Volkswagen eT! Concept

The Volkswagen eT! Concept is making its debut at the Design Centre of Potsdam was specially designed for delivery of mail shipments of all types.

The eT! is an all-electric van, which means it is quiet and doesn�t produce any emissions while driving through dense urban environments. The cabin has a tablet computer mounted to the dashboard, presumably allowing the driver to monitor deliveries while on the road.

As an alternative, the driver can direct the car�s movements via a �drive stick� from the passenger�s side that also offers a standing seat and quick access to the vehicle.

The eT! uses electric hub motors to maximize important interior volume both under the hood and in the load bay.




Press Release


World premiere in Potsdam: Volkswagen eT! - the reinvention of the delivery vehicle
eT! is electrically powered and drives semi-automatically on command

Driver can steer the eT! by �drive stick' from passenger's side as alternative

Wolfsburg / Potsdam, 18 November 2011 - For over 60 years now, commercial vehicles from Volkswagen have maintained a visual presence on the world's streets. They are helpers in everyday life, which bring us people goods, services, postal deliveries and occasionally emergency assistance as well. Volkswagen Group Research, which is responsible for the world of tomorrow, together with the German Post Office (�Deutsche Post AG'), which is one of the largest customers of lightweight commercial vehicles - as well as the University of Art at Braunschweig - formed a think tank on future transport and mobility issues. Finally, these research activities led to a completely new vehicle concept for the delivery and logistics field: eT!

Prof. Dr. J�rgen Leohold, Director of Volkswagen Group Research: "We analyzed process flows and customer needs in detail, and from these analyses we derived ideas on how the segment of delivery and courier vehicles could be further developed over the long term. In this context, we focused on zero-emissions driving and available space in urban areas, semi-automatic driving functions that offer relevant support and simplify work processes and the integration of new communication technologies. On top of that, we also set out to design a very emotionally appealing commercial vehicle. To attain these goals, our teams not only looked towards the future from the past, but also worked from a future perspective to implement an advanced development concept based on technologies available today."

The eT! research vehicle could someday actually revolutionise the world of lightweight commercial vehicles. Completely reconceptualised, driven with zero emissions, thought through to the last detail and driving semi-automatically if necessary! Just how wide-ranging the significance of this research project could be for sustainability in the transportation field is underscored by the support for the eT! project by the German Federal Ministry for the Environment, Nature Conservation and Nuclear Safety. "The eT! research vehicle," explains Dr. Wolfgang Schreiber, spokesperson for the Board of Management of Volkswagen Commercial Vehicles, "unifies a whole gamut of innovative functions, which will gain in future importance, specifically for logistics businesses. In particular, the possibility of driving the car semi-automatically - and electrically - in downtown areas unifies economical and environmental aspects more systematically than ever. As a vision of the future, the eT! is showcasing what is the maximum feasible technology for electric vehicles in the commercial market today with a special design that systematically addresses future customer needs."

"eT! is a pure electrically powered transporter that systematically transfers E-mobility to the area of commercial use," says Dr. Rudolf Krebs, Group Manager for Electric Traction at Volkswagen AG. And continues: "As a transport specialist, the eT! is advancing to become the automotive building block for an innovative, future-oriented logistics concept, which not only drives with zero emissions in urban areas - thanks to its electric wheel hub motors - but also offers maximum freedom in manoeuvering and turning as well as optimal utilisation of the vehicle's interior space. If �refuelled' with electricity generated from renewable energy sources, the eT! can indeed be operated with zero emissions. Naturally, the eT! is not a vehicle which - unlike the Golf or up! with an electric motor - could become available very soon. But we must make plans today for what the world of lightweight commercial vehicles might look like starting in the second half of this decade, including with regard to electrical drives."

To make the working world of mail delivery personnel and courier drivers simpler and safer, to optimise the logistics of delivery and to shorten delivery times, eT! can be operated semi-automatically in certain situations. The car can follow the delivery person from house to house ("Follow me"), or the car can return to the delivery person on command ("Come to me") - driverless! As an alternative, the driver can direct the car's movements via a �drive stick' from the passenger's side that also offers a standing seat and quick access to the vehicle. On the passenger's side - the side that faces the sidewalk and therefore the working area of the delivery person - there is therefore an electrically opening sliding door that opens to 2 different stages; this enables extremely quick entry into the vehicle as well as quick access to the mail parcels. This makes unnecessary walking movements around the vehicle a thing of the past.

Variants of this lightweight transport vehicle could be implemented for all conceivable business uses. And these derived concepts are also the focus of research activities. Meanwhile, the eT! concept shown in a world premiere at the Design Centre of Potsdam was specially designed for delivery of mail shipments of all types. The research vehicle will now be integrated in a driving test study and further analysed.

