Driven | 2016 Toyota Prius
Toyota has been promising better handling with its cars, and it has delivered with the fourth-generation Prius. While it still does not look like a conventional car, the Prius now handles more like one.
Video Review: Decent Handling in a Toyota Prius? Yes, the New One
The fuel economy of the new fourth-generation Prius is better than the departing model, and a new multilink rear suspension upgrades the ride quality.
Mercedes-Benz unveil all-electric 26T heavy-duty Urban eTruck
Daimler Trucks presented the Mercedes-Benz Urban eTruck in Stuttgart today, as the first fully electric truck with an admissible total weight of up to 26 tonnes. This means that in the future, heavy trucks will take part in urban distribution operations with zero local emissions and hardly a whisper.
The market launch of this technology is conceivable for Daimler Trucks at the beginning of the next decade. In the light distribution sector, Daimler Trucks has already been impressively demonstrating the day-to-day suitability of the fully electric truck in customer trials with the Fuso Canter E-Cell since 2014. The development of electric trucks and series production maturity are fixed parts of the strategy of Daimler Trucks to build on our technological leadership. For this purpose a considerable part of the future investments by the truck division in the fields of research and development flow in the further development of the full electric drive.
"Electric drive systems previously only saw extremely limited use in trucks. Nowadays costs, performance and charging times develop further so rapidly that now there is a trend reversal in the distribution sector: the time is ripe for the electric truck. In light distribution trucks, our Fuso Canter E-Cell has already been undergoing intensive customer trials since 2014. And with the Mercedes-Benz Urban eTruck, we are now electrifying the heavy distribution segment up to 26 tonnes. We intend to establish electric driving as systematically as autonomous and connected driving," says Dr. Wolfgang Bernhard, responsible for Daimler Trucks & Buses at the Board of Management.
Growing urbanisation requires fully electric trucks
Better air quality, lower noise and restricted-access zones are now important keywords in large metropolises worldwide, because more and more people worldwide are moving to cities. 2008 was the first year in which more people lived in cities than in the countryside. The trend is continuing: The UN predicts a global population of nine billion people by 2050, with approximately 70 percent of them living in cities. In future, it will be necessary to transport goods in urban environments for increasing numbers of people – and with the lowest possible emissions and noise. By now large cities such as London or Paris are considering a ban on internal combustion engines in city centres in the future. That means: there will be fully electric trucks ensuring the supply of humas with food or other goods of daily needs.
Fast enhancement of battery capacity while significantly lower costs
Until quite recently, the use of fully electric drives systems in trucks seemed to be unimaginable – especially because of the high costs of the batteries coupled with a low range. The technology has now become much more mature. In particular battery cells rapidly developing further. Daimler Trucks expects the costs of batteries to lower by the factor 2.5 between 1997 and 2025 – from 500 Euro/kWh down to 200 Euro/kWh. At the same time, performance will improve by the same factor over the same period – from 80 Wh/kg up to 200 Wh/kg.
Stefan Buchner, Head of Mercedes-Benz Trucks: "With the Mercedes-Benz Urban eTruck, we are underlining our intention to systematically developing the electric drive in trucks to series production maturity. This means that we will begin to integrate customers, so as to gain valuable joint experience with respect to the operating ranges and the charging infrastructure in daily transport operations. Because we think the entry of this technology into the series production is already conceivable at the beginning of the next decade."
Innovative battery technology for Urban e Truck
Technically the Mercedes-Benz Urban eTruck is based on a heavy-duty, three-axle short-radius Mercedes-Benz distribution truck. In addition, however, the developers at Daimler Trucks have totally revised the drive concept: The entire conventional drivetrain being replaced by a new electrically driven rear axle with electric motors directly adjacent to the wheel hubs – derived from the electric rear axle which was developed for the Mercedes-Benz Citaro hybrid bus. The power is supplied by a battery pack consisting of three lithium-ion battery modules. This results in a range of up to 200 km – enough for a typical daily delivery tour. Thanks to the integrated concept with motors adjacent to the wheel hubs, the batteries are housed in a crash-proof location inside the frame.
