer supporting such a project, given the massive investments they have in their production equipment, which isn’t easy to readjust to put out something else. Well, at least not any serious manufacturer – there was a Chinese plant that stopped producing tyres this year to start producing face masks instead because of corona demand, but that probably says something about the quality of both products coming out of that factory, and it makes me very interested in reading their mission statement.

Ultimately, for tyre manufacturers to start investing in any game changing product development, we would have to see a development like we have seen with British Tobacco actually advertising against smoking – which is very much in line with the trends of the day but doesn’t seem rational from a business perspective. So, to conclude, I’ll venture a bet that we won’t see any drastic changes in how much smarter our mobility options will become until we either see a scenario that will allow people to experience the same level of freedom as owning a car, drastically reducing the environmental impact from driving and tyre waste, and/or creating cities where it utterly doesn’t make any sense to drive instead of hopping on the city’s smart mobility system, whatever that might turn out to be.

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Cooper Tires is strategically reinforcing its all-season tyre portfolio across passenger cars, sport utility vehicles and light commercial vehicles to meet the growing demand for versatile, year-round driving solutions. This expansion addresses the practical needs of drivers who encounter fluctuating road and weather conditions throughout the year.

Leveraging over a century of tyre manufacturing expertise, the company has broadened its all-season range to deliver reliable, balanced performance and durability tailored for real-world driving across the EMEA region. The enhanced product line now achieves an 89 percent market coverage rate for key European vehicles, ensuring a wide array of suitable options for customers.

The comprehensive portfolio includes the Cooper All-Season for cars and SUVs and the Cooper All-Season Van for light trucks. Both ranges carry the 3PMSF symbol, signifying certified winter capability. The passenger car and SUV line incorporates 3D blading technology for effective braking, an optimised footprint for even wear and extended tread life and a robust carcass for stable handling. This range comprises 84 SKUs, spanning sizes from 14 to 20 inches, and is engineered to be electric vehicle ready.

Specifically developed for commercial use, the Cooper All-Season Van emphasises strength, high mileage and reliability for daily fleet operations. Its deep treads and high-density siping enhance all-season braking, while a reinforced casing supports heavy payloads and demanding work environments. This van-specific line includes 18 SKUs, covering 15- to 17-inch diameters, and is also EV-ready. This strategic investment underscores Cooper Tires’ commitment to delivering its characteristic toughness and straightforward dependability through a versatile all-season offering in the region.

Ben Glesener, Senior Technology Director Product Development Consumer EMEA, said, “Cooper is focused on doing what really matters for drivers – delivering dependable tyres with strong coverage, proven performance and real‑world durability. Backed by more than 100 years of heritage and a renewed investment in product and brand across Europe, our all‑season portfolio is designed to give customers confidence all year round, whatever the road or the season.”

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Goodyear executed its largest-ever endurance operation at the 24 Hours of Le Mans, a feat defined by 188,747 kilometres driven, 377.5 million wheel revolutions, and 44 cars competing across the LMGT3 and LMP2 classes. The Goodyear Racing Eagle tyres delivered relentless performance, supported by over 120 experts and a stock of 8,000 tyres that sustained racing throughout the entire week.

The tyres' exceptional consistency allowed teams to extend stint lengths significantly, saving precious time during pit stops. Most LMGT3 squads completed four stints, or forty laps, before changing rubber, while LMP2 entries routinely managed five. One LMP2 team notably kept a single set for 56 laps, covering 761 kilometres, a distance comparable to travelling from Le Mans to Monaco.

Pace did not diminish despite the high mileage, with the fastest LMGT3 car posting a 100-lap average 1.2 seconds quicker per lap than the previous year, marking the fastest Le Mans of the LMGT3 era. Goodyear’s off-track presence was equally robust, featuring the Goodyear Blimp, a new grandstand, a popular fan activation, a museum collaboration and the introduction of the Goodyear Passerelle.

Ahead of the race, Goodyear reaffirmed its commitment to LMGT3 through a joint announcement with the FIA and ACO, extending its exclusive supply into a fourth season in 2027 with a new tyre composed of 66 percent sustainable materials. The WEC now moves to the 6 Hours of São Paulo on 12 July, though many Le Mans teams will first compete at the European Le Mans Series’ 4 Hours of Imola on 5 July.