Nissan PIVO 3 concept?Video?

Nissan has releases the Pivo 3 concept, which will be unveiled at the Tokyo Motor Show in next month.

The exterior design proposes a new direction, leaving the round surface language for a more �serious� and aggressive treatment made of sharp edges and angled surfaces, which is more in line with the current trends.

A good size for tight cities, the Pivo 3 is just three metres long and has a wide-enough steering angle to allow you to make a U-turn on a road that's just four metres wide. It has a zero turn gap, so if the front wheels can make the turn, the rear wheels will follow without scraping the body side.

Inside, the cabin is elegantly equipped with premium leather, metallic trim and a digital instrument cluster. There's also a McLaren F1-style seating arrangement which doesn't look very comfortable.

The driver-focused interior incorporates side-view monitors (which take the place of mirrors), Nissan�s Around View Monitor system that minimises blind spots, and an ultra-wide display for GPS and other information.



Press Release

Highlights of the Nissan Exhibit at the 2011 Tokyo Motor Show

YOKOHAMA, JAPAN (November 8, 2011) - Nissan Motor Co., Ltd., will present a selection of new production vehicles, prototypes and three concept cars at the upcoming 2011 Tokyo Motor Show.

Highlights of the show include:

• Three concept EVs: PIVO 3, a smart urban EV of the near future; ESFLOW, a pure EV sports car; and TOWNPOD, a cross-genre EV for business or leisure
• Smart House of the Future: Enables electricity supply from Nissan LEAF, solar panels and fuel cells
• Next-generation light commercial van prototype: All-new NV350, delivering improved convenience and styling
• Special advanced technology exhibit displaying Nissan's latest innovations in zero emission mobility and safety.

An overview of the concept cars and technologies to be exhibited are as follows:

PIVO 3 - The smart urban commuter EV of the near future

• Automated Valet Parking (AVP) enables PIVO 3 to automatically drive, locate a parking space and park without driver assistance in the infrastructure equipped parking lots envisioned for the future. It can also charge itself and return to its driver at the AVP exit when called by smartphone.
• Compact 3-seater body under 3-meter long, narrow-tread rear tires and IWM (in-wheel motors) with wide steering angle allows PIVO 3 to make a U-turn on a road only four meters wide. The highly maneuverable PIVO 3 has zero turn gap, so if the front wheels can make the turn, the rear wheels will follow without scraping the body side.
• Refined exterior styling with bold surfaces and a new stance.
• Controls integrate seamlessly with high-grade interior.
• Central driving position provides a totally new driving experience.
• Realization of near future mobility that not only links car and driver but also connects the car to the community with sustainable energy.

ESFLOW - Dynamic driving in a zero emission future

• World debut made at the Geneva Motor Show in March 2011.
• Pure EV sports car concept offers an exciting new dimension in sports car handling and performance, using technology pioneered in Nissan LEAF.
• Rear-wheel drive two-seater configuration.
• Two independently controlled midship-mounted electric motors, each driving a rear wheel, with active optimization of vehicle dynamics and driving feel suits individual preferences and road characteristics.
• Laminated lithium-ion batteries mounting position engineered for ideal front-to-rear balance.
• Dramatic styling with wrap-around windscreen for enhanced visibility over low hood made possible by EV package.
• 0-100km/h (0-62 mph) in under five seconds.
• Over 240 kilometer (150 mile) cruising range on one charge (US LA4 mode).

TOWNPOD - Cross-genre EV for the free-thinking enterpreneur

• Unveiled at the Paris Auto Show in September 2010.
• Fashionable and functional vehicle flexibly adapts to user needs.
• Exterior melds stylish coupe and roomy van design elements.
• Engaging front seat styling. Rear cargo space is functionally designed for professional utility, including rear seat storage area in back of front seats.
• Three split doors and a split open sunroof ease access in tight spots while greatly improving loading/unloading convenience and ability to carry taller objects.
• Touch-screen display links to driver's smartphone to provide convenient support for busy professionals.
• Zero emission mobility offers guilt-free driving enjoyment for the environmentally conscious user.

NV350 - Next-generation light commercial van delivers capacity, convenience and style

• Improved fuel economy.
• Contemporary exterior styling expresses solid presence.
• Functional interior styled to emphasize spacious feel.
• Keyless pushbutton ignition, a world's first in a commercial vehicle. Nissan Intelligent Key^TM, dash-mounted shift lever and foot-operated parking brake also exceed expectations in the LCV category.
• Cargo area up to 3 meters in length, 50:50 split fold-forward rear seats, and embedded mounting nuts in interior side panels provide flexible cargo handling and adaptability to user needs.
• Japanese market launch scheduled for summer of 2012.
• ADVANCED TECHNOLOGY - Toward Zero Emission Mobility
• Nissan's EV technology offers exciting new benefits exemplified by the Smart House of the Future and EV-based Smart Community, which will be introduced using motion displays.