As the EU Commission is in favour of increasing the permissible gross vehicle weight of trucks with alternative drives by up to one tonne, this will more or less level out the weight surplus of the electric drive. This will raise the permissible gross vehicle weight of the Urban e Truck from 25 to 26 tonnes, which will bring the original extra weight down to 700 kg compared with a directly comparable IC-engined truck.
Fuso Canter E-Cell: all-electric drive in customer operation since 2014
Where light-duty trucks are concerned, all-electric drive is already a reality. This is demonstrated by the Fuso Canter E-Cell. Fuso already presented the first generation of the fully electrically powered Canter in 2010. In 2014 this was followed by the second generation, which proved its worth in the first fleet trials in Portugal. With ranges of over 100 kilometres, the vehicles exceeded the average daily distance covered by many trucks in light-duty short-radius distribution. Under widely varying operating conditions, the trucks covered more than 50,000 km within one year. In the process the vehicless were locally emission-free and, taking power generation into account, reduced CO2 emissions by 37 percent compared to diesel engines. The operating costs were 64 percent lower on average.
Marc Llistosella, Head of Daimler Trucks Asia and President & CEO of Mitsubishi Fuso Trucks and Bus Cooperation (MFTBC): "The current generation Canter E-Cell offers our customers transport services which are not only environment-friendly, but also economical. Our test in Lisbon revealed respectable savings of around 1000 euros per 10,000 kilometres in comparison to diesel trucks."
"We at Fuso have now acquired extensive experience in the development of local emission-free commercial vehicles und we will consequently pursue this development also in future. At the Commercial Vehicles show IAA in September, will will take a step further towards series production with our next generation under the new name: Fuso eCanter," continues Llistosella.
Current fleet trials with the Fuso Canter E-Cell in Germany
Since April 2016 the city of Stuttgart and the parcel service provider Hermes are testing five Fuso Cater E-Cell in Germany. Especially the using in the topographically very demanding environment in urban Stuttgart provides important insights for Daimler Trucks from the customer operation with regard to the further development of the fully electric drive. First results from this customer trial are expected at the beginning of 2017.
Dirk Rahn, Managing Director Operations at Hermes Germany underlined during the today's event: "We are very proud of our successful cooperation with Daimler in the development of relevant future technologies for many years. Also regarding the current project, we accepted with pleasure the invention of Daimler to actively support the testing of the Fuso Canter E-Cell out of our logistical everyday life. Thereby, the results of our test run are extremely positive! With regard to the growing requirements in city logistics we are now looking forward to test further vehicle classes and to bring them to market maturity soon. Our common goal: making e-mobility more economical."
Elon Musk of Tesla Sticks to Mission Despite Setbacks
The billionaire entrepreneur Elon Musk is running a private rocket company, doubling down on alternative fuels and pressing on with Tesla after a series of accidents.
Rimac Concept_One 0-100 km/h acceleration [VIDEO]
This is what 0-100 km/h in 2.6 seconds looks like.
The Concept One’s powertrain consists of four electric motors and four gearboxes with a total of 800 kW (1088 hp) and 1,600 Nm (1,180 ft-lb) distributed via torque vectoring.
The 620 volt, 82 kWh, LiNiMnCoO2 battery’s 1 MegaWatt of discharge capability linked to those four wheels moves the two-ton hypercar to 62.5 mph in just 2.6 seconds, to 124 mph in 6.2 seconds and to 186 mph in 14.2 seconds.
Top speed is rated at 221 mph.
LeEco Unveils LeSEE Autonomous Electric Vehicle Concept [VIDEO]
China's Le Holdings Co Ltd, also known as LeEco and formerly as LeTV, on Wednesday unveiled an all-electric battery concept car whose production version the company hopes will compete head-on with Tesla Model S.
The concept car, called LeSEE, which hints at a production version of the car LeEco is widely expected to launch in the future, is one of an array of similarly positioned premium electric vehicles (EVs) due to hit the market in the next few years from more than half a dozen Chinese-funded EV start-ups.
LeEco said the concept car, which will be displayed at next week's Beijing auto show, is not only fully electrically propelled but has been engineered to be a "smart", "connected" and "automated self-driving" car.
