Video: BMW Technik Think Tank Celebrates 25 Years of Concepts

BMW Technik is the BMW Group’s research subsidiary that put simply works on the future. They step back from the day to day task of designing and building the next BMW and MINI models and focus on research and engineering at a level that’s simply not possible normally. And since the introduction of Technik 25 years ago the group has created show stopping engineering mules, concepts and even a few production components and full on cars. So with that said BMW is celebrating today with an enormous amount of photos and press releases meant to give you the full run-down on what Technik has done over the past 25 years. With it we also present you an incredible gallery of photos some of which are seen here for the first time.

via:bimmerfile


Press Release

Source of innovation. 25 Years of BMW (Forschung und) Technik GmbH.

Innovative force entails future capability. The BMW Group owes its status as the world's most successful manufacturer of premium automobiles to an outstanding development concept in all areas relevant to driving pleasure, sustainability and safety. The principles of this pre-eminence have been forged over the last quarter of a century in BMW (Forschung und) Technik GmbH. The researchers operating within the framework of this think tank develop technologies and concepts for individual mobility in tomorrow's world. The subsidiary was created 25 years ago as BMW Technik GmbH. With this company the BMW Group has a centre of competence that is unique throughout the world. It safeguards and expands technology leadership for BMW by providing a constant stream of innovations.

This groundwork is carried out autonomously, but it is by no means uncoupled from the development of series vehicles. The experts working in BMW Forschung und Technik GmbH enjoy a high degree of creative freedom that allows them to take innovative approaches and look for unconventional solutions. They make use of diverse sources of inspiration which can range
from bionics to space engineering, and they develop perspectives on the future that extend far beyond the life cycle of a vehicle model. "Our project-related research is not linked to the current product range, although we naturally have the objective of consistently optimising the characteristic features of vehicles coming from the BMW Group and transferring our projects and ideas to series development," explains Professor Raymond Freymann, Managing Director of BMW Forschung und Technik GmbH.

The concept of cooperative research also ensures that the departments responsible for subsequent series development can be integrated within the relevant project at an early stage. This approach guarantees that operations for realisation are already being monitored during the research phase. The initiators of an innovation also support their project after it has been transferred to the pre-production and series development phase. They then move with their project to the series development department at BMW AG. This provides safeguards for ensuring that information is not lost at interfaces, and it promotes a dynamic exchange of ideas on a personal level between research and series development. This strategy facilitates a strategic and efficient use of the innovative force pooled within BMW Forschung und Technik GmbH.

Competence centre in Munich and international network.

The subsidiary company was founded as BMW Technik GmbH in 1985. The main focus of activities in the early years was defined as the development and construction of concept vehicles. The minutes of the Executive Board meeting in January 1985 clearly set out the mission of the fledgling company: "The recently founded company BMW Technik GmbH has the mission to develop innovative, future-oriented and original overall vehicle concepts and sub-concepts away from the constraints of a specific series workflow schedule. However, the objective should always be to develop solutions that have the potential for series development." The initial aim was to work on projects under the working title "Auto 2000" and "Local Vehicle".

When the company was rebranded in 2003 as BMW Forschung und Technik GmbH to reflect both research and technology, the focus was shifted to developing technology that encompassed all types of BMW vehicle. The workforce currently has a headcount of around 200 at the Munich site, and BMW Forschung und Technik GmbH has extensive expertise in the areas of vehicle engineering, hydrogen technologies, alternative drive and energy management concepts, active safety and driver assistance systems, as well as information and communication technologies in the vehicle. The research and technology centre also maintains centres in the USA: the Technology Office Palo Alto in Silicon Valley, California, and the Liaison Office Clemson, South Carolina. They enjoy a close relationship with universities such as Stanford University and the Massachusetts Institute of Technology, as well as research institutes and high-tech companies in other sectors. The aim is to harness innovative trends and technologies for deployment in the automobile sector.

There is also an extensive exchange of ideas with universities and research institutes at German and European level. Participation in the Eurécom European communication network - based at the Sophia Antipolis high-tech centre in southern France - ensures that the research subsidiary of the BMW Group has access to leading-edge information and telecommunication technologies. In addition, BMW Forschung und Technik GmbH has a base at the German Research Centre for Artificial Intelligence and drives forward the automation of intelligent behaviour and hence the "Automobile of the Future".

The Munich Center of Automotive Research (CAR@TUM) established as a joint venture with Munich Technical University gives the subsidiary of the BMW Group permanent access to high-flying young academics with great potential for the future and it also ensures access to important results derived from ground-breaking scientific research.

BMW Forschung und Technik GmbH also works on state-financed research projects at national and international level together with other automobile manufacturers and suppliers in order to create industry-wide standards, ultimately for the benefit of all customers. One of the latest examples of this work are the field trials for vehicle-to-vehicle communication in the project entitled "Safe mobility - Test bed Germany", abbreviated to simTD.

Anniversary: Premiere for fascinating concept vehicles and pioneering technologies.

The history of BMW Forschung und Technik GmbH has been defined by a long track record of concept vehicles and technological innovations which generated pioneering impetus for the development of series vehicles, components and systems. The influence of research projects exerts varying effects on series development, depending on the subject focus and complexity. The scope ranges from direct implementation in the form of a concrete project to long-term development of technology competence. BMW Group Research and Technology is presenting a selection of projects to celebrate this landmark anniversary. The specialists working at the centre have developed these projects and some of them will be experienced for the first time outside the confines of the well-guarded laboratories and workshops.

One of the first projects to be launched by the fledgling subsidiary company was the prototype for a BMW Z1 Coupé developed in 1988. This vehicle was created within the framework of a concept development based on the very first project of the new subsidiary - the BMW Z1 roadster produced in a limited series. The development engineers were interested in methods and technologies to facilitate a maximally efficient extension of a vehicle concept to additional derivatives. The knowledge gained from this project was used for the BMW Z3 series model, which was produced as a roadster and coupé, and for the first generation of the BMW Z4, which was also manufactured in open-top and closed versions.