NSH-2012 Smart House of the Future
Nissan will display its Smart House "NSH-2012", an implementation of the "LEAF to Home" (V2H*) electric supply system, which uses power stored in Nissan LEAF's batteries. The Smart House combines solar panels, fuel cells and Nissan LEAF's batteries to maintain a steady power supply to the home, independent of weather conditions. Even during a power outage in a disaster, solar power and Nissan LEAF batteries can continue to supply the home with electricity.
* V2H stands for "vehicle to home", that is, supplying electricity to the home from power stored in an electric vehicle's batteries.

EV-based Smart Community
A broader application of the "LEAF to Home" electric supply system, Smart Communities integrate renewable energy and a bi-directional electric grid to enable new lifestyles. Motion displays show how EVs make this possible in three contexts: homes, buildings and communities.
Next-generation mobility with PIVO 3
A multi-media presentation of PIVO 3 functions, such as Automated Valet Parking, which link to the "smart city" infrastructure of the future and use cloud computing to enable intelligent and convenient next-generation mobility.

PURE DRIVE^TM - Boosting fuel efficiency with a suite of technologies
PURE DRIVE^TM is Nissan's initiative to boost environmental performance in conventional-fuel powertrains. Cutaway models and videos will introduce PURE DRIVE^TM technologies including clean diesel, hybrid, stop/start system and XTRONIC CVT (Continuously Variable Transmission).

Nissan Safety Shield - Towards zero fatalities
Nissan has set an ultimate goal of reducing the number of automobile accident fatalities or serious injuries involving its vehicles to substantially zero. Nissan's Safety Shield concept defines pre- and post-crash conditions to guide the active development of technologies to address safety all around the vehicle. Nissan will introduce nine technologies by the end of 2011 to create a virtual "Safety Shield" for our customers. Video presentations and interactive displays will illustrate these innovations.

Frankfurt debuts: Rimac Concept_One?Video?

Rimac Automobili has officially unveiled the Concept_One, which will debut at the Frankfurt Auto Show.

This electric supercar weighs in at 3,637 lbs and produces 1,088-hp. That allows the Rimac Concept_One to go from 0 to 62 mph in 2.8 seconds with a top speed of 190 mph. On a full charge, the Concept_One is capable of driving up to 373 mph.

Each wheel can accelerate or decelerate independently hundreds of times per second. Sophisticated ECUs control each of the power system, using the input of precise sensors placed all over the car.

To create a luxurious interior, Rimac enlisted Vilner and a group of former Pininfarina employees. The end result is pretty impressive as the cabin is elegantly appointed with premium leather, carbon fiber trim, a digital instrument cluster and an advanced infotainment system.





Press Release

The Concept_One world debut at Frankfurt Motor Show

FRANKFURT, September 13th, 2011. - Rimac Automobili is unveiling the world's first electric supercar - the Concept_One.

The Concept_One is an exceptional supercar with a new propulsion concept. With a curb weight of 1650 kg, and 1088 HP, the Concept_One can reach 100 km/h from a standstill in 2.8 seconds and continue to accelerate to the limit of 305 km/h. 92kWh of energy in the Battery Modules delivers enough juice"for up to 600 km of range.

Rimac Automobili developed a unique powertrain which is divided into four sub-systems, each consisting of one motor, inverter and reduction gearbox. Each of those systems drives one wheel, working completely independent one from the other. It's called All Wheel Torque Vectoring and it allows a new approach to vehicle dynamics. Mate Rimac, the CEO of Rimac Automobili says: "I believe that the electric motor is a much better machine compared to the ICE, in almost all aspects, especially for a sports car."
The carbon-fibre body is designed by Adriano Mudri: �Exploring the labyrinth of creativity, it was obvious at an early stage that the design had to be simple and clear with a lot of sporty elegance to easily catch up with its competitors in this power & exclusivity class."

The interior is designed by a team of former Pininfarina employees, led by Mr. Goran Popovi?. After the Rimac Automobili engineering team finished the development and prototyping of the interior parts, the leather-specialist Vilner stepped-in. The result is a high-tech-supercar interior which can be both appealing and pleasant to interact with, at the same time. Special attention has been paid to the infotainment system and gadgets like head-up-displays and soft-close doors which had to match the propulsion technology in its advancement.

