TU Graz and Magna open the advanced driving simulation center
At TU Graz Campus Inffeldgasse, one of the most powerful driving simulators in the world now enables cutting-edge research in the fields of driving dynamics and comfort as well as electromobility and automated driving
image:
From left: Arno Eichberger (Institute of Automotive Engineering at Graz University of Technology), Martin Peter (Vice President Magna Vehicle Engineering), Graz University of Technology Rector Horst Bischof and Severin Stadler (Director Adv. Engineering, Cooperations & Strategy, Magna) at the opening of the Advanced Driving Simulation Center.
view moreCredit: Lunghammer - TU Graz
Graz University of Technology (TU Graz) and the mobility technology company Magna have unveiled one of the most sophisticated driving simulators in the world at the new Advanced Driving Simulation Center on Campus Inffeldgasse. The simulator reproduces an extremely realistic driving experience in a unique way. Research and development teams can use the simulator to realistically test and optimise different vehicles, chassis and tyre set-ups as well as various advanced driver assistance systems (ADAS). Magna covered the acquisition and installation costs, while TU Graz is financing the ongoing running of the Advanced Driving Simulation Center.
“The Advanced Driving Simulation Center is a result of the decades-long innovation partnership between Magna and TU Graz,” says TU Graz Rector Horst Bischof. “With this driving simulator, we now have a research infrastructure that is unique in Europe and will sustainably enhance Austria as an automotive and mobility centre.”
Simulator closes the gap between modelling and human perception
“The Advanced Driving Simulation Center allows us to conduct vehicle studies with results that precisely match the physical conditions of the real world,” says Arno Eichberger, Head of the Institute of Automotive Engineering and responsible for the scientific operation of the testing facility. “With the new simulator, we are closing the gap between theoretical vehicle modelling and the real human perception of our test drivers.”
Added value for vehicle development
Magna will use the Advanced Driving Simulation Center in development projects with international car manufacturers and promote innovation in general. “The most important areas of application include optimising and tuning the chassis and tyres of a wide range of vehicle types in the early phases of development projects, long before real vehicle prototypes are available. This accelerates development processes and creates additional space for innovation,” says Severin Stadler, who as Head of R&D at Magna is responsible for the implementation of the centre.
Development of advanced driver assistance systems through to autonomous vehicles
“Thanks to its high bandwidth, the simulator can generate even the finest vibrations that are triggered by different road surfaces in the vehicle. This is essential for the optimisation of electric vehicles, as passengers perceive these vibrations much more strongly than in cars with with combustion engines due to the lack of engine noise,” says Arno Eichberger. With VR technology, the Advanced Driving Simulation Center will also play an important role in the development of advanced driver assistance systems through to autonomous vehicles.
Technical details of the vehicle simulator
- High bandwidth: With a frequency of over 100 Hz, the simulator can transmit even the finest vibrations. Drivers can feel the smallest bumps, road markings or changes in tyre traction.
- Six degrees of freedom: The cockpit is controlled by six movable struts. This means that vehicle movements in all directions (forwards, backwards, lifting, lowering, turning, tilting, pitching) are precisely simulated.
- VR integration: Virtual reality (VR) systems are used to simulate a wide variety of driving and traffic situations in a photorealistic manner. Drivers can test new display, operating and assistance systems in the cockpit.
- Extremely low latency: The very fast system response of three to four milliseconds enables a realistic driving experience with a lower risk of motion sickness for test drivers.
The driving simulator at the new Advanced Driving Simulation Center of Magna and Graz University of Technology. Image source: Lunghammer - TU Graz
Credit
Lunghammer - TU Graz
Speeding, hard braking reduced in insurance plans that base rates on driving behavior, offer rewards
Drivers whose car insurance rates are based on data of their driving habits and who then also got tips about improving them were less likely to speed, brake hard, or rapidly accelerate than those who didn’t participate in the program, according to a recent test by a team from the Perelman School of Medicine at the University of Pennsylvania. Their work was published in Accident Analysis & Prevention.
