At first glance, there appears to be little in common between everyday driving and the raw acceleration and excitement of Formula One. After all, while the latter is a sport that commands the attention of millions of fans from across the globe, the former is merely a method of transportation that helps us to travel more conveniently.
If we delve deeper into the separate worlds of Formula One and everyday driving, however, it becomes apparent that these two entities have far more in common than initially meets the eye. From the modern innovations that continue to shape F1 racing to the tools that are used to build and maintain vehicles, there are inextricable links that appeal to motorists of all descriptions.
A History of Influence: How F1 Technology continues to change the driving experience
These links take numerous forms, but the dominant trend is that the technology which underpins Formula One racing cars continues to feed innovations into road vehicles. In fact, this trend is likely to gather further momentum in the future, particularly with contemporary concept cars increasingly focused on automated driving, data communication and fuel efficiency.
These are all considerations that have become integral features of motor sport over the course of the last two decades, while their transference into the cars that we drive on a daily basis has already begun. This is characterised by both direct and indirect transfers, as our own vehicles continue to resemble FI cars in terms of their fundamental design.
With this in mind, here are three ways in which the technology behind Formula One is continuing to influence everyday cars: -
The rise of All-electric vehicles and on-board Diagnostics
If you have taken your car in for a check-up recently, you will have noticed that the process of inspecting vehicles has changed considerably. Rather than flipping the hood, today's mechanics must first plug in their own diagnostic computer to the car's electronic control unit (ECU), in a bid to quickly identify major performance flaws. This reduces the time and cost of repairing a vehicle, with many circuit issues capable of being resolved through automated processes. The integration and use of an ECU is something that has been borrowed from F1 cars, as this feature enables teams to diagnose and resolve electronic malfunctions during a race.
The use of Nanoslide Technology for reducing friction
In terms of direct lessons and transfers, the rising prominence of Nanoslide technology stands out as something that has modernised and enhanced the everyday driving experience. Historically, Formula One teams have used this technology to coat the cylinder bore surfaces on their vehicles, as this reduces friction, increases speed and ultimately reduces the risk of a collision. The safety and performance benefits of Nanoslide technology have encouraged manufacturers to integrate this innovation into new car models, adding incredible value to already advanced designs.
The Integration of Data Communication and Automated Technology
We have already touched on how ECUs' are used to identify faults and initiate automated repairs, but the use of data communication in modern vehicles goes far further than this. In fact, the type of real-time data conduits and transmission analysis tools which underpin intuitive Formula One cars are central to the optimisation of performance, while these examples of technology are also laying the foundation for the driverless cars of tomorrow. Including advanced traffic management systems which help vehicles to navigate hazardous areas and avoid congestion, such innovation is responsible for making automated cars a viable proposition in the modern age.
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