Rimac Automobili is a young company which develops and produces high performance electric vehicles, drive trains and battery system. This all began when the founder of Rimac Automobili, Mate Rimac, converted his old BMW to a race EV. He explored the technology by improving every part and began to team-up with experts from different fields in order to develop the next generation supercar. The old BMW is now officially homologated as a "Rimac Automobili e-M3"and is used as a test mule for battery technologies, battery management, propulsion systems and latest in-house developments. Describing their beginnings Mate Rimac points out: "Our first car evolved in a short period of time into a project that didn't give a final result - instead it was a start, the start of the world's first electric hyper car - the Concept _One". A group of 20 multi-talented engineers and designers settled in Croatia near Zagreb and are making something new and revolutionary. The production of the first model, the Concept_One, is limited to 88 units, starting with deliveries in 2013.

2011 Frankfurt: Audi Urban Concept?Video?

Audi has officially unveiled the Urban concept. This car is intended to show what the future of small and very fuel-efficient cars for city dwellers might look like.

The lithium-ion battery � weighing in at 90kg and counting for almost 20 per cent of the Urban Concept�s total weight � lives behind the seats and takes about an hour to charge for a range of 45 miles. It takes 16.9 seconds to get to 62mph.

The Audi Urban Concepts weight 480 kilograms (1,058.22 lb) thanks to the lightweight chassis design and the numerous CFRP components, and measure 3,219 millimeters (126.73 in) in length, 1,678 millimeters (66.06 in) width, and just 1,189 millimeters (46.81 in) height.

The 21-inch wheels are free-standing, their surrounding protective arches feature blinking strips of LED lights.

The aircraft-inspired cabin is minimalistic, but features a floating dashboard, aluminum pedals and a hexagonal steering wheel. Occupants sit side by side, but the passenger seat is moved back 30cm (11.81 in) to "provide sufficient shoulder and elbow room."







Press Release

The Audi urban concept

Audi is breaking new ground: The Audi urban concept technology study is a 1+1 vehicle for urban and metropolitan areas. The electric powered show car has four wheels, but does not fit into any current automobile category. Weighing just 480 kilograms (1,058.22 lb), the Audi urban concept combines elements of a racecar, a roadster, a fun car and a city car into a radical new concept. It has the potential to become the trendsetter for a new form of mobility.

Concept
"How much car is necessary to deliver driving pleasure and urban mobility in an entirely new way?" This question was the starting point for the Audi urban concept. A model of a sailplane was in the studio during the development process as an example of lightweight construction, efficiency and reduction - of the principle of "less is more."

The result is a vehicle that cannot be pigeonholed, a vehicle that redefines the term "driving pleasure" and is completely unencumbered by the baggage of conventional concepts. The Audi urban concept concentrates on the pure essence of driving and conveys freedom at the premium level. At the same time, it offers the comfort and safety of a closed automobile, making it far superior to any motor scooter. With its sleek body and free-standing wheels, the technology study is progressive and highly dramatic while at the same time extremely sporty, yet surprisingly comfortable.

The cabin of the Audi urban concept offers slightly offset seating for two. The roof slides back for entry. This innovative solution makes the Audi urban concept even more fun to drive because the canopy can remain open in good weather. It also allows the cabin to be aired out very quickly. The fit and finish of the show car is characterized by the obligatory Audi perfection. The car's technology is reflective of the brand's wide-ranging competence, particularly in ultra-lightweight construction.

The brand with the four rings has created an entirely new class of vehicle with the Audi urban concept, and that on the premium level. It also marks the new entry point to Audi's future range of electric vehicles, which is crowned by the R8 e-tron high-performance sports car. The Audi urban concept quite literally makes it easy to get into electric mobility.

The technology study is targeted toward people who are interested in technology and are enthusiastic about new approaches to mobility, independent of their age and status. In particular, it addresses an urban public whose lifestyle both reflects the car's modern concept and the driving pleasure associated with it and is a good fit for a possible innovative leasing system.

Exterior design
The Audi urban concept features an all-new design that still has certain historical roots in the Auto Union racecars of the 1930s. They were well ahead of their time conceptually: they were extremely lightweight and their engines were mounted in the rear. Their large, open wheels also stood out from the chassis - another parallel with the modern show car.

Painted in Electric White, pearl effect, today's technology study - 3,219 millimeters (126.73 in) long, 1,678 millimeters (66.06 in) wide, but just 1,189 millimeters (46.81 in) high - has a body on which all the lines are surging forward. The greenhouse is extremely flat. The roofline drops down like a wedge while the side window rises upward. The typical Audi tornado line gives the urban concept a strong shoulder.

An upright, forward-leaning blade in front of the rear wheel accentuates the side view. The Speed Red contour gives the appearance of a roll bar and evokes the Audi R8 high-performance sports car. The flanks of the body flare outward toward the bottom to enlarge the floor. This serves two purposes: It generates downforce at higher speeds and it can be used to charge the battery via induction - a particularly convenient method.

The characteristic Audi single-frame grill, which sports the four rings, appears as a closed surface on the Audi urban concept. It tilts forward to provide access to the charging socket. The narrow LED headlights project three-dimensionally from the body.

