Report: New car’s safety systems are making you a worse driver

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

Mazda mulls over making the MX-5 electric

2019 Mazda MX-5 MiataNick Tragianis / Driving The rumour mill is churning out Mazda news the next-gen MX-5 could get electrified, either partially as a hybrid or fully as a battery powered EV, in the near future. Autocar in the UK reports that sources within the brand, including research and development head Ichiro Hirose and brand and design chief Ikuo Maeda, are aware drivers of the sporty little MX-5 are seeking environmentally friendly alternatives. And apparently the brand is willing to play along. “The preference of people who enjoy driving sports cars might be changing, so we need to think about what direction society is going,” Maeda told Autocar. “We want to look at the best powertrain to keep the vehicle lightweight, but because of the diversifying requirements and preference, we need to explore various options. “I don’t have the answer now but we need to make a vehicle that people can own without worrying that they are not being eco-friendly.”So, regardless of whether or how the little drop-top sports car is given the “e” prefix, Mazda promises to keep it true to its lightweight motoring roots, reiterating to Autocar that “The lightweighting and compact size are essential elements of MX-5, so even if we apply electrification, we have to make sure it really helps to achieve the lightweighting of the vehicle.”The latest Mazda Miata MX-5 got a healthy jolt of power, and any electrification is likely to do more of the same. We’re open to the idea, but will certainly be holding Mazda to its word on keeping the car light on its feet.LISTEN: In this week’s episode, we talk about all the electrifying news coming out of the 2019 Los Angeles Auto Show with Postmedia Driving senior writer David Booth, including Ford’s bold Mustang Mach-e SUV. And, of course, we get Booth’s take on Tesla’s Cybertruck. Plugged In is available on Apple Podcasts, Spotify, Stitcher, and Google Podcasts.Is the player not working? Click
Origin: Mazda mulls over making the MX-5 electric

Under the skin: How Tesla is making cars think like humans

Never mind when, can self-driving cars ever even work at all? That’s probably the question in the minds of most people. But to work, fully autonomous cars will require the invention of a machine that has the cognitive abilities of a human. The building block of a human nervous system is a neuron and millions of them form a neural network in the body’s central nervous system. To make autonomous cars a reality, computer scientists need to create artificial neural networks (ANNs) that can do the same job as a human’s biological neural network. So assuming that really is achievable, the other thing an autonomous car needs is the ability to see, and this is where opinions in the industry are split. Until recently, conventional wisdom had it that as well as the cameras, radars and ultrasonic sensors cars already have for cruise control and advanced driver assistance systems, lidar (light detection and ranging) is essential. Lidar is like high-definition radar, using laser light instead of radio waves to scan a scene and create an accurate HD image of it. One stumbling block has been the high cost of lidar sensors, which only two years ago cost more than £60,000. Lower-cost versions on the way should bring the price down to around £4000 but that’s still a lot for a single component. Not everyone believes lidar is even necessary or desirable, though, and both Tesla and research scientists at Cornell University have independently arrived at that conclusion. Cornell found that processing by artificially intelligent (AI) computers can distort camera images viewed from the front. But by changing the perspective in the software to more of a bird’s-eye view, scientists were able to achieve a similar positioning accuracy to lidar using stereo cameras costing a few pounds, placed either side of the windscreen. Tesla reasons that no human is equipped with laser projectors for eyes and that the secret lies in better understanding the way neural networks identify objects and how to teach them. Whereas a human can identify an object from a single image at a glance, what the computer sees is a matrix of numbers identifying the location and brightness of each pixel in an image. Because of that, the neural network needs thousands of images to learn the identity of an object, each one labelled to identify it in any situation. Tesla says no chip has yet been produced specifically with neural networking and autonomous driving in mind, so it has spent the past three years designing one. The new computer can be retro-fitted and has been incorporated in new Teslas since March 2019. The Tesla fleet is already gathering the hundreds of thousands of images needed to train the neural network ‘brains’ in ‘shadow mode’ but without autonomous functions being turned on at this stage. Tesla boss Elon Musk expects to have a complete suite of self-driving software features installed in its cars this year and working robotaxis under test in 2020. 50 trillion operations per second Tesla boffins say a self-driving car needs a neural networking computer capable of performing a minimum of 50 trillion operations per second (50 TOPS). By comparison, a human brain can manage about 10 TOPS. The new Tesla computer consumes no more than 100W of power so it could be retrofitted. Bosch and NVIDIA are developing a similar ‘brain’ for autonomous cars ready for 2020. It’s called the Bosch AI self-driving
Origin: Under the skin: How Tesla is making cars think like humans

