Technology, such as Volvos pedestrian- and cyclist-detecting City Safety system, is no substitute for keeping your eyes open and paying attention.Volvo The safety systems in modern cars designed to make driving easier are actually placing drivers in danger, without them realizing it, according to a AAA Foundation study released Tuesday, reports USA Today.Systems such as adaptive cruise and lane-keep assist are designed to relieve the pressure of driving long distances, but according to the study, are actually making drivers more dependent on such tech, and less attentive while driving.Drivers were nearly twice as likely to engage in distracted driving with these systems activated, the AAA study found.The proof of the pudding is in the eating, er, driving, as weve seen too many videos of people using these systems and ending up in bad situations, or accidents. Its also much easier these days to be distracted by the technology not only on your phone, but in the vehicle itself.So when the safety systems are actively trying to drive for you, humans will naturally pay less attention, since they have so much else to occupy themselves with. While the findings of the study didnt suggest the safety systems themselves were dangerous, it did find drivers should be better educated about their limitations. Were definitely trying to reiterate to drivers that these systems are merely support systems and their role is to remain alert and attentive, said Bill Horrey, the studys project manager and leader of the AAA Foundations Traffic Research Group.The study analyzed a wide range of vehicles including the Tesla Model S, Acura MDX, Ford Fusion, Honda Accord, Jeep Cherokee and Hyundai
Origin: Report: New car’s safety systems are making you a worse driver
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Under the skin: Why modern cars need 48V electrical systems
It may not sound like it, but it’s probably one of the smartest innovations aimed at making cars more sustainable that has emerged in the past few years: 48V technology. It’s relatively cheap and fits into existing vehicle architectures but it’s only just coming of age. As well as providing a hybrid drive, it can handle loads of tasks that need doing around the car but previously used energy created by burning fuel. While 48 might look like a figure plucked out of the air after a brainstorming session in the bar, there are good reasons for it. The first is that it’s classified as low voltage and safe. Anything above 60V in a car is deemed a high-voltage system – and a high-voltage system is a lot more expensive than a low-voltage one. The safety systems, power controllers and heavy cabling involved in a high-voltage system all contribute to the high price, whether it’s 65V or 800V. Power (watts) derives from the voltage and the current (amperage). Increase either and the wattage goes up. But increasing amperage requires the use of larger, heavier, more expensive cables to reduce electrical resistance, whereas using a higher voltage and lower current doesn’t. A 48V battery is small and relatively inexpensive and installation is straightforward because a 48V electrical architecture sits alongside the car’s original 12V system. The use of 48V architectures is on the rise because the electrical consumption of cars has gone up due to more complex infotainment, connectivity and navigation systems and the dozens of driver assistance systems emerging. Cameras, radar, sensors and controllers plus the electronic systems to go with them all need more power than a 12V system can deliver. A 48V set-up also allows jobs normally done by the engine – such as powering electric water pumps, air conditioning compressors, oil pumps and heating – to be offloaded to electrical power, saving fuel. Automatic gearboxes can function when engines are shut down thanks to electric oil pumps; stop/start becomes smoother and can kick in before the car comes to a halt saving more fuel; and electric boosters in diesels reduce turbo lag. Obviously, there are limitations. Until now, the assumed maximum power of a low-voltage hybrid (or EV) motor/generator has been around 12kW (16bhp). That low, 12kW power figure has limited mild hybrids to boosting power and recovering energy, rather than providing an electric-only mode like a (high-power) full hybrid. Now, though, it looks as though that limit has been busted. Component supplier Continental AG recently announced a new 48V mild-hybrid drivetrain producing 30kW (40bhp). The improvement has been achieved by increasing the efficiency of the power control system and new design of high-efficiency, water-cooled motor/generator. The increase in power means it’s possible to drive short distances in electric-only mode like a full hybrid and makes the prospect of powering small city cars and scooters using 48V systems even more realistic. It’s the A8’s ticket to ride It may be at odds with the low-cost benefit of 48V systems but the new Audi A8 has a predictive active suspension system driven by the new electrical set-up. The system can alter the ride height by up to 85mm in 0.5sec, reacts by monitoring the road surface ahead with a front-facing camera, reduces body roll by 40% and consumes an average of 10-200W, peaking at 6kW if there’s a sharp suspension
Origin: Under the skin: Why modern cars need 48V electrical systems
Google to help GM make infotainment systems more phone-like
Driving auto journalists testing out the GMC IntelliLink system on a GMC Terrain during the Driving Infotainment Challenge at Centennial College in Toronto.Driving General Motors is hiring Google to run key parts of its dashboard infotainment system, admitting that the tech firm can do a better job.GM says research shows customers want technology embedded in their vehicle, and they want it to match how their smartphones operate.The company says Google will work to bring its voice assistant into vehicles worldwide, as well as navigation and in-vehicle apps.Its scheduled to happen starting in 2021.The company says the Google system will be better than past GM attempts. The company says drivers will be able to use Google Assistant to make calls, text friends or even set the temperature in their vehicles.I think were going to get a better experience, no doubt in my mind, GM Vice President of Connected Customer Experience Santiago Chamorro said in an interview. The natural language capability of Google Assistant keeps improving and will make it easier for people to talk to their cars, he said. After many lackluster attempts at developing their own systems, automakers have been moving to integrate phones into infotainment systems. Most cars now can project smartphones onto car screens with Android Auto or Apple CarPlay.GM wouldnt release terms of its contract with
Origin: Google to help GM make infotainment systems more phone-like
Are semi-autonomous systems making cars safer?