The turn signals are LED strips running along the fenders. These closely encircle the free-standing wheels, and the front fenders turn with the wheels when steering. The three-dimensional rear lights with the tail light and brake light are integrated into the vehicle body and wrap around the top of the rear window. At the back of the car is a small luggage compartment that pulls out like a drawer.

The front segment of the greenhouse is movable - another innovative idea that is unique to the Audi urban concept. Mounted on rails, it can be slid back by hand over the fixed rear segment.

It is up to the driver to decide whether to close the canopy or leave it open. The technology study is a roadster-on-demand that has neither roll-down windows nor a heavy air conditioner. When closed, the canopy provides protection against rain and cool air. Audi has also developed a second body variant as an alternative to the urban concept: a Spyder with a flat window strip wrapping around the cockpit and doors that open upward at an angle.

Interior
Entry to the Audi urban concept is via the slide-back canopy. The driver and passenger step over the edge of the vehicle as if they were stepping into the bathtub - there are no doors. This does not require any great flexibility; a handle on the windshield frame and special cutouts on the seating surfaces facilitate entry.

The show car offers room for two. The driver and passenger sit next to one another, with the right seat offset by 30 centimeters (11.81 in) to the rear to provide sufficient shoulder and elbow room. The seats are fixed, integral components of the monocoque, which provides for significant weight savings. They are covered with foam seating surfaces custom-fabricated to the measurements of the customer, just like in a racecar. The seat belts run through cutouts in the seat backs.

Sitting in the Audi urban concept is somewhat like sitting in an airplane cockpit. The seating position is very sporty. The driver can precisely adjust the positions of the aluminum pedals and the steering column. Both components are telescoping. The pedals can be moved a total of 22 centimeters (8.66 in), while the steering column can be moved 14 centimeters (5.51 in) for easier entry and additional 6 centimeters (2.36 in) for a custom driving position.

The steering column is exposed - a thick, elegantly designed section, open in the center and mounted virtually horizontally. At the far end of the steering column is a display for the most important information. The small, hexagonal steering wheel includes buttons and roller switches for controlling various systems, including selecting the Audi drive select modes for the electric drive system.

The entire interior of the technology study is subjugated to the strict dictates of ultra-lightweight construction. Running below the windshield across the entire cabin is a wing-shaped section that is also open in the middle. This new style of dashboard includes satellite controls for the heater and two large air vents.

Rather than carpeting, an innovative mat covers parts of the floor. This is made from a technical textile originally developed for athletic shoes that is water repellant and very durable. The seats are covered with cloth, with the edges of the foam pads framed in kangaroo leather. Aluminum applications accentuate the dashboard.

Technology
The Audi urban concept is also without peer with respect to the technical concept. The outer skin of the show car is made of carbon fiber-reinforced polymer (CFRP); the occupant cell is a mix of CFRP monocoque and an aluminum structure. This ultra-lightweight construction is the foundation for the technology study's extremely low curb weight of just 480 kilograms (1,058.22 lb).

The sophisticated chassis underscores the distinctively sporty personality of the Audi urban concept. Wishbones made from a combination of aluminum and CFRP locate the free-standing, 21-inch wheels.

Manufactured using cladding technology, the wheels are very light and feature a variant of the blade design from the Audi e-tron models. The tire sizes are as unusual as the car as a whole - 125/60 up front and 145/50 in the rear.

The Audi urban concept uses pushrod technology borrowed from motorsports. As in a racecar, the struts mounted in the interior of the monocoque are nearly horizontal. Four disc brakes provide the stopping power. The turning circle measures less than nine meters (29.53 ft) - ideal for a city car. Thanks to the vehicle's low weight, the rack-and-pinion steering does not require any power assistance. Crumple zones in the front and rear plus two airbags provide for a high degree of passive safety. An innovative assistance system helps the driver to avoid collisions with pedestrians.

The battery is mounted transversely behind the seats. The lithium-ion battery, which weighs around 90 kilograms (198.42 lb), stores 7.1 kWh of usable energy. The study's two electric motors together produce 15 kW (20 hp) of continuous power and 47 Nm (34.67 lb-ft) of torque. The motors are mounted between the rear wheels, which they drive via a single-speed transmission.

The Audi urban concept accelerates from 0 to 100 km/h (62.14 mph) in 16.9 seconds. It reaches 60 km/h (37.28 mph) in around six seconds. The show car steps off from traffic lights smartly thanks to the torque of the electric motors, which is fully available from standstill. Top speed is governed at 100 km/h (62.14 mph).

The action radius in the European driving cycle is 73 km (45.36 miles). The battery recharges completely in about 20 minutes with 400 volt three-phase current, and in approximately one hour with 230 volt household current.