Speeding declined by up to 13 percent, and hard braking and rapid acceleration declined by up to 25 percent. In addition, drivers continued their improved habits after the incentives ended.
“Insurance companies are happy to give discounts to customers who drive safer because it means they will have fewer crash claims later on,” said lead author Jeffrey Ebert, PhD, director of Behavioral Science in the Penn Medicine Nudge Unit.
In a nation with more than 6 million vehicle crashes leading to 2 million injuries each year, Ebert said that if everyone were to enroll in a program like what they tested, there could be 300,000 fewer crashes and 100,000 fewer injuries.
Testing a program informed by driver habits
Every major auto insurer offers a usage-based insurance (UBI) program, and one in four United States drivers opts in. These programs typically use a smartphone app to measure the amount of driving and risky behaviors like hard braking and handheld phone use. Insurers use this to estimate a driver’s crash risk and then provide an insurance quote. Safer drivers get cheaper quotes.
In addition to the promise of saving money if they drive safer, drivers get feedback from the app on how they are doing and tips for improving even further.
“All of this should make usage-based insurance customers safer drivers—and earlier research found evidence that it does,” said Ebert. “But we wanted to definitively test this and ways to strengthen programs.”
Testing three alternative programs
Ebert and his colleagues wanted to see if the potential safety benefits of programs could be enhanced by helping drivers focus on one area for improvement at a time.
“Behavior change is difficult and takes time,” Ebert said. “We were concerned that standard insurance apps overwhelm drivers with too much feedback, making it hard to even know where to start.”
They set up a nationwide randomized trial of three programs, all of which offered up to $100 based on how safely participants drove overall:
Standard feedback: Drivers received weekly text messages with feedback scores and tips for four different behaviors: speeding, phone use, hard braking, and rapid acceleration.
Assigned goal: Feedback and tips focused on one behavior picked by an algorithm. Drivers were texted weekly improvement goals for the selected behavior.
Chosen goal: Feedback and tips focused on one behavior chosen by the driver. The driver set their own weekly improvement goals for the behavior.
There was also a “control” group that did not receive feedback, tips, or the $100 incentive.
The programs lasted 12 weeks. Drivers continued to be monitored for another six weeks to see if any changes in behavior remained.
All programs equally effective
Drivers in the three programs improved their overall safety scores, reducing their rates of speeding, hard braking, and rapid acceleration. All three programs were similarly effective, according to the group’s analysis. And they noted that these drivers retained safe habits even after the programs ended.
One safety area where there wasn’t measured improvement was phone use while driving. Past research by many of the same researchers showed success when they focused specifically on reducing phone use, whether that was through cash incentives won or lost by the week or by making it a “game” where points and a leaderboard were involved.
The researchers think drivers failed to change in this area because the scores given for phone use were too generous due to default settings in the telematics app the researchers used to simulate the program. “The average participant was basically told by the program that they had an ‘A’ grade for phone use despite handling their phone 6 percent of the time. Given how dangerous this is, the average should have been a ‘C.’ Drivers likely ignored this behavior and focused on improving in the other areas they considered more important,” Ebert explained.
A chance to ‘do even better’
The researchers were encouraged by what they saw in their analysis, with Ebert saying that applying other proven insights from behavioral science could make “it possible to do even better.”
“For example, we have seen before that giving drivers small, weekly rewards can be much more motivating than one big reward at the end of a 12-week program,” Ebert said.
Based on their research, Ebert and his colleagues are optimistic that as more drivers turn to usage-based insurance, there will be safer driving on the road overall, with fewer crashes to handle, and cheaper policies for drivers.
Journal
Accident Analysis & Prevention
Method of Research
Randomized controlled/clinical trial
Subject of Research
People
Article Title
A national randomized field experiment testing the impact of simulated usage-based insurance programs on driver safety
No comments:
Post a Comment