The question I’m asked the most is also the most simple one,” says Matthew Avery, director of insurance research at Thatcham Research. “‘What is the safest car on the road?’ I’m beginning to think the answer is a white Ford Fiesta,” he says, nodding at a pretty convincing mock-up of the very same car parked on the runway ahead of us. The ‘Fiesta’ in question is made of flexible, detachable plastic panels quite loosely fixed onto a moving base that looks like an oversized speed bump. It is, in fact, a robotised mobile target, with wheels hidden away underneath it and a top speed of around 15mph. And Thatcham has been using it to design, develop and prove a new batch of tests for the latest active safety and crash mitigation and avoidance systems fitted to new cars. “These systems use stereo cameras, radar sensors and sophisticated image processing software to recognise threats before responding to them,” says Avery. “People might think we could simply drive at a pile of empty cardboard boxes to test an AEB (autonomous emergency braking) system on a car, but they’re not so easily fooled. “The industry’s software engineers tell us that we have to use realistic targets in order to trigger the systems properly. So I wouldn’t be at all surprised to find out that those systems end up being particularly good at recognising white Ford Fiestas,” he adds, joking, “because that’s the kind of car our target happens to look like.” We’re with Avery and his team of research engineers to get a taste of exactly what kind of tests of these assisted driving technologies Thatcham has been devising, because they’re due to become a parallel part of Euro NCAP’s new car safety testing regime later this year. Founded in 1969 by the insurance industry, Thatcham is now a signatory member of Euro NCAP. “Twenty per cent of the total Euro NCAP safety score that a new car gets today is defined by the effectiveness of its driver assistance systems,” says Avery, “and you already get a 10% discount on your insurance if you choose a car with AEB.” The industry picture we’re looking at now, as Avery explains it, is one in which almost every major car manufacturer is fitting what we call ‘SAE level two’ driver assistance systems to their cars: lane keeping systems that will work to prevent you from changing lanes into the path of another car, for example, or adaptive cruise control systems that not only recognise the current speed limit but can also automatically adopt it. “But they’re all very different,” says Avery, “so there’s a real need to assess the effectiveness of them in a strictly objective sense (for which Thatcham has come up with meticulously repeatable tests done by robots) but also how sensitively they’re tuned, how well they’re integrated into the driving experience and how usable they are.” We’re about to get a firsthand idea. Having earlier run through an S-bend marked on Thatcham’s proving ground runway as if on a particularly windy dual carriageway to show how it tests lane keeping systems, we’re now motoring towards our plucky fake Fiesta at 50mph in a Volvo V60 as if we’re about to undertake it on the motorway. The Ford pulls into our lane at the last minute, as part of what Thatcham calls a ‘cut-in’ test – something most of the models in its first fleet of test cars apparently struggle to negotiate satisfactorily. Sure enough, the V60’s AEB system fails to detect the threat and the Volvo thumps through the target’s deformable plastic panels and rips them clean off. “The best cars we’ve tested have balanced driver support systems,” says Avery. “They don’t feel like they’re driving themselves, keeping the driver fully engaged; they don’t break in and out abruptly or ‘throw control over the fence’, as we refer to it – but they do provide a dependable, robust amount of assistance. Not too much and not too little.” Our man is very clear, too, on the need for that kind of system tuning in the most relevant technological context in which the car industry now finds itself: the sweep towards fully autonomous driving. “Our research suggests that there is already a sense among today’s drivers that their cars are ready to drive themselves – but, right now, they’re anything but,” he says. “If assisted driving technologies encourage drivers to disengage at the wheel – and one or two of them already are – we could see road safety statistics suddenly get a lot worse when you would reasonably expect them to be doing the opposite. “And so, for safety reasons if nothing else, we need to stop thinking of autonomous driving technology as if it’s already fitted to the cars we’re buying. I’d be in favour of changing our terminology: throwing out the SAE’s five-level classification for autonomous cars and instead putting clear blue water between the ‘assisted driving’ technologies of today and the properly automated systems we’ll only begin seeing in 2021.” There is no safe halfway-house solution
Origin: Are semi-autonomous systems making cars safer?
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