Jia Yueting, co-founder and head of LeEco, said he hopes that when the car hits the market it will help China's auto industry reach the forefront of the global auto sector.
"When everyone is questioning us over our ability to develop a car like this and is laughing at us, we are still able to be here and show you this car ... I am so emotional," Jia said at a LeEco launch event for several products in Beijing on Wednesday.
Jia said LeEco is also developing a car-sharing business in connection with its green car efforts.
He said one day LeEco cars would be offered free of charge to consumers because the company aims to make money on content and other services it sells through those connected cars. Jia did not say when that day might come.
"Our cars' pricing model will be similar to pricing models for cellphones and tv sets we sell today," he said. "One day our cars will be free ... We are getting there some day."
LeEco's electric vehicle unit and other EV startups in China proliferated after the government, looking to fuel a more determined switch to electricity as the ultimate alternative to petrol, liberalized and opened its automotive industry to allow deep-pocketed tech firms to invest as long as they dabble in electric cars.
Aside from LeEco, the likes of Baidu, Alibaba, Xiaomi Inc, Tencent and other tech firms have funded more than half a dozen EV start-ups, which include NextEV and CH-Auto.
Those new players have been emboldened by the government's all-out support for all types of electric cars, which includes generous incentives to buyers.
They also expect industry policymakers to mandate providers of public transportation such as bus companies, taxi operators and even courier services to purchase electric vehicles and invest in charging infrastructure to usher in an electric future.
BMW Reveal eRR Electric Super Bike Concept
BMW Motorrad has a long tradition in pointing out new ways and thoughts for the topic „mobility on two wheels“. For that, again and again many studies were presented in the past giving views to the future. The experimental vehicle eRR, created as a project with the Technical University of Munich, embodies an idea of an electric powered supersport motorcycle made by BMW Motorrad.
Already a couple of years ago, BMW i showed the BMW Group’s visionary and sustainable approach with the vehicles BMW i3 and i8 and their revolutionary design principles (aluminum chassis and passenger cabin made from carbon fibre) and BMW Motorrad’s C evolution proved, that zero emission, riding fun and practicability do not exclude themselves.
With presenting the experimental vehicle eRR BMW Motorrad goes one step forward and shows the possibilities of an all-electric drive in a supersport motorcycle. Regarding design and chassis technology the eRR leans on the supersport motorcycle S 1000 RR, however using an all-electric drive.
Stephan Schaller, Head of BMW Motorrad, emphasizes: „Since their market launch, the RR is giving the creeps to motorsport athletes. If acceleration, handling or topspeed – the RR is setting standards. However, if acceleration on the first metres, up to 50, 60 kph, is the point, the RR’s 199 bhp have to admit defeat by another BMW product: the C evolution with its electric drive.
We asked ourselves: What happens when combining a sport motorcycle and an electric drive? The experimental vehicle eRR brings the topic zero emission and electric drive on a new, more fascinating level."
BMW Motorrad will announce technical details of the eRR at a later date.
Nissan IDS Concept: Autonomous 60 kWh Next Gen LEAF [VIDEO]
Today at the Tokyo Motor Show 2015, Nissan Motor Co., Ltd. unveiled a concept vehicle that embodies Nissan's vision of the future of autonomous driving and zero emission EVs: the Nissan IDS Concept.
Presenting at the show, Nissan president and CEO Carlos Ghosn said: "Nissan's forthcoming technologies will revolutionize the relationship between car and driver, and future mobility."
After leading the development and expansion of EV technology, Nissan once again stands at the forefront of automotive technology. By integrating advanced vehicle control and safety technologies with cutting-edge artificial intelligence (AI), Nissan is among the leaders developing practical, real-world applications of autonomous drive technology.
In August 2013, Ghosn said that by 2020 Nissan plans to equip innovative autonomous drive technology on multiple vehicles. Progress is well on track to achieve this goal.
Nissan Intelligent Driving is Nissan's concept of autonomous drive technology and represents what Nissan believes next-generation vehicles should be. "Nissan Intelligent Driving improves a driver's ability to see, think and react. It compensates for human error, which causes more than 90 percent of all car accidents. As a result, time spent behind the wheel is safer, cleaner, more efficient and more fun," continued Ghosn.