Audi Wireless Charging
Audi is hard at work on the future of charging technology as an alternative to the charging at a power outlet. Audi Wireless Charging (AWC) refers to contactless induction charging. The infrastructure side, comprising a coil and an inverter (AC/AC converter), is placed on the normal parking spot of the Audi urban concept and connected to the power grid. The 3.6 kW primary coil set into the plate generates a high-frequency alternating field.

The charging process begins automatically when the urban concept drives onto the plate. The alternating magnetic field of the infrastructure side induces an alternating current across the air gap in the secondary coil, which is integrated into the vehicle. This current is rectified and fed into the vehicle's electrical system, where it charges the battery or powers consumers such as the heater. The alternating field is only generated if the vehicle is standing over the plate and thus poses no danger to people or animals.

Charging stops automatically when the battery is fully charged. The driver can interrupt charging at any time. The efficiency of AWC is comparable to that of other charging technologies. It is not affected by rain, snow or ice. The new technology makes charging electric vehicles easy and extremely convenient. A later version of the technology will be able to be integrated into the transportation infrastructure as a retrofit for parking garages or residential streets, for example.

2011 Frankfurt: Ford Evos Concept?Video?

Ford released the first images of the Evos concept.

Designed in Germany and built in Italy, the Evos is about as long as a compact car, but the sucker is wide. At 77 inches, it eclipses even the full-size Taurus. The thin lights and glass-bisected roof mirror Ford�s Vertrek crossover from last January�s Detroit auto show.



Key features of the design include the fastback body, muscular haunches, and sporty profile. This dramatic exterior also conceals a four-door, four-seat layout--yes, the Evos features two pairs of gullwing doors--and packages them in a sleek coupe like body.



Other sensors and cloud connectivity will provide "access to historical driver behavior and travel patterns," the automatic said. Such information will calculate optimal fuel and energy efficiency by predicting the destination.



Inside, Evos boasts a driver-oriented cabin with limited switchgear. Instead, the car features a high-tech, cloud-based system of displays that actively grab information to both present it to the driver and to modify the vehicle for various conditions. For example, Ford says that Evos will automatically change steering and suspension response in accordance to varying weather conditions it might discern from cloud-based information sources.

Press Release



Ford Evos Concept - The Ultimate Expression of Ford's New Global Design and Technology Vision

• Ford Evos Concept showcases Ford's first truly global design language and a new vision for customer-focused and intuitive technologies

• Dramatic four-door, four-seat fastback concept with state-of-the-art lithium-ion plug-in hybrid powertrain previews Ford's new global design language with distinctive exterior and interior design cues

• Driver engagement technologies explore seamless enhancement of the driving experience, driver well-being and smart, electrified powertrain.

• Ford Evos Concept makes global debut at the 2011 Frankfurt Motor Show

Berlin, Germany, August 31, 2011 - Making its global debut at the 2011 Frankfurt Motor Show in September, the Ford Evos Concept represents the ultimate expression of Ford's new global design language, and explores key future powertrain and vehicle technologies.



Created as a bespoke concept vehicle, the fastback introduces Ford's first truly global design language as the momentum of the company's One Ford product plan continues to build.



"The Ford Evos Concept unites three key elements which are at the core of our One Ford global product strategy: outstanding design, smart technologies and fuel economy leadership," said Derrick Kuzak, group vice president of Global Product Development.



"With its compelling design and innovative technology experience, this is a clear demonstration of the exciting vision we have for the Ford brand. While you will never see this car on the road, the next generation of Ford products around the world will display many of the distinctive design ideas and advanced technologies it showcases."



Technology vision for enriched customer experience

Ford Evos Concept is not just a design-led exercise. It also embodies the global Ford product development team's move to design and develop vehicles as more than just an interior and exterior, or a collection of attributes.



"Our goal is to focus on enriching a customer's every experience with their vehicle - by personalizing it, adapting it, and creating unique, unexpected features that surprise and delight them," said Kuzak. "In the Ford Evos Concept, this objective is explored and extended to the area of connectivity, where the intent is not to convert the vehicle into a smartphone, but rather to provide personalised and safe connection to the outside world in an enriching manner designed totally for the vehicle context."



Ford's global Research and Innovation team, led by Paul Mascarenas, was tasked with building Evos Concept around a technology experience as visionary as the design. The result signals how Ford intends to build on the momentum of innovations like the SYNC in-car connectivity system.



"At Ford, the future of technology in the car will be defined by the experience that it delivers to the driver and passengers," said Paul Mascarenas, chief technical officer and vice president of Ford Research and Innovation. "We see technology as more than just an impressive list of microprocessors, sensors and software; it's about the application of that technology to create an experience that enhances the driver's time behind the wheel."