A fuel-cell hybrid vehicle based on the BMW 1 Series is another project being presented in the public domain for the first time. This project developed by BMW Forschung und Technik GmbH shows a highly innovative form of hybrid technology developed within the framework of Efficient Dynamics in conjunction with the use of hydrogen as a fuel. Alongside a four-cylinder petrol engine, the research vehicle has an electric power unit for city traffic. The electrical energy is generated by a small fuel cell in the form of an Auxiliary Power Unit (APU) and stored temporarily in high-performance capacitors. These so-called super caps cover the performance peaks for acceleration and taking off at traffic lights, and store the electricity generated during braking. Using a comparatively small fuel cell to generate electricity from hydrogen achieves a high level of efficiency for city traffic, while the internal combustion engine is only used for high-speed journeys. This combination could have the capability to provide an emission-free range of several hundred kilometres in city traffic and facilitate "recharging" within the space of a few minutes - this is in addition to the mobility reserves provided by the internal combustion engine for long-distance travel.

BMW Forschung und Technik GmbH is also celebrating its anniversary by providing a unique insight into innovative projects in the area of intelligent networking between driver, vehicle and environment. BMW ConnectedDrive already delivers a package of driver-assisted systems and mobility services that is unique throughout the world. These systems enhance comfort and safety, as well as optimising infotainment functions in the vehicle. The current research projects in this area include the narrow-passage assistant, which assists drivers if they are driving along particularly narrow lanes, for example near building works, and the emergency stop assistant which brings the vehicle safely to a stop if there is a medical emergency.

The latest success of the joint venture between BMW Forschung und Technik GmbH and Munich Technical University (CAR@TUM) is also presented. The project "IT-Motive 2020" involves the researchers developing an innovative architecture for information and communication technology integrated within the vehicle that permits functions previously distributed over a large number of different control units to be pooled in a homogeneous communication network. The aim is to provide a consistent hardware platform for displaying the continually expanding number of vehicle, comfort and safety functions.

Milestones: from the BMW Z1 to the lightweight sports coupé BMW Z29.

BMW Technik GmbH was launched in 1985 with the mission to develop innovative solutions for a large number of aspects associated with individual mobility. The specialists working in the newly established department were able to get to grips with this mission successfully in the very first project they tackled. They developed the BMW Z1 roadster. This vehicle project was intended to trial innovative materials, launch a revolutionary bodywork concept, and highlight opportunities for optimising development processes.

The result was so impressive that already three years later the first out of a total of 8 000 series vehicles left the Munich BMW Plant. With its plastic body, vertical sliding doors and fascinating handling properties, the BMW Z1 was not simply the first milestone in the history of BMW Technik GmbH - it also made its mark as an exceptional phenomenon on the road.

Revolutionary body and power-unit concepts were to shape development operations during the years to come. In 1993, the BMW Z13 was presented, a compact vehicle with a sporty design powered by a rear-mounted engine and three seats in an unconventional configuration. The driver was positioned behind the centrally located steering wheel, with seating space being provided behind the driver for two passengers. The study featured the driving pleasure typical of the brand, a high level of comfort, and outstanding safety attributes.

BMW E1: pioneer for electro-mobility.

The same year already saw BMW Technik GmbH presenting the BMW Z15. This first fully functional concept vehicle with pure electric drive was a development of the BMW Z11 electric vehicle presented at the Frankfurt Motor Show in 1991. As a prototype with the model designation BMW E1, the four-seater incorporated a design with pioneering aerodynamic and
ergonomic features that provided impressive testimony to the superlative potential of its emission-free drive technology even in normal everyday use. The BMW E1 provided a range of up to 200 kilometres and a top speed of 120 km/h. The prototype generated universal acclaim among members of the public and independent testers. The readers' choice in car magazine "Auto Zeitung" voted the BMW E1 as the winner in the category "Environment and Technology", and trade magazine "Auto Bild" described the BMW E1 as "the most advanced car of the century".

At the time, it was already evident that BMW was in a position to achieve typical BMW driving characteristics and operational capability geared to city driving with a purely electrical power unit. Series development would also be achievable if a battery technology with optimised power and cost could be developed. Today, BMW is continuing to build on this knowledge base in the context of project i: it provided the impetus for the development of a Mega City vehicle designed for emission-free mobility within large urban environments. An innovative vehicle concept and the most recent developments in the area of power unit and energy storage technology form the basis for a state-of-the-art presentation of electrical mobility.

New routes to maximum driving fun: BMW Z18 and BMW Just 4/2.

The development of the prototypes launched in 1995 also saw the specialists at BMW Technik GmbH searching for new and sophisticated approaches to driving pleasure. One of their ideas focused on designing an automobile counterpart to the Enduro motorcycle concept that was so successful during the 1990s. The yearning to explore off-road terrain and the pleasure of mobility under the open skies was combined for the first time on four wheels in the BMW Z18. An eight-cylinder engine, four-wheel drive, a variable interior concept and elevated seating characterise the innovative driving experience in the robust roadster.

The BMW Z18 had to wait five years after it was created for its public debut - the occasion was the celebration of 15 years of existence for the think tank. Another prototype that offered the prospect of driving fun while having previously been confined to motorcycles captivated the driving public at the Tokyo Motor Show in Japan as early as 1995. Freestanding wheels, a body that abandoned roof and windscreen, and a rear-mounted four-cylinder engine packing 100 hp were the hallmarks of the study where the two-seater concept was already integrated in the model designation - BMW Just 4/2.

Festival of innovations: The BMW Z22.

The BMW Z22 was among the most sophisticated technology platforms that BMW Technik GmbH ever created. The study was presented in 1999, and it bristled with no less than 70 innovations and 61 registered inventions in areas ranging across body concept, lightweight construction, power unit, safety, mechanical systems and controls. The use of carbon-fibre reinforced plastic in an innovative processing procedure permitted compliance with the highest crash safety standards while at the same time significantly reducing weight. Power steering, an electromechanical braking system, cameras instead of wing and rear mirrors, and a cockpit design reduced to the bare essentials defined the mould-breaking, future-proof character of the BMW Z22. Adaptive headlights, Head-up Display and central control unit enabled the prototype to offer innovative functions that were soon implemented further down the line in BMW series vehicles.