By 202X, expect to see Nissan Intelligent Driving technology deployed on cars in cities around the world.
The Nissan IDS experience
Some have compared a future with autonomous drive to living in a world of conveyer belts that simply ferry people from point A to B, but the Nissan IDS Concept promises a very different vision of tomorrow. Even when the driver selects Piloted Drive and turns over driving to the vehicle, the car's performance — from accelerating to braking to cornering — imitates the driver's own style and preferences.
In Manual Drive mode, the driver has control. The linear acceleration and cornering are pure and exhilarating. Yet behind the scenes, the Nissan IDS Concept continues to provide assistance. Sensors continually monitor conditions and assistance is available even while the driver is in control. In the event of imminent danger, Nissan IDS Concept will assist the driver in taking evasive action.
In addition to learning, the Nissan IDS Concept's AI communicates like an attentive partner. From information concerning traffic conditions, the driver's schedule to personal interests, Nissan IDS Concept's AI has what is needed to help create a driving experience that is comfortable, enjoyable and safe.
Design — Together, we ride
"A key point behind the Nissan IDS Concept is communication. For autonomous drive to become reality, as a society we have to consider not only communication between car and driver but also between cars and people. The Nissan IDS Concept's design embodies Nissan's vision of autonomous drive as expressed in the phrase together, we ride," says Mitsunori Morita, Design Director.
Two interiors enable two ways for the driver to enjoy the experience. Together, we ride is clearly demonstrated in the interior design. "The Nissan IDS Concept has different interiors depending on whether the driver opts for Piloted Drive or Manual Drive. This was something that we thought was absolutely necessary to express our idea of autonomous drive," says Morita.
Even though it is a hatchback, the Nissan IDS Concept's long wheelbase enables comfortable seating space for four adults. But the cabin becomes even more spacious when the driver selects Piloted Drive. In this mode, the steering wheel recedes into the center of the instrument panel and a large flat screen comes out. Various driving-related operations are handled by AI, voice and gestures from the driver. The interior, which is comprised of natural materials such as mesh leather, is illuminated by soft light. All four seats rotate slightly inward, facilitating easier conversation. It's like relaxing in a living room.
When the driver selects Manual Drive, the roomy interior transforms to put the driver in control. All seats face forward. The steering wheel, which takes styling cues from reins for horse riding, appears along with driving meters and a heads-up display that shows route and other driving information. Interior lighting switches to blue, stimulating the ability to concentrate. Nissan's use of hollow-structure A-pillars helps ensure excellent visibility by reducing blind spots and also contributes to the feeling of open space.
"In every situation, it is about giving the driver more choices and greater control. And the driver will remain the focus of our technology development efforts," Ghosn said at the show.
The transformation to Manual Drive can be carried out with ease through a switch between the front seats called the PD Commander. This is the only control the driver can physically operate when the car is in Piloted Drive: when the driver is ready to take over driving, a physical action should initiate the change.
Exterior design
For autonomous drive to be widely accepted, people need to fully trust the technology. Through its innovative communication capabilities, the Nissan IDS Concept promotes confidence and a sense of harmony for those outside the car as well. Various exterior lights and displays convey to pedestrians and others the car's awareness of its surroundings and signals its intentions. The car's side body line, for example, is actually an LED that Nissan calls the Intention Indicator. When pedestrians or cyclists are nearby, the strip shines white, signaling that the car is aware of them. Another electronic display, which faces outside from the instrument panel, can flash messages such as "After you" to pedestrians. This natural, harmonious system of communication signals a new future with cars.
Advanced aerodynamic performance for greater driving range
Design Director Mitsunori Morita says: "By the time Nissan Intelligent Driving technology is available on production cars, EVs will be able to go great distances on a single charge. Getting to this point will, of course, require the further evolution of batteries, but aerodynamic performance is also very important. We incorporated our most advanced aerodynamic technology in the design of the Nissan IDS Concept."
