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Toyota Mirai, Lexus LS show off Advanced Drive assists with OTA updates, AI

TOKYO — Toyota Motor Corp unveiled on Thursday new models of Lexus and Mirai in Japan, equipped with advanced driver assistance, as competition heats up to develop more self-driving and connected cars. Toyota's latest launch comes as automakers, electric car startups and tech giants invest heavily in so-called active safety features. The Japanese carmaker's new driving assist technology, or Advanced Drive, features a level 2 autonomous system that helps driving, such as limiting the car in its lane, maintaining the distance from other vehicles and changing lanes under the driver's supervision on expressways or other motor-vehicle-only roads. The system can even handle lane merges, and when passing trucks its lane system will move the car further to the opposite side of its lane. The car will recommend a course of action to a driver before executing it. The system also features a camera to monitor the driver's actions and level of attentiveness, and if the driver seems unresponsive or incapacitated, the car will pull itself over. The luxury sedan Lexus LS will be on sale from Thursday, costing between about 16.3 million yen ($148,600) and 17.9 million yen ($164,000), while the second-generation Mirai hydrogen fuel cell car will be offered on April 12 at between 8.4 million ($76,900) and 8.6 million yen ($78,750). This content is hosted by a third party. To view it, please update your privacy preferences. Manage Settings. The new models are Toyota's first products brought to the market that provide over-the-air updates and utilize AI technology centered on deep learning, said Toyota executive James Kuffner, who is also the head of Toyota's research unit Woven Planet. "This is really an important first step in our journey towards software-first development," he said at an online briefing on Thursday, adding that the company has tried to design the software to be truly global and to provide re-usability. In the future, software features on cars will be "upgradable" and "more customizable" much like how people personalize their smartphones, Kuffner added. Fully self-driven cars are still likely to be years away, but rival General Motors early this year made a splash at the virtual Consumer Electronics Show with a fully-autonomous all-electric flying Cadillac concept, while Chinese search engine operator Baidu unveiled a partnership with local car brand Geely.

The tumultuous history of the diesel engine

Volkswagen, diesel's most enthusiastic patron, deceived everyone about the amount of emissions its cars were putting out. We have covered this latest massive automotive scandal in great detail, and there are surely more fascinating revelations to come. It turns out that this is just the latest episode in the epic story of the controversy and intrigue surrounding the diesel engine, and its inventor. This is the story of the tumultuous birth and interesting evolution of the compression-ignition engine at the center of the VW scandal. Napoleon III Got Rudolf Diesel Deported Rudolf Diesel was born in Paris in 1858. His Bavarian parents had settled in France where his father, Theodor, was a leather goods manufacturer. When the French Parliament declared war on Prussia, kicking off the Franco-Prussian war, the Diesels fled to London. When he was 12, Rudolf went to live with his aunt and uncle in the Bavarian university town of Augsburg. It was his parents' hometown, and importantly, it's where Rudolf began studying at the Royal County Trade School. His time in Augsburg, graduating at the top of his class from trade school that laid the groundwork for all that was to come. Diesel Nearly Blew Himself Up An early career in refrigeration saw Diesel running R&D in Berlin for Linde, a company started by refrigeration pioneer Carl Von Linde, one of Diesel's professors. His ambition to branch out beyond refrigeration, and his deep understanding of thermodynamics, led to efficiency experiments with steam engines. Diesel was trying to create an engine that didn't waste heat from the combustion process, therefore getting the most work out of the fuel. Instead, he was nearly killed when an experimental ammonia vapor steam engine exploded. Recovery took many months, and during some of that time, he was no doubt planning his next experimental engine, based on the theoretical Carnot cycle. His Engine Was An Attempt To Stick It To The Man Steam engines were expensive to run and wasteful. Diesel thought the efficiency of his design would be a way for the small business to compete with the dominant industrial giants. It was, and it did, but big business is equally passionate about chasing efficiency. Diesel engines quickly proliferated in industries both grand and cottage. Rudolf Didn't Really Invent The Diesel As We Know It Instead, he improved an existing one to a significant degree. The Diesel engine could be considered an evolution of the "hot-bulb" engine.

Bibendum 2014: Former EU President says Toyota could lose 100,000 euros per hydrogen FCV sedan

Pat Cox does not work for Toyota and we don't think he has any secret inside information. Still, he's the former President of the European Parliament and the current high level coordinator for TransEuropean Network, so when he says Toyota is likely going to lose between 50,000 and 100,000 euros ($66,000 and $133,000) on each of the hydrogen-powered FCV sedans it will sell next year, it's worth noting. That was just one highlight of Cox's presentation at the 2014 Michelin Challenge Bibendum in Chengdu, China today, which addressed the main problem of using more H2 in transportation: cost. The EU has a tremendous incentive to find an alternative to fossil fuels, since Europe today is 94 percent dependent on oil for its transportation sector and 84 percent of that 94 percent dependency is imported oil. The tab for that costs the EU a billion euros a day, Cox said, on top of the environmental costs. To encourage a shift away from petroleum, European Directive 2014/94 requires each member state to develop national policy frameworks for the market development of alternative fuels and their infrastructure. For the member states that choose to fulfill 2014/94 by developing a hydrogen market – and to be clear, Cox said, it's not an EU diktat that they do so, since a number of other alternatives are also allowed – the aim is to have things in place by the end of 2025. The plans don't even have to be submitted until the end of 2016. The long lead time is due to a quirk in a hydrogen economy. In hydrogen infrastructure, "the first-mover cost is not the first-mover advantage, but the firstmover disadvantage." – Pat Cox In deploying a hydrogen infrastructure, Cox said, "the first-mover cost is not the first-mover advantage, but the first-mover disadvantage, and high risk." That's why the EU and member states will financially support the early stages, but everyone agrees that "if this is to work, it will have to be ultimately and essentially a commercially viable and commercially driven infrastructure roll-out." Since 1986, European Union research programs have spent 550 million euros on hydrogen-related and fuel-cell-related research, including methods of hydrogen storage and distribution as well as improved fuel cells vehicles, Cox said. Expensive problems remain to be solved. At a conference in Berlin, Germany this past summer, Cox said, the unit cost of the refueling stations was identified as the main problem.