Consistent lightweight construction for uncompromising driving pleasure: The BMW Z29.

Optimization of the vehicle weight by deploying the most advanced high-tech materials was the focus of development for the BMW Z29 concept study. The prototype of a two-seater sports car was completed by BMW Technik GmbH in 2001 and represents the culmination of cooperation with another subsidiary of the BMW Group - BMW M GmbH. The vehicle exerts
fascinating appeal with flowing lines and lambo-style doors. The principles underlying the outstanding potential of the BMW Z29 for dynamic driving can be found under the engine bonnet and below the surface of the paintwork. The power was generated by the in-line six-cylinder engine of the BMW M3 - at that time a technological benchmark - and the passenger cell was manufactured from carbon-fibre reinforced plastic while the rear axle, and front and rear module were designed in aluminium. The most important results of this combination: a weight-to-power ratio of 3.4 kg/hp and an acceleration ratio of 4.4 seconds for the sprint from a standing start to 100 km/h.

Research as foundation for Efficient Dynamics.

The Efficient Dynamics development strategy provides the BMW Group with the world's most efficient programme for reducing consumption and emission values in road traffic. The development of power systems with optimised efficiency, smart energy management in the vehicle, and aerodynamic measures form the key supporting aspects of this strategy, complementing lightweight construction throughout. BMW Group Research and Technology has made significant progress in all these areas since the company was established and the results have been channelled into the series development of many different new models.

Intensive fundamental research has also been carried out in the context of the development of innovative and alternative propulsion systems. The spectrum of research ranges from new concepts for the classic internal combustion engine, through hybrid technology and the deployment of hydrogen as a fuel in the vehicle, to electro-mobility. This demonstrates that research covers all the areas that today form the mainstays of the Efficient Dynamics development strategy.

Hybrid concepts: more efficiency, more driving pleasure - right from the start.

The BMW ActiveHybrid 7 and the BMW ActiveHybrid X6 are the first two models of the brand available in 2010 to use a combination of internal combustion engine and electric motor. Each model deploys a unique platform of BMW ActiveHybrid technology while also presenting a characteristic homogeneity: BMW ActiveHybrid presents tangibly enhanced dynamic
driving accompanied by significantly reduced consumption and emission values. This twin-track advance is manifested in the BMW EfficientDynamics development strategy, and from the start it shaped the ground-breaking work carried out by BMW Forschung und Technik GmbH in hybrid technology. Hybrid technology in the style of BMW advances efficiency and intensifies driving pleasure.

The hybrid concept car based on the BMW 5 Series and developed in 1994 already facilitated fully electric and hence emission-free driving with characteristic features optimised for city traffic. The car's power-unit technology configured as a parallel hybrid drive combined a four-cylinder petrol engine with an electric drive which generated a maximum output of 26 kW. The energy stored in a nickel-metal hydride battery was sufficient to power the car over a range of eleven kilometres in purely electric drive mode. Today, hybrid technology in the BMW 5 Series is more relevant to the modern world than ever before. It is well on the way to series maturity, as demonstrated at the Geneva Motor Show in 2010 when the BMW Concept 5 Series ActiveHybrid was featured and bore impressive testimony to the technology.

Within the space of just one year, the researchers had developed another hybrid concept vehicle and significantly extended the range of the vehicle solely under electric power. The BMW 3 Series with serial hybrid technology was primarily intended for city traffic and was able to travel a distance of 38 kilometres with the internal combustion engine switched off. Two electricmotors supplemented the four-cylinder petrol engine. One of them provided the propulsion while the other served as a generator within the system.

Researchers presented a hybrid vehicle based on the first generation of the BMW X5 in 2001, and this demonstrated the progress that had been made in the area of drive and energy-storage technology. The study combined an eight-cylinder petrol engine and an electric motor to generate a maximum combined torque of 1000 newton metres. The high-power capacitors known as supercaps were the most important innovation in the first vehicle to be named after the Efficient Dynamics strategy. They were deployed as energy storage devices with particularly high power density. The BMW Concept X3 EfficientDynamics consistently progressed development of supercaps integrated in the side sills. The technology was presented at the Frankfurt Motor Show in 2005. The specialists at BMW Forschung und Technik GmbH were also able to present new solutions for integrating the internal combustion engine and electric motor. BMW Concept X3 EfficientDynamics integrated the electric motor including performance electronics in a compact active transmission.

Option for the future, already operating today thanks to intensive research: hydrogen as a fuel.

Over the long term, the BMW Group is also committed to using hydrogen as an alternative fuel in vehicles. The use of hydrogen produced with assistance from renewable energy sources offers the option of emission-free mobility for the future. The capability of this power-unit technology for everyday use has already been demonstrated with the BMW Hydrogen 7. This car passed through the complete series development process before being manufactured as a limited series. The world's first hydrogen-powered luxury saloon for use under everyday conditions is powered by a bivalent twelve-cylinder internal combustion engine and has been made available to selected customers worldwide. They have meanwhile travelled a total of more than four million kilometres driving the BMW Hydrogen 7.

On the way to the BMW Hydrogen 7, BMW Group Research and Technology set up a large number of research projects and concept vehicles, leading to a much better understanding of hydrogen technology and the framework conditions for use in the automobile. A precursor to the BMW Hydrogen 7 was presented in 2000 as the BMW 750hL and used as a shuttle vehicle atthe Expo World Exhibition. The following years saw the BMW 750 hL driving more than 170 000 kilometres in a practical test during the "Clean Energy World Tour". Other pioneering achievements were provided by the BMW H2R hydrogen record vehicle. In September 2004, the model powered by a twelve-cylinder engine set up nine international records for hydrogen-powered vehicles with a piston engine at the BMW test track in Miramas, France. The car achieved a top speed of more than 300 km/h.