The height of the full carbon fiber body was constrained to 1,380 mm, sharply minimizing aerodynamic drag (Cd). Positioning the tires close to the corners of the body maximizes interior space while enabling a wrap-around cabin design. Nissan selected large-diameter wheels for high-performance and sportiness, but used very thin 175-size tires to minimize air and roll resistance. The wheels have a layered design suggestive of thin fins that create tiny vortexes of air flow on the wheel's surface. This design further contributes to smooth air flow.
The icicle pattern on the Nissan IDS Concept's grille symbolizes a pure and clean design — perfect for an EV. Shaped like a stack of ice blocks, the grille pattern appears transparent. The car's bluish satin silver body color heightens the impression of a comfortable and secure cabin space.
Highly evolved EV technology for long-distance driving
At Nissan's annual shareholders meeting in June, Executive Vice President Hideyuki Sakamoto said: "Our zero emission strategy centers on EVs. We are pursuing improved electric powertrain technologies, such as motors, batteries and inverters, which will enable us to mass produce and market EVs that equal or surpass the convenience of gasoline-powered cars."
The Nissan IDS Concept is fitted with a high-capacity 60 kWh battery, and thanks to its outstanding aerodynamics, low stance, flowing form and reduced weight due to its full-carbon-fiber body, the vehicle is designed to also meet the need to drive long distances. Other technologies on the Nissan IDS Concept include Piloted Park that can be operated by smartphone or tablet, and wireless charging technologies. Through these, the driver can leave parking and charging to the car.
Nissan's targets — Zero traffic fatalities and zero emissions
In order for our car-based society to be sustainable, complex issues ranging from sustainable energy supplies to climate change, air pollution and traffic safety must be addressed. At Nissan, we have set zero fatalities and zero emissions as aspirational targets in our mission to help create a sustainable car-based society.
Over 90 percent of traffic accidents are caused by human error. Nissan IDS Concept's extensive system of sensors and AI are designed to provide enhanced safety performance compared to a human driver. This technology brings us a step closer to the goal of zero traffic fatalities.
EVs produce no CO2 emissions and their batteries can store energy from renewable sources and turn it into electricity for homes and buildings. As the number of EVs increases, entire communities will be able to harness their power as part of a sustainable energy plan. Then, as EVs come to play a central role in energy supply, we will come that much closer to becoming a zero emission society.
Nissan believes that the Nissan IDS Concept will evolve into a leading innovation for next generation mobility and our quest for making these "two zeroes" a reality.
Featuring Nissan's most advanced safety, driving-control and EV technology — all taken to a new level by AI — the Nissan IDS Concept is a compelling showcase of a promising future.
Is Adrian Newey working on the ‘Ultimate’ electric supercar with AMG?
The road car project that Adrian Newey is working on with Red Bull and Aston Martin appears to be picking up steam, and there are rumors that it could be an electric car.
Newey seems to have no interest in building a hybrid hypercar four years after the McLaren P1, LaFerrari and Porsche 918 Spyder. As previously discussed, these examples are very much first generation 'mild' hybrids.
What does interest him is a car that Autocar says advances technology and the involvement of the driver. That would be an electric supercar. Newey reportedly wants his car to hold the same sort of place in history as Gordon Murray's McLaren F1.
Sources suggest that Aston Martin shareholder Mercedes-Benz wants to be involved in the project, both to create a connection with Red Bull’s younger audience and to have a technical involvement in what could be a landmark product. As such, it is said to be pushing for its performance arm, AMG, to work with Newey.
As AMG are responsible for designing the only production supercar with true all-wheel-drive torque vectoring (Mercedes SLS AMG Electric), any collaboration between AMG and Adrian Newey could spawn a vehicle to seriously eclipse the current generation of hybrid hypercar.
2018 Porsche Mission-E 600 hp AWD Electric Vehicle Concept [VIDEO]
In presenting the Mission E at the IAA in Frankfurt, Porsche is introducing the first all-electrically powered four-seat sports car in the brand's history. The concept car combines the unmistakable emotional design of a Porsche with excellent performance and the forward-thinking practicality of the first 800-volt drive system. Key specification data of this fascinating sports car: four doors and four single seats, over 600 hp (440 kW) system power and over 500 km driving range. All-wheel drive and all-wheel steering, zero to 100 km/h acceleration in under 3.5 seconds and a charging time of around 15 minutes to reach an 80 per cent charge of electrical energy. Instruments are intuitively operated by eye-tracking and gesture control, some even via holograms – highly oriented toward the driver by automatically adjusting the displays to the driver's position.