The concept's technology experience embraces a new generation of driver interaction and awareness currently under development in the Ford Research and Innovation laboratories. Seamless connectivity between the vehicle and the driver's �personal cloud' of information is at the heart of the vision for its capabilities.



"The possibilities are fascinating when we explore how to enable a seamless lifestyle between home, office and car linked by access to the driver's personal information," Mascarenas said.



With information from the cloud, the vehicle can provide the same connected lifestyle the driver experiences at home or office. The car knows the driver, and automatically adapts handling, steering and engine controls to deliver an exceptionally dynamic driving experience.



Ford researchers are focusing their efforts in this area to deliver on four key customer benefits: personalisation, seamless enhancement of the driving experience, looking after the driver's well-being and delivering smart electrified powertrain optimisation.



The personalised, cloud-connected lifestyle

While today's Ford products provide drivers with many personalisation options, cloud connectivity will enable future Ford vehicles to take the experience to the next level.



Drawing from a detailed understanding of the driver's preferences and driving habits, the Ford Evos Concept combines this personal information with additional data from the cloud, such as the driver's work schedule and local traffic or weather conditions. This information provides a personalised and seamless experience as the driver transitions in and out of the car.



"We're researching how we can use patterns or preferences set by the driver to make life simpler," said Mascarenas. "The car gets to know you and can act as a personal assistant to handle some of the usual routines of a daily commute."



It could automatically play the same music or news program that was just streaming at home, or heat or cool the interior to an ideal temperature before the driver gets in without having to be requested by predicting departure time based on his calendar. Wirelessly communicating with devices in the home, it could close the garage door and switch off the lights automatically as it pulls away.



"This cloud-connected vision shows the enormous potential of tailoring the driving experience to suit the exact personal tastes and moods of the driver," said Mascarenas. "From recommending a great driving road from friends on your social networks or resetting your alarm clock to let you sleep in when a morning meeting gets cancelled!"



Enhanced driving experience

Ford Evos Concept explores adaptive vehicle technologies to redefine the driving experience.



Current technology requires vehicle chassis settings to be defined based upon the abilities and tastes of a cross-section of drivers and the topography of typical roads. The concept foresees tuning handling and performance to the road ahead and the specific individual behind the wheel.



Learning driver habits and capabilities, the technology can overlay map and weather data sourced from the cloud to adjust powertrain, steering, suspension and braking systems for optimum enjoyment, comfort and safety. Because the vehicle is adaptive and honed to maximum performance based on the situation, it takes driving engagement to a new level.



Driver wellness

Ford researchers have already developed technologies focused on driver wellness, such as the heart-rate monitoring seat and certified allergy-free interiors. With a seamless connection to the cloud, the Ford Evos Concept monitors the physical state and workload of the driver and adjusts the driving experience accordingly.



"Our wellness research and technologies are focused on relieving driver stress and enhancing their situational awareness," said Mascarenas. "Drivers around the world are spending more time behind the wheel, and the car should not be another stress point in their lives."



The Ford Evos Concept is also equipped with advanced air quality sensors and filtration systems to help allergy sufferers. Location aware, it can access air quality data from the cloud and proactively suggest a healthier route to the destination.



In dynamic driving situations, the vehicle may simplify the appearance of the instrument panel to display only necessary gauge information and switch the driver's connected smartphone to "Do Not Disturb" mode to help keep the focus of attention on the road.



Cloud-optimised hybrid powertrain

Completing the vision for the Ford Evos Concept is a state-of-the-art lithium-ion plug-in hybrid (PHEV) powertrain providing the same next-generation performance and fuel economy as the Ford C-MAX Energi scheduled for introduction in North America in 2012 and Europe in 2013.



Ford �powersplit' hybrid architecture allows the electric motor and petrol engine to work together or separately to maximise efficiency. The advanced powertrain typically runs in all-electric mode before switching to charge-sustaining hybrid mode for continued optimal fuel efficiency.



Cloud connectivity would provide further opportunities to enhance performance and efficiency by selecting the optimum combination of powertrain modes for any given journey.



"Access to historical driver behaviour and travel patterns allows us to calculate the optimal fuel and energy efficiency by predicting the destination," said Mascarenas. "Our researchers are working to increase understanding of driver behaviour, develop accurate protocols to predict it and enhance the trip by providing the smartest use of fuel or battery for the situation."



The cloud-optimised powertrain would automatically �know' when to save energy and switch modes, using information about the vehicle's predicted travel route, any emission zone restrictions during the journey and current weather conditions.



In the future, communities may place firm restrictions on the types of vehicles allowed to use certain roads or highway lanes, and some city centres may choose to be open only to full electric vehicles. Helping drivers comply with such regulations could therefore be among the benefits of this technology. For example, the French government is considering creating zones mandating lower emissions, while cities such as London, Berlin, and Stockholm already have them in place.