Research is currently focusing on the challenges that still have to be mastered for the application of hydrogen. Milestones are the development of a hydrogen-four-cylinder cryogenic test engine and modular hydrogen single-cylinder research engines with combustion chamber geometries similar to petrol and diesel engines that achieved outstanding levels of performanceand efficiency for hydrogen engines. The other innovations developed by BMW Forschung und Technik GmbH in the area of hydrogen technologyinclude a variable shape tank with optimised weight made of carbon-fibre reinforced plastic for storing hydrogen in the vehicle and a reformer system for generating synthesis gas as a concept for effective emission reduction inthe cold-start and catalytic-converter heating phase.

Another field of research involves tracking fuel cell technology with consistent focus on application for generating electricity to power the vehicle's on-board supply. Use of the fuel cell as an Auxiliary Power Unit (APU) has been undergoing development since 1997 at BMW. Consistent further development over the subsequent four generations of technology has resulted in a continuous increase in efficiency and permanently optimised compatibility with everyday use. These advances are being demonstrated with the fuel-cell hybrid vehicle on the occasion of the anniversary.

Connected Drive: networking as the key to more comfort, security and driving pleasure.

The development of electronic systems facilitates smart networking between driver, vehicle and environment, and BMW Forschung und Technik GmbH has played a major role in enhancing comfort, safety and driving pleasure. Many of today's series vehicles feature driver assistance systems, mobility services, and systems for integrating external communication andentertainment modules that are based on innovations developed by BMW Forschung und Technik GmbH.

Motivated by the objective of opening up new perspectives for networking with the outside world and creating the foundations for the necessary technology, the specialists at BMW Group Forschung und Technik GmbH are working on assistance systems that extend way beyond the scope of the assistance systems integrated in current series vehicles.

Advanced assistance systems created by the research department of BMW Forschung und Technik GmbH include the TrackTrainer, which is supported by a melding of highly specific data from digital mapping, GPS and video and allows racing tracks - even the North Loop of the Nürburgring - to be negotiated autonomous in an ideal line. This system is used for training purposes during BMW Driver Training.

The emergency stop assistant developed in the context of the research project "Smart-Senior - Intelligent Services for Senior Citizens" uses the capabilities developed for the TrackTrainer to enhance traffic safety. The system is able to change to autonomous drive mode if an emergency situation caused by a health problem with the driver is identified, in order to carry out a safe emergency braking manoeuvre. Apart from reliable localisation of the vehicle within the lane, precise execution of the manoeuvre primarily involves robust identification of all the vehicles in the immediate environment.

Another research project in the area of automatic driving is the garage parker debuted in 2006. This system permits independent manoeuvring of the vehicle. All drive, braking and steering functions are controlled automatically to enable the vehicle to be steered in and out of a garage where space is restricted using remote control by the driver. If required, the system also activates the warning indicators and the headlamps, as well as swinging the wing mirrors in and out. The sensors for stopping the car automatically are naturally also activated if an obstacle is encountered.

More safety and efficiency through targeted communication.

A key area of development for our research subsidiary is interchange of information between vehicles and the traffic infrastructure, known as Car-to-X Communication (Car2X). One example is transmission of information about sequence times from traffic light systems. This means that a driver assistance system can either get information about the optimum speed so that cars can hit an individual green sequence of traffic lights and travel without stopping, or issue a warning about the possibility of going through a red light. Strategic transfer of data about the traffic situation, conditions on the carriageway and other factors allow early warnings to be broadcast from one vehicle to other drivers in the immediate environment about accidents, traffic jams or the formation of black ice. It is also possible to calculate the risk of collision based on the transmitted vehicle data so that warnings can be given in advance of potential crashes at junctions. As a manufacturer of cars and motorcycles, the BMW Group is in the unique position of being able to integrate both types of vehicle in the communication scenarios.

BMW Forschung und Technik GmbH also carries out ground-breaking work in the development of revolutionary operating concepts and control systems. One example of this is the concept of an entirely innovative cockpit design presented in a second-generation BMW 3 Series compact, with the Drive Stick as the focal point. Instead of steering wheel, accelerator and brake pedal, the concept vehicle has two control levers projecting vertically from the door panel and the centre console. These allow the driving direction, acceleration and deceleration to be controlled using drive-by-wire technology. The Drive Stick Car project provides a particularly vivid example of the abilities of the specialists working at BMW Forschung und Technik GmbH to ask questions about basic assumptions, deploy a high level of creativity in seeking out radically different solutions, and harness the potential of innovative technologies. The knowledge collected in this project played a major role in influencing the evelopment of the electromechanical power steering and active steering marketed for BMW series models. It also provides the typical BMW steering feeling under the conditions of power steering support.

From sailing yacht to car: Optimised Head-Up Display technology.

Their fundamental research and technology development continually encourages the researchers to look at issues that at first glance appear to be way beyond the scope of the automobile. However, over the long term the knowledge gathered in this way is channelled into projects that lead to an increase in comfort, safety and driving pleasure within the context of BMW ConnectedDrive. The team from the Technology Office located at Palo Alto in the US developed a miniature head-up display integrated in the sunglasses of the crew members in the Oracle BMW Racing Team. This system was designed for use in the ocean race for the America's Cup and allows information and commands to be transferred speedily and selectively by projecting it onto the lenses of the sunglasses. This project generated additional know-how that was used for the advanced development of the Head-up Display in the latest series vehicles of BMW.

Identification and integration of new technologies as a recipe for success: BMW ConnectedDrive Services with functionality that is unique worldwide.

Defining principles were also identified by the Technology Office in Palo Alto for integrating external communication and entertainment modules in the vehicle. The first interface for integrating the Apple iPod was developed there and this included the option of using the BMW iDrive System to control the audio function. The pioneering work carried out by BMW Research and Technology has secured BMW a unique position for the integration of external communication and entertainment systems in the vehicle. The systems and services integrated within BMW ConnectedDrive guarantee functionality that remains a world first not matched by any other automobile manufacturer worldwide.