Drive system: over 600 hp with technologies from endurance racing
The drive system of the Mission E is entirely new, yet it is typical Porsche, i.e. proven in motor racing. Two permanent magnet synchronous motors (PMSM) – similar to those used in this year's Le Mans victor, the 919 hybrid – accelerate the sports car and recover braking energy. The best proof of a Porsche is 24 hours of top racing performance and a 1-2 finish. Together the two motors produce over 600 hp, and they propel the Mission E to a speed of 100 km/h in less than 3.5 seconds and to 200 km/h in under twelve seconds. In addition to their high efficiency, power density and uniform power development, they offer another advantage: unlike today's electric drive systems, they can develop their full power even after multiple accelerations at short intervals. The need-based all-wheel drive system with Porsche Torque Vectoring – which automatically distributes torque to the individual wheels – transfers the drive system's power to the road, and all-wheel steering gives precise, sporty steering in the desired direction. This makes the Mission E fit for the circuit race track; its lap time on the Nürburgring Nordschleife is under the eight-minute mark.
Everyday practicality: convenient and quick charging, over 500 km driving range
It is not just passionate sportiness that makes up a Porsche but also a high level of everyday practicality. Accordingly, the Mission E can travel over 500 km on one battery charge, and it can be charged with enough energy for around 400 km more driving range in about fifteen minutes. The reason: Porsche is a front-runner in introducing innovative 800-volt technology for the first time. Doubling the voltage – compared to today's electric vehicles that operate at 400 volts – offers multiple advantages: shorter charging times and lower weight, because lighter, smaller gage copper cables are sufficient for energy transport. A moveable body segment on the front left wing in front of the driver's door gives access to the charging port for the innovative "Porsche Turbo Charging" system. Via the 800-volt port, the battery can be charged to approximately 80 per cent of its capacity in around 15 minutes – a record time for electric vehicles. As an alternative, the technology platform can be connected to a conventional 400-volt charging station, or it can be replenished at home in the garage via convenient inductive charging by simply parking over a coil embedded in the floor of the garage from which the energy is transferred without cables to a coil on the car's underbody.
Low centre of gravity for superior driving dynamics
Another feature that is typical of a Porsche sports car is a lightweight concept with optimal weight distribution and a low centre of gravity. The battery mounted in the car's underbody, which is based on the latest lithium-ion technology, runs the whole length between the front and rear axles. This distributes its weight to the two drive axles uniformly, resulting in exceptionally good balance. In addition, it makes the sports car's centre of gravity extremely low. Both of these factors significantly boost performance and a sports car feeling. The body as a whole is made up of a functional mix of aluminium, steel and carbon fibre reinforced polymer. The wheels are made of carbon: the Mission E has wide tyres mounted on 21-inch wheels in front and 22-inch wheels at the rear.
Design: fascinating sports car with Porsche DNA
Every square inch, every angle, every radius of the Mission E reflects one thing above all else: emotional sportiness in the best tradition of Porsche design. The starting point is the sculpture of a sport saloon with a low height of 130 cm with sports car attributes from Zuffenhausen that embodies visible innovations such as its integrated aerodynamics. Distinctive air inlets and outlets – on the front, sides and at the rear – typify the body's full flow-through design that enhances efficiency and performance. Integrated air guides improve airflow around the wheels, for instance, and air outlets on the sides reduce overpressure in the wheel wells, thereby reducing lift.
The much reduced sculpting of the front end shows a classic Porsche sweepback, and it relates the concept car to the 918 Spyder and Porsche race cars. A new type of matrix LED headlights in the brand's typical four-point light design captures the viewer's gaze. Integrated as an element hovering in the airflow of the air inlet, they lend a futuristic character to the front end. The four LED units are grouped around a flat sensor for assistance systems whose border serves as an indicator light. Distinctive front wings and an extremely low-cut bonnet reference 911 design. As in the 911 GT3 RS, a wide characteristic recess extends from the overlapping front luggage compartment lid up and over the roof. The line of the side windows is also similar to that of the 911, however, with one important difference: two counter-opening doors enable convenient entry – without a B-pillar. Another difference: instead of the classic door mirror, inconspicuous cameras are mounted on the sides that contribute to the car's exceptional aerodynamics.