Stephen Bickley, Goodyear Endurance Program Manager, said, “When you look at the distances covered without compromising on pace, it underlines the consistency and reliability of our Goodyear Racing Eagle tyres throughout one of the toughest races in the world. It was a special Le Mans for us, felt through our fan activation, partnership renewal and icons old and new at – and above – the circuit.”

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Tegeta Green Planet recently conducted an educational workshop at AlterBridge University, focusing on sustainable development, the Sustainable Development Goals and the Extended Producer Responsibility system. The session provided students with essential knowledge regarding proper waste management and the environmental consequences of daily consumer choices.

Organised in partnership with Shine Energy, the event featured an interactive format that included a discussion segment, an engaging game and a concluding ceremony to recognise the workshop's top performers. This collaborative effort aimed to make the learning process both informative and participatory.

As a pioneering entity in Georgia, Tegeta Green Planet holds official authorisation from the Ministry of Environmental Protection and Agriculture under the EPR framework. The organisation is actively involved in the circular economy by managing the collection, transport and recycling of used tyres, oils and batteries.

Throughout the workshop, students posed inquiries to industry experts and explored how personal actions influence ecological well-being. Attendees received symbolic gifts and certificates for their participation. This initiative is part of a broader educational campaign by the organisation to visit universities and schools throughout Georgia, with the ultimate goal of fostering environmentally conscious citizenship among the youth.

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The Tire Industry Project (TIP) has initiated a pilot study in collaboration with the Greater Paris Sanitation Authority (SIAAP) and the sustainability consultancy ERM to assess the potential of wastewater treatment plants to remove tyre and road wear particles. The research is being conducted at the Valenton wastewater treatment facility near Paris, which ranks as Europe’s second-largest plant and features advanced treatment technologies representative of modern municipal systems. This investigation is scheduled to continue through 2026.

In numerous urban centres globally, stormwater and road runoff are channelled into wastewater systems prior to being discharged into natural waterways. A clearer understanding of how effectively these treatment processes capture TRWP could guide the broader adoption of optimised wastewater management practices. Currently, systematic data quantifying the removal of these particles within treatment plants remains scarce, and this project aims to generate comprehensive, end-to-end evidence to bridge that knowledge deficit.

The study represents TIP’s first real-world application of a priority mitigation strategy identified in its white paper on addressing tire and road wear particles. Over the coming months, researchers will collect and analyse samples from key stages of the Valenton plant’s treatment cycle using advanced pyrolysis gas chromatography-mass spectrometry. The findings are expected to estimate the total removal efficiency across the entire process and will be submitted to a scientific journal, with publication anticipated in early 2027.

The scientific understanding of TRWP is complicated by a lack of standardised methodologies, the variable nature of the particles and their transformation products, and the diverse environmental pathways they traverse. In response, TIP and its member companies have committed to advancing research on quantification, characterisation, environmental migration and potential impacts while collaborating with value-chain stakeholders to support science-based interventions. A 2024 TIP publication reviewed over 50 mitigation measures and prioritised nine based on upstream and downstream potential, employing a prevention, containment and removal framework.

That review also concluded that no single measure has been proven effective specifically for TRWP and that on-ground validation is essential. Moreover, the paper stressed that no universal solution exists, requiring coordinated, large-scale implementation across multiple actors, including the tyre, road construction and automotive sectors, as well as municipal authorities, academia and other public and private entities. The Valenton pilot thus marks TIP’s inaugural effort to test wastewater management’s real-world efficacy, uniting diverse stakeholders from both the public and private sectors in this critical research.

Larisa Kryachkova, Executive Director, TIP, said, “This pilot is an important step in going beyond understanding the subject in the laboratory to field-based evidence. We expect to identify best practices that can be applied far beyond this project, supporting TIP’s ambition to support science-based mitigation.”

Sabrina Guérin, Head of Innovation Department, SIAAP, said, “As the public authority responsible for wastewater treatment in the Paris region, SIAAP is committed to emerging science that protects waterways. By taking part in this TIP study, we will gain an early, science-based view of TRWP movement in solid waste. The findings can help inform and accompany future treatment planning and readiness for upcoming regulatory requirements.”

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