Innovative services for future mobility solutions are already being developed today, including the technology required for these concepts. The BMW Group Technology Office Palo Alto joined forces with other technical departments to develop an iPhone application for the BMW Concept ActiveE vehicle. This application delivers vital information directly to the driver's mobile phone, including data concerning battery charge status and the potential range of the vehicle running on electric power alone.

The prototype of a multifunctional car key was also developed as a means of networking the mobility experience with the driver's lifestyle. The BMW Key is provided with a security chip that allows the driver to make cashless purchases while also enabling other functions such as memorising the e-booking for hotel rooms. The driver's key has integrated credit card functions which offer the possibility of e-booking for bus, train and air travel while in the car and storing the purchased e-tickets on the key. When using hire car or car-sharing systems, the personalised key offers additional potential because it is assigned to the owner of the vehicle rather than to the car itself.

Chevrolet Corvette C7 To Utilise GM's Global Design Strength

GM is about to try something new: making Chevrolet's Corvette appeal to international markets. The General is soliciting designs from all ten of its styling studios, meaning that more than just American-market brains are weighing in.

Ed Welburn, GM Vice President of Global Design, said that Chevrolet will draw from the General's global talent pool in designing the new Corvette.

Welburn said that the global approach to the new Corvette - a Chevrolet icon traditionally designed entirely in the US - will give the sports car an international flavour and a stronger appeal for younger buyers both at home and in the European market.
more detail. ...

Geneva 2010: Seat IBE Concept

IBE Concept, is the latest creation from Seat and will be unveiled tomorrow at the Geneva Motor Show and is set to show us the design lines of the upcoming cars from the Spanish manufacturer.


In addition to the 2+2 coupe EV, the VW-owned company is also said to be working on a petrol/electric hybrid based on the next Volkswagen Golf platform. A Seat Leon plug-in hybrid is also planned for release in 2014.


The new Seat IBE Concept is a fully electric car and will carry a 102 hp engine capable to deliver a maximum torque of 18 kWh. This means that the car will borrow the same engine from the A1 e-Tron, set to make its official debut at the same Geneva show. Regarding its performances the car will be capable to sprint from 0 to 50 km/h in just 3.4 seconds, to 80 km/h in 6.3 seconds and to 100 km/h in 9.4 seconds. Unfortunately these are the only details available for the moment but stay tuned.


At Geneva, the IBE Concept was shown with a 75-kiloWatt (101-hp / 102-PS) motor that produces up to 200Nm (147 ft-lb) of torque. The car sprints to 50 km/h in 3.4 seconds, and 100 km/h in 9.4s. The 3.78-meter long coupe weighs 1,000 kg (2,205 lbs).


via:4wheelsnews worldcarfans

Geneva 2010: NLV Quant Concept

The second generation NVL Quant made its public debut in front of media yesterday in Geneva, bringing with it what NVL Solar, its creator, calls "a breakthrough the market eagerly has been anticipating for years." While this last statement is a matter of interpretation, the Quant does bring a range of interesting features. The most exciting thing about it, however, is the promise to turn production version rather sooner than later.


Set to be production ready next year, the Quant was designed to prove "cutting-edge supercars can combine speed, comfort and enjoyment with environmental integrity." It features two different battery systems ("a long-life metal-air battery or a rechargeable redox flow cell"), four torque-vectoring electric motors, a full carbon fiber chassis, and a revolutionary thin-film coated photovoltaic body.


The Quant has some initial performance figures which would give a regular, internal combustion engined supercar, a good run for its money: 2.8 seconds 0-100 km/h acceleration time and a top speed of 377 km/h (234 mph).


The latter converts light into electricity to supply the operating electronics and the battery. While it's a bit technical, NLV says the coating has "an average photovoltaic conversion efficiency of 38%, depending on ambient conditions, and a peak performance of over 50%." More importantly, the company believes they can tune the material's absorption characteristics to create multiple layers with their own unique absorption frequency. As impressive as this is, NLV estimates the film will have a degradation coefficient of only 5-6% over 20 years.


The Quant comes with four airbags, ABS and ESP, two infotainment panels for the rear seats, zone Climate Control system, LED front and rear lights and, la piece de resistance, NLV photovoltaic thin film solar coating all over the body of the car.


More Photos



Press Release

NLV Solar AG, a pioneer in photovoltaics and accumulator technology, have joined forces to create the Quant sport. The brainchild of this marriage of power and energy is a four-seater electric car - a breakthrough the market eagerly has been anticipating for years. A prototype is to be unveiled at the Motor Show Geneva 2010, with currently working to scale up for series production.

The NLV Quant is an exciting, revolutionary automotive project. Within the coming year, the NLV Quant will be fully engineered and ready for production. You can follow the last few stages. The design, drive system, range and photovoltaics of the Quant are already spectacular and record-breaking as individual components, and we believe that together they will mark a milestone in automotive history.

Technics

The NLV Quant is proof that cutting-edge supercars can combine speed, comfort and enjoyment with environmental integrity. It implents the mobile energy technology of the future. The NLV Quant has two different battery systems, a torque vectoring with 4 electric motors and a full carbon chassis. A thin-film coated photvoltaic car body supplies the operating electronics and also supports the battery. Gull-wing doors provide easy access to all four passengers.

Carbon Chassis

A reason for the car's low weight is the utilisation of a carbon-fibre monotube backbone chassis, construction, which houses the FAES system safely inside the centreline of the car at the lowest possible position, bringing down the centre of gravity and central mass point.

Using tradition lay-up, the vacuum bag generates the pressure for consolidating the carbon plies. In RTM process there are two moulds and the pressure comes only from the resin pump. The design becomes quite critical as inner and outer skin has to be perfectly defines in order to have a designed volume matching exactly the tooling volume. The risk is to have voids generated by not precise fitting of the inner cores.

Thin Film

The NLV Quant is coated with a thin film made of pyrite, which converts light into electricity to supply the operating electronics and also support the battery. This innovative pyrite technology is cost-effective, efficient and ecological.

