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Necessary Necessary. Legislation needs to be passed to govern these cars. The hardwarethe radars, sensors, and cameras that connect the car and the outside world still needs improvement. In the interim stage, when cars control themselves but humans can still tag in, the stakes won't be so high. The shift to cars without steering wheels and pedals will be revolutionary. With these trends, it is clear that our current approach to transportation is not sustainable.
What is required is an approach that sees the car not as an individual vehicle, but as part of a broader transportation network.
Cars in the future must become smarter and fully integrated into the transportation ecosystem. Cars will talk to each other and the world around them to make driving both safer and more efficient.
Manufacturers will collaborate with traffic experts and city planners so that real-time vehicle data can improve the entire transportation network by managing energy consumption and identify and solving issues as they are developing. Connectivity will become the backbone of transportation system. The most profound changes may come from the development of a truly intelligent car — vehicles with increasing levels of knowledge about the driver and driving conditions, from the road itself to traffic patterns to even the weather.
A vehicle equipped with these features will be able to use that information to provide drivers a level of assistance, convenience and safety far beyond current expectations. As these innovations take hold, the automobile manufacturer will become more of a personal mobility company, constantly innovating how vehicles interact with the world around them. We are seeing the first signs of this transformation right now, in car features such as wireless connectivity, limited autonomous driving and parking assistance.
Read More Futuristic heads-up display for your car dashboard. With more cars on the road, energy consumption and C02 emissions will drive demand for even more efficiencies and change how cars are made. This will consume 1,TWh of electricity which equals 2. Hands-free an option if you can afford it: Self-driving cars will make up about 14 percent of car production letting you kick back and enjoy the journey.
No need to look under the hood: Batteries become the heart of your electric car — we will require 3. Think sustainable chemistry not German engineering: battery specs will differentiate vehicle performance, this will require careful chemistry choices to avoid production bottlenecks for metals like cobalt in the supply chain. Electricity the new gasoline: gas consumption will be down 30 percent by to billion gallons per year replaced by electricity generated from renewable sources.
Don't be tempted to wait for fuel cell cars as they don't make carbon sense: Using hydrogen to power cars produces water at the tailpipe but hydrogen comes from natural gas which means CO2 emissions are similar to gasoline cars in total. CERN managed it with anti-hydrogens for seconds. Unfortunately, just 1 kilogram of this material would contain the equivalent energy million gallons of gasoline and is highly unstable — so don't hold your breath.
Tags: Innovation , Innovation , Financial Expertise. Related Articles China has experienced an unprecedented transformation over the last 20 years, becoming a global economic powerhouse as well as a world leader in innovation, technology and manufacturing. But in the wake of greater global uncertainty, coupled with demographic shifts and the need to tackle climate change, China is switching gears to navigate the challenges ahead.
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