The rear design underscores the typical sports car architecture. The lean cabin with its accelerated rear windscreen, which draws inward at the rear, creates space for the sculpted shape of the rear wings that only a Porsche can have. A three-dimensional "PORSCHE" badge illuminated from inside hovers beneath an arch of light that extends across the entire width in a black glass element.
Interior: light and open with four single seats
The interior of the Mission E transfers all of the traditional Porsche design principles into the future: openness, purist design, clean architecture, driver orientation and everyday practicality. The all-electric drive concept made it possible to fully reinterpret the interior. The lack of a transmission tunnel, for instance, opens up space and gives a lighter and more airy atmosphere to the entire interior. Race bucket seats served as inspiration for the four single seats. Their lightweight design is weight-saving, and it gives occupants secure lateral support during dynamic driving. Between the front seats, the centre console – elegantly curved like a bridge with open space beneath it – extends up to the dashboard.
Display and control concept: intuitive, fast and free of distractions
A new world based on an innovative display and control concept opens up before the driver. It is intuitive, fast and free of distractions – created for the sports car of tomorrow. The filigree driver's display is curved, low-profile and free-standing. The instrument cluster shows five round instruments – they can be recognized as Porsche, but they are displayed virtually in OLED technology, i.e. by organic light-emitting diodes. The round instruments are organized according to the driver-relevant themes of Connected Car, Performance, Drive, Energy and Sport Chrono. The controls are just as innovative. An eye-tracking system detects, via camera, which instrument the driver is viewing. The driver can then activate the menu of the instrument in focus by pushing a button on the steering wheel and navigate in it – which also involves an interplay of eye-tracking and manual activation. But that is not all: the display follows the seat position and body attitude of the driver in what is known as a parallax effect. If the driver sits lower, higher or leans to one side, the 3D display of the round instruments reacts and moves with the driver. This eliminates situations in which the steering wheel blocks the driver's view of certain key information, for instance. All relevant information such as vehicle speed is always within the driver's line of sight.
The Mission E can even portray driving fun: a camera mounted in the rear-view mirror recognizes the driver's good mood and shows it as an emoticon in the round instrument. The fun factor can be saved together with individual information such as the route or speed, and it can be shared with friends via a social media link.
Holographic display with touch-free gesture control
The entire dashboard is chock full of new ideas. Its division into two three-dimensionally structuring layers reinforces the impression of lightness and clarity. The upper layer integrates the driver's display, and between the levels there is a holographic display that extends far into the passenger's side. It shows individually selectable apps, which are stacked in virtual space and arranged by priority with a three-dimensional effect. The driver – or passenger – can use these apps to touch-free control primary functions such as media, navigation, climate control, contacts and vehicle. The desired symbol is activated by gestures that are detected by sensors. A grasping gesture means select, while pulling means control. Moreover, driver or passenger can use a touch display on the centre console to control secondary functions such as detailed information menus.
The concept vehicle can also be configured externally from a tablet via Porsche Car Connect. Using "Over the Air and Remote Services" the driver can essentially change the functional content of the vehicle overnight. A simple update via the integrated high-speed data module is all it takes to implement the travel guide or additional functions for the chassis, engine or infotainment system. The driver can use a smartphone or tablet to start updates conveniently from the Porsche Connect Store. Furthermore, Porsche Connect enables direct contact to a Porsche Centre for remote diagnostics or to schedule appointments. Another function of integrated Remote Services is the digital key, which can be sent via the Porsche Connect Portal. It not only lets the owner open the doors, but also other persons authorized by the owner such as friends or family. After successful authentication, the key can be used within a specific time frame and defined location.
The virtual exterior mirrors are literally eye-catching. The lower corners of the windscreen show the images of the outside cameras that are mounted in the front wings. The benefits: the driver gets a better view of images and the surroundings, and safety information can also be actively displayed there