NLV Solar AG has developed an iron-sulphur composite semiconductor using digital prototyping, with very promising results. The research indicates:

• an average photovoltaic conversion efficiency of 38%, depending on ambient conditions, and a peak performance of over 50%

• the possibility of fine-tuning the material's absorption characteristics by modification of its crystal lattice structure using ion implantation; stacked in a multilayer thin-film cell, it would be possible to tune each layer to a different target absorption frequency

• as a thin-film cell, the material could be applied to substrates in a transparent, semi-transparent or tinted coating

• the projected degradation coefficient is only 5-6% over 20 years

Electric Power

The NLV Quant allows for the modular installation of either a long-life metal-air battery or a rechargeable redox flow cell. These are both future-oriented, secure energy sources which help give the Quant exceptional power and range.

Speed

The projected curb weight of 1680 kg is very light considering that it is a battery-powered, four-seater, luxury performance car. This is partly due to the four-motor installation- a remarkable achievement which allows the NLV Quant to deliver 0-100 km/h in 2.8 seconds and hit a top speed of 377 km/h.

Gullwing

The gull-wing doors set the NLV Quant apart from any other four-seaters on the market. As well as being a stylish feature, they also make entry to the car more ergonomic, thanks to the lack of B-pillars. They provide easy access to both the front and rear passenger seats. The unique split side-lite feature allows either passenger to open and close the front and rear side windows separately, despite the fact that there is only one door per side.

Preliminary Specs

• Power: 600 kW ( 4x 150 kW), 800 bhp
• Rotation speed 12'000 U/min
• Torque: 1500 nm
• 0-100 km/h: 2,8 seconds
• Top speed: 377 km/h
• Curb weight: 1680 kg
• Wheelbase 3102 mm
• Track - Front: 1730 mm; rear: 1729 mm
• Wheels/tyres ? front: 245/35 - 23"; rear: 285/30 - 23" - low friction tyres
• Width: 2016 mm incl. rear-view mirrors; length: 4879 mm; height: 1335 mm
• Rear-wheel drive
• Four-wheel brake regeneration
• Minimum 4 airbags, ABS and ESP and torque vectoring
• 2 infotainment panels Adjustable rear seats
• 3 zone Climate Control system
• Generous leg room in the rear
• LED front and rear lights
• Body covered in NLV photovoltaic thin film solar coating
• Accumulator with cooling liquid (weight ca. 500kg)
• Operating voltage 420 V
• Inverter voltage 350 V
• Price: TBD

Features

• NLV Quant has two different battery systems: on the one hand, purely conventional accumulator technology with a transition metal and air mixture, and on the other hand, a pure redox flow cell

• Thin-film photovoltaic coating of car body and windows

• Torque vectoring with 4 electric motors for wheel-specific torque distribution to enhance the vehicle's agility and stability

• Full Carbon chassis and carbon body

• Minimised running and manufacturing costs thanks to new technology

• Optimised safety

• Unique/functional design, vehicle comfort and loading capacity

Geneva Debuts: Gazal 1 Design Concept

Fifty students from the King Saud University in Saudi Arabia worked on this Gazal 1 concept car from April 2009. It has now been presented at the Geneva Motor Show. The students worked in collaboration with Magna Steyr on the engineering side and Studiotorino for styling. Over 50 sketches were offered and the final one chosen in May last year. An Australian designer named Peter Arcadipane was called on to supervise the whole project.


Every aspect, from styling and engineering feasibility to a running prototype were conducted in both Riyadh city and Turin where Magna has its Italian office. The prototype will be unveiled in Riyadh some time this year to mark the end of the project.


The main brief was to create an SUV with certain classical undertones but modern at the same time. It would be based on the Mercedes-Benz G-Class in terms of chassis and mechanics.


As for the name, Gazal is a reference to the very fast Arabian Gazelle, an apparently extinct antelope identified with the Saudi Arabian area. Green is said to be quite popular with Arabian people so it became the main colour of choice.




Press Release

The Project

The Gazal 1 styling model, presented at the 2010 Geneva Motor Show on the King Saud univesrity stand, is the result of the first "project" of KSU automotive engineering degree course in Riyadh.

The "project" management dedicated to fifty students, running from April 2009 within end 2010, totally cared by KSU docents was supported by external partnerships with Magna Steyr Italy for engineering along side Studiotorino for styling as mentors.

Academic lessons, covering all aspects of automotive development, including styling and engineering feasibility as well as the engineering and construction of the styling model and the first running prototype, were conducted in Riyadh in parallel to "on the job" training In Turin.

Within 2010 the running prototype will be presented in Riyadh and will signify the completion of the KSU automotive project.

Beyond the academic and technical aspects of the project, the experience provided a good opportunity for co-operation, cultural exchange and the development of new friendships.

The Style

The styling requirements given to Studiotorino by King Saud University and outlined in the first meeting in Riyadh on April 7th 2009, were very clear: this new SUV would be classical, contemporary and durable whilst avoiding short lived fashion and would to be based on the chassis and mechanics of the long wheel base Mercedes G-class.

Studiotorino called on the expertise of Peter Arcadipane, an Australian designer of thirty years experience in some of the best known Automotive design studios around the world, cooperating directly in team with the KSU students. Over 50 sketches side view proposals were presented and the academic body began a selection process which led to the final choice in May 2009.

Along side the KSU students and the supervision of teachers from the University, Magna Steyr Italy carried out the development of the digital surfaces used for the construction of the styling model presented at the 2010 Geneva Motor Show.

The "environmental graphic study" only for the style sketches comes from the stage offered to Studiotorino by the I.A.A.D. design institute in Turin and their students, in optic of collaboration among schools.

The name "Gazal 1" and the colour green were selected by the university staff for their local significance. Gazal refers to the Arabian Gazelle, a fast, strong and particularly well adapted animal to the region and green being one of the most popular colours amongst Arabian people.

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From Concept To Reality: Ford's 2005 Mustang Coupe and Convertible

Ford's Mustang, the quintessential pony car, is one of the oldest nameplates in the business. During its 45+ year run, the Mustang has provided a variety of power trains under its hood, from 4-cylinders to coachbuilt (and Lamborghini-sourced) V10s.