This capability would further enhance the performance of Ford's advanced PHEV technology, which offers an overall driving range of more than 500 miles (800 kilometres) using the battery and engine - more than any other plug-in or extended-range electric vehicle.



"With its leading-edge �cloud-optimised' PHEV powertrain offering outstanding efficiency and range with supreme driving enjoyment, the Ford Evos Concept highlights our vision for greener, smarter vehicles with outstanding customer appeal," said Kuzak.



Ford's new design direction

The Ford Evos Concept was specifically developed to introduce the new Ford design direction. Key design elements will be applied to forthcoming Ford vehicles.



The new global design DNA provides the company's worldwide design teams with a common framework to guide the creation of new products, enabling them to shape a coherent family of distinctive vehicles sharing the same fundamental design character.



"We wanted the Ford Evos Concept to give a clear message about where Ford design is heading - shaping vehicles that are fun to drive, have a strong premium visual appeal, and above all, are stunningly beautiful," said J Mays, group vice president, Design and chief creative officer.



"Our exciting new design DNA has been developed and refined by an intensive effort by all of our talented global design team," said Mays. "As a team, we wanted to create a more technical design vocabulary to help communicate the smart technology that is now core to the Ford brand. In addition, we worked particularly hard on meeting the high-expectations of a new generation of buyers - a group of consumers who have grown up surrounded by beautiful, premium design work on even the most affordable products."



Dramatic fastback design with unique proportions

To provide a fitting vehicle to introduce the new design language, the Ford Evos Concept was conceived as a dramatic fastback concept, combining a striking new profile with innovative proportions. Attention-grabbing lines conceal a unique new format, with a four-door, four-seat layout which combines dynamic appearance with surprising practicality.



"This is an exciting new interpretation of the fastback bodystyle, with a really innovative silhouette as well as dramatic and very modern proportions," Mays said.



With the length of a typical C-car, but with width of a CD-car, the Ford Evos Concept has a powerful, sporting stance. The forward position of the cowl, the strongly rounded front screen and the A-pillars set further to the rear enabled the designers to create the impression of a classic GT car, but with a very contemporary feel.



The concept's spectacular hinged gullwing-style doors, both front and rear, provide outstanding access to the spacious four-seat cabin.



The concept car measures 4.50m (177in) long, 1.97m (77in) wide and 1.36m (53in) high, with a wheelbase of 2.74m (108in).



Distinctive evolution

Shaped as the ultimate expression of the new design DNA, the Ford Evos Concept highlights key elements of Ford's distinctive new global design language.



"The new design DNA marks a bold evolution of the kinetic design language featured on existing global Ford products and is characterised by a number of important elements that will contribute to an unmistakable future Ford look," said Mays.



From the front, the Ford Evos Concept immediately signals the arrival of something new - a new face for Ford featuring the signature trapezoidal grille mounted higher on the car and creating a confident, more premium look.



Bold, technical shapes, such as the extremely slim �laser cut' front lamps or the dramatic graphic created by the front and rear screens connected by the thin glazed section of the roof, add a distinctive character to the design. Sculptured flanks highlight attention to detail on the surfacing, which lends a refined quality and a tauter, more muscular character.



"The Ford Evos Concept embodies the core elements of the new global design language, while capturing the dynamic, fun-to-drive spirit which is central to the Ford DNA," said executive design director Martin Smith. "Most notable is the brand new �face of Ford', with its higher mounted trapezoidal grille, and the design is characterised by the use of very bold, technical graphics. We have also created much more refined and precise surfacing, and these elements together give a strong visual sense of premium quality.



The vehicle was sculpted with the same purity of surface sculpture and attention to detail which characterise premium vehicles. Around the world, a new generation of buyers have come to expect premium design in all products, regardless of the purchase price.



Built around the driver

Reflecting the fun-to-drive spirit of its exterior design, the interior of the Ford Evos Concept is built around the driver. A stylish and innovative cockpit promises new levels of driving pleasure and driver interaction.



The interior architecture features clean and simple surfaces, with a muscular, athletic character to the slim upper instrument panel, enhanced by bold trapezoidal cut-outs. Contrasting these muscular forms, curvaceous cockpit display surfaces sweep down either side of the driver, providing secondary information about vehicle and infotainment systems.



The concept features a bold red driver's seat and the vision of unprecedented driver interaction via an advanced driver interface. The two rear seat passengers get an equally special experience, with dedicated touch-screen displays to interact with the vehicle and individually adjustable sports seats.



"Both the exterior and interior of the Ford Evos Concept clearly communicate that this is a driver's car, so that as soon as people see the vehicle, they will immediately want to get in and drive," said executive design director Moray Callum.