Tesla cut the starting price of its Model 3 — and it’s making investors nervous

Tesla cut the starting price of the Model 3 sedan in the U.S. weeks after a federal tax credit shrank in half, renewing concern over whether the electric-car maker can sustain sales with less support from incentives.The Model 3 now starts at US$38,990, according to Teslas website. Arndt Ellinghorst, an analyst at Evercore ISI, wrote in a report Tuesday that the halving of the U.S. tax credit to US$1,875 at the beginning of July is causing the company to reduce prices to support demand.The key question remains will Tesla be able to sustain itself given steadily declining ASPs and worsening mix? Ellinghorst wrote, referring to the average selling prices of the companys vehicles dropping as the Model 3 becomes a greater share of deliveries.While the starting price of the Model 3 has dropped, Teslas moves to simplify its lineup include dropping a standard-range version of its larger and more expensive Model S sedan. The cheapest version available is now US$79,990, according to the companys website.Tesla also cut prices on all vehicles shipped to China, with the Model 3 dropping to 355,900 yuan (US$51,764) from 377,000 yuan, according to a Tesla representative. Prices of the Model S and Model X were cut about 4 per cent to 776,900 yuan and 790,900 yuan, respectively.The changes wont affect prices of Model 3s that will be produced near Shanghai, according to the representative. Tesla is expecting to begin output at a factory there later this year.Tesla is adjusting prices in order to continue to improve affordability for customers, the Chinese unit said in a statement. We are standardizing our global vehicle lineup and streamlining the number of trim packages offered for Model S, Model X and Model
Origin: Tesla cut the starting price of its Model 3 — and it’s making investors nervous

Dodge making a Pikes Peak hill climb run with new Charger Hellcat Widebody

Mere hours after letting the rabid feline that is the 2020 Dodge Charger SRT Hellcat Widebody out of its cage for the first time, Dodge has announced that it’ll be testing the 707-horsepower car on the slopes of Pikes Peak. The automaker is teaming up once more with Michigan racers Wesley Motorsports to bring the Hellcat Widebody to the Pikes Peak Hill Climb in Colorado. The team is hopeful that this year, with the new set of wider tires and adjusted fender flares and fascia, the Hellcat will be more nimble than ever. Dodge will run its new Charger Hellcat Widebody at this year’s Pikes Peak Hill Climb. Handout / Dodge The stock 2020 Charger Hellcat Widebody has a supercharged 6.2-litre V8 good for those 707 horses and 650 lb.-ft. of torque, and paired to an eight-speed automatic. Top speed is 315 km/h, but that’s running on flat ground. For the sloped test, Dodge and Wesley have added a racing exhaust, upgraded shocks, brakes and tires, stripped the interior for weight, and added roll cage, just in case. Pro racer and four-time Pikes Peak vetran Randy Pobst will coax the car around the 156 turns and up to the 14,115-foot (4,302-metre) summit of the 2019 Time Attack 1 class this
Origin: Dodge making a Pikes Peak hill climb run with new Charger Hellcat Widebody

Under the skin: How haptics are making touchscreens safer

Screens evolved in cars as a means of simplifying the way in which drivers could interact with increasingly complicated, button-cluttered dashboards – but, in the end, may have turned out to be a massive own goal. With the introduction of touchscreens, the problem has got worse, not better, because drivers have no chance of knowing what they’re prodding, swiping or sliding without actually looking at it. The answer may lie in haptic screens, which give a physical, tactile response you can feel when using a soft (virtual) button or slider. That staccato bumping when ABS is activated is probably one of the earliest forms of haptic response in car controls and, more recently, vibrating steering wheels as part of lane departure or blindspot warning driver assistance systems. However, both are fairly crude examples of what is now becoming a precise science. Haptic screens have actuators embedded in them containing crystals that expand when connected to an electric current due to the ‘piezo’ effect. The current is triggered by the capacitive screen when a soft button or rocker switch is pressed and the actuator expands so you feel a click through the screen. It’s also possible to define a ridge separating one button from another using the same concept. A driver can feel the control has been activated, making it much easier to resist taking eyes off the road for a sneak peak, during which time the car could have travelled 40 metres at motorway speeds. Hyundai has recently been showing off research it’s been doing since 2015, trying new ideas out on customers using driving simulators and test vehicles fitted with prototype centre screens and instrument binnacles. Haptic screen replacements are also being developed for steering wheel switchgear after early research revealed that customers didn’t actually know what some steering wheel buttons were for. Research engineers found introducing audio and haptic feedback together made a big difference following a trial in a driving simulator where customers tried haptic buttons in 10 typical real-world situations. You can also choose which configuration of buttons or functions you prefer on the button pads, something that can’t be done with hard buttons. The latest haptic screen technology makes it possible to identify which button is which before it’s pressed, without even touching the screen. Called ultrahaptics, the tech was originally conceived by students at the University of Bristol and lends its name to a company that is developing it commercially in conjunction with Harman and others. Using ultrasound, an ultrahaptic screen makes it possible to ‘feel’ an on-screen switch or button through a sensation in the fingertip while it is still in mid-air. Beyond screens, ultrahaptics can also be used to give haptic feedback to gesture controls and make it possible to feel 3D holographic images in the same way. For manufacturers struggling to simplify the growing levels of gadget clutter drivers are dealing with, the solution could literally be at their fingertips. Predicting the future Jaguar Land Rover has experimented with an infotainment screen that tracks the position of the hand using cameras and predicts which button is about to be pressed. In conjunction with ultrahaptics to produce a tap or a tingling sensation in a fingertip hovering over the screen, trials showed a 22% increase in the speed of selecting the right
Origin: Under the skin: How haptics are making touchscreens safer

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?