It has also provided people with near-endless variety. From the mainstream Shelbys and California Specials (both of which have returned for up-and-coming red-light racers), to lesser-known variants like the Twister and High Country Specials, the Mustang has always offered something for everyone.

Read full story from carscoop

HALO-esque Mercedes C.S.V. Concept

Hold on to your head because you’re mind is about to be blown away by this concept called C.S.V. (Cyborg Sensation Vehicle). Inspired by the Mercedes F400 concept, this off-road capable 2-seater is targeted to young adventurous professionals in 2040.

It’s pretty obvious, (thanks Captain Oblivious) what the core concept of this vehicle is just by name. Technology and organics are bound to merge sooner or later. Imagine driving just by thinking. When you sit in the driver’s seat, your though patterns are sent to the vehicle, thus becoming an extension of your body. There’s no need for analog controls.


The implications for such technologies means someday we’ll know how to interpret, map out, and respond to human neural patterns. If you can put that thought aside for a second, lets focus on the design. There’s a lot of F400 in there but the designer wanted to give the vehicle an organic flavor, hence the muscle fibers flanking each side, neatly tucking into a hidden skeletal system. The result is a design that takes Mercedes Benz DNA and evolves it into an organic object mimicking its pilot.


Source: Yanko-design

Geneva 2010: Porsche 918 Spyder Concept

Porsche's Carrera GT supercar has been out of production for a few years now, and its numbers have been rapidly diminishing as tuners and ill-talented drivers do their worst. At this year's Geneva Motor Show, Porsche is planning a 918 Spyder Concept that looks staged to replace it, and though it doesn't share much in common with the previous supercar, it builds on its spirit with a huge dose of modern technology and style.

Powered by a 3.4-liter V-8 engine and a hybrid drive system, the 918 Spyder Concept could preview a new supercar from the company. We're not expecting it for another year or two at the earliest, however, as its 9,200-rpm, 500-horsepower output and 78-mpg efficiency are sure to prove difficult to render in production. Performance isn't hampered by the hybrid drive system, however: 3.2 seconds to 62 mph, 198 mph top speed, and a promised Nurburgring Nordschleife lap time of under 7:30--faster than the Carrera GT that preceded it. Electric motors on the front and rear axles contribute 218 horsepower to the mix.


The power is sent to the rear wheels via a seven-speed PDK dual-clutch unit, while the front wheels are driven by a fixed transmission ratio.

Drivers lucky enough to hop behind the wheel can choose from four driving modes, including E-Drive, which maximizes efficiency by using electric power only for up to 16 miles. Hybrid mode uses both systems in conjunction to deliver an efficienct around-town ride. Sport Hybrid mode adds some spunk to the system, using Torque Vectoring to improve the car's dynamics further. Finally, there's Race Hybrid mode, which pulls out all stops and maximizes performance of both systems. The hybrid system becomes a push-to-pass system in Race Hybrid mode, helping to boost power for overtaking.


A high-tech exterior of lightweight materials is complemented by the latest in Porsche interior design and features, indicating the car is in fact headed down a production path despite its current concept-car status.

Two other Porsche hybrids will join the 918 Spyder on the stand at Geneva, including the Cayenne hybrid and the 911 GT3 R Hybrid race car, which uses a F1-derived KERS kinetic hybrid system.
via::motorauthority

Geneva Motor Show: Citroen Survolt bridges the divide

SURVOLT: GLAMOROUS, FREE-SPIRITED AND HIGHLY-CHARGED!

Survolt is the continuation of CITROËN'S exploration of distinctive and original electric vehicles, initiated with the Revolte concept car revealed at last year's Frankfurt Motor Show. Survolt turns received notions on their heads through its radically new vision in a consummate blend of high-fashion glamour and extravagance with motor-racing punch.

The desire to overcome one's limits, take things further, dare and create is written in CITROËN'S DNA. Breaking with convention, shaking up the rules, shifting borders and surprising continuously is the passionate quest and leitmotiv of a brand that over its 90-year history has never ceased to develop innovative objects ahead of their time. Survolt is one of these. It takes the genetic material of Revolte and adds an extroverted sports dimension to the mix.

Like a luxury accessory that transcends an outfit, Survolt is CITROËN'S answer to an automotive universe that all too often seems morose. Survolt casts aside protocol and transgresses existing codes to initiate a new kind of stylish, sporty and elegant supermini. Bucking current trends and pointing to the future of sleek coupés, it unites elegance, glamour and sporting passion, sublimating this last quality with its electric drivetrain.


Innovative and sensual

With its compact dimensions – 3.85 m long, 1.87 m wide and 1.20 m high – Survolt reappropriates sports car styling cues to form an all-new and revolutionary concept.

At the front, the distinctive vehicle badge reigns elegantly above the large oval-shaped grille, its centre home to the striking double chevron. The car's "look" – charming and profound at the same time – attracts and holds the viewer's gaze with a promise of transgressions suddenly made possible. Its slim, horizontal head lamps, inspired by high-performance sports coupés, exert a magnetic appeal, while an LED light signature adds a contemporary, high-tech touch.

Survolt was made to gobble up the miles and glide over roads. Low-slung and sleek, it features strong contrasts between the voluptuous bonnet and generous, sculpted flanks, highlighted by emphatic wheel arches that promise performance and thrills.

Survolt's air-slicing, flowing design is heavy on excitement and sensuality. It conveys agility, precision and vitality, barely containing a powerful, well-defined musculature under refined and luxurious wraps. The rear features the elegant light signature of Revolte together with a spoiler in an essential reference to motor sport.

Survolt is innovative and powerful but also knows how to turn on the charm, revealing its finest assets to catwalk in motor sports arenas. It features two-tone paint, hues of fuchsia and charcoal grey, and plays with materials and volumes. The curves shift from satin-smooth to shiny, breaking definitively with the classic masculine codes of the sports world. Survolt continues the work begun with Revolte by once again blending two universes with contrasting appearances. Survolt eschews decorum to create its own styling language.

The inclusion of materials such as chrome and aluminium inevitably recall the spheres of luxury goods and motor sport. Survolt is a perfect combination between high fashion and car racing, a unique alliance with the same philosophy and the same cues as Revolte, namely performance, cutting-edge technology and excellence.


Elegantly sporty

Survolt's cockpit is designed like a floating cell, a glass setting held between chrome-finished roll bars like some magnificent piece of jewellery. The leitmotiv with Survolt is to transgress the conventions of the luxury world and combine them elegantly with those of the sporting world.

The cabin was imagined as a cross between two worlds that by their essence are opposed. This union begets an organic universe, both flowing and technical, from which the driver's station springs forth. The interior as a whole was designed to bring the two occupants comfort and refinement, triggering singular pleasure and an outstanding experience.

The car's generous glazed area brings light and a sensation of space, light years from that offered by today's sports cars.



Transcendent power and excitement

Ahead of its time, Survolt captivates with its innovative, environment-friendly technology. Like Revolte, Survolt is powered by electricity, thus combining sports performance with environmental respect and sustainable development. Still particularly rare in the racing world, this technological solution also embodies a previously unthinkable alliance. But CITROËN dares and creates, transgressing conventions to better sublimate them. With irreproachable ecological credentials, the drivetrain blends driving pleasure, thrills, performance and vitality, and all in extreme comfort, since the car is silent in operation.

CITROËN is proposing a new automotive vision with Survolt, in a move that is entirely consistent with its 90-year history as an innovative brand focused on creativity and technology.

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Geneva 2010: Citroen High Rider Concept

DS HIGH RIDER: Taking dynamics into a new dimension

Citroën created a stir in February 2009 with the announcement of a new line of distinctive products, the DS line. The new line-up reflected one of the facets of what is a true reinvention of the Marque, symbolised in its new tagline, "Créative Technologie". Rounding out the main CITROËN range, the DS line features products with more radical design choices aimed at customers looking for stand-out styling, architecture, driving feel and refinement.

Just one year after this major event, and with the DS3 now on show in CITROËN showrooms, the Marque is taking a new step in the evocation of the DS line with the DS High Rider. The new concept car embodies a contemporary vision of dynamics with compact design as a fundamental value. It opens the way to new vehicle uses, new motoring pleasure, and an innovative technological approach founded on a Full Hybrid 4 drivetrain.


The DS line moves forward into a new universe

With DS High Rider, Citroën is clearly remaining faithful to the philosophy behind the DS line, namely products with bold choices in terms both of styling and architecture.

Without reneging on the charms of conventional coupés, CITROËN has discovered new ways of expressing automotive vitality with this new creation - less restrictive and exclusive and more adapted to today's driving conditions, while boasting a renewed sense of driving pleasure.

Unlike regular 4-seater coupés that are long and low-slung, DS High Rider places the emphasis on muscular compact design. The body styling combined with the height of the car underline the compactness of the whole, in turn strengthening the dynamic feel.

Behind the wheel, this promise of vitality is delivered in the shape of a unique driving experience based on a blend of the following:
a windscreen that stretches far back into the roof, a passenger-focused interior architecture of the highest standards, running gear that benefits from all the Marque's expertise in driving sensations and standard-setting ride comfort.


Design embodying a new vision

Because it takes its inspiration directly from the values it vehicles, the styling of DS High Rider eschews all clichés in favour of an all-new, radically modern and inherently elegant shape. DS High Rider does not attempt to express vitality or versatility; rather, its body styling is a lively and pure reflection of these qualities.

DS High Rider is an object of desire that stands apart through its coherent design, that of a "beautiful automobile" placing the emphasis on harmonious forms through sensual and physically-present design that avoids caricature. Raised ground clearance and the strong on-road presence of the 19-inch diamond-effect alloy wheels structure the car's proportions and make a defining contribution to DS High Rider's character. The priority focus on authentically elegant forms also served to avoid the generic effects often used to typecast vehicles. The wheel arches and the forms of the car, particularly the flanks, are enough in themselves to express the robustness and protective character of the concept car. Components such as the front and rear bumpers, while also expressing vitality and agility, are perfectly integrated in the body styling and underline the overall harmony.

A handsome automobile and a good-looking coupé, DS High Rider also has an exclusive and elegant edge, with the beauty of its lines underlined by touches of contemporary luxury. Perfectly matching the all-new, sensual Golden Gloss body paint chosen for the initial manifestation of DS High Rider, the smoked chrome surrounds on the side windows accentuate their distinctive shape and literally highlight them. This lighting effect is also at play on the front and rear ends in the form of lamp and position light surrounds.

An animate object with a unique personality, DS High Rider is all CITROËN. It is instantly recognisable as such from the double chevron in the centre of the front end through to the compact and taut styling at the rear.


All-new, agile and attractive

DS High Rider brings a dynamic edge to versatility with a good dose of agility. Straight off, it comes across as a coupé redolent of movement with tightly drawn proportions. A coupé that reassures the onlooker with its subtly muscular character, one that refrains from outrageous aggression. Ground clearance is raised, giving drivers a commanding view of the road and traffic. The feeling of safety and protection is strong, but devoid of arrogance or brutality. Neither does it give the impression of taking up an exaggerated amount of space in the street, especially considering the car's interior volume. DS High Rider is roughly as long as the C4, and boasts a similarly spacious cabin.

The elegance-laced practicality of DS High Rider also hints at other pleasures, such as the textile-covered roof suggesting a top-down position.

DS High Rider's evident agility and its ability to break free of restrictions are naturally reflected in the Full Hybrid 4 drivetrain combining: an HDi DPFS diesel engine, and an electric motor fitted on the rear axle.

This set-up combines dynamic performance with environmental protection. The Full Hybrid 4 system balances the frugality of a latest-generation diesel engine with zero-emission electric mode, continuously switching between or combining the two engines. When drivers have to accelerate fast, the electric motor instantly adds its torque to that of the HDi diesel powerplant. In addition, this torque is transmitted to the rear wheels, effectively providing four-wheel drive grip and total control - and sublimating DS High Rider's dynamic qualities.

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