Mercedes planning to launch Smart in India

Mercedes-Benz had recently conducted a feasibility study of introducing the Smart in the Indian market and rumour has it that Smart would make it to India in 2014. Meet the car It has ample room for two people and also has space behind for two smart ebikes, which can charge their batteries on the cargo area during the journey.It is small, agile and does not need any petrol thanks to its electric drive. Thanks to the state-of-the-art electric drive with a 55 kW magneto-electric motor the zero-emission smart for-us is agile and lively to drive.

Mercedes-Benz had recently conducted a feasibility study of introducing the Smart in the Indian market and rumour has it that Smart would make it to India in 2014.

It is a logical thought. I assume in the foreseeable future, we will come to that part of the world and discuss the possibility of rolling out Smart," said Dr Dieter Zetsche, chairman, Daimler AG, the parent company of Mercedes Benz.

Smart could be priced anywhere in the range of Rs 12-15 lakh.

Smart is turning the automotive world upside down once again and challenging ideas about what an urban pickup should look like.

In a tongue-in-cheek manner the for-us signals that this is the right car for the young and young-at-heart with active lives who attach importance to low emissions and taking up minimum road space.

The smart for-us translates the practical loading concept of a pickup to the reality of 21st century urban traffic for the first time.

With its exterior dimensions (length/width/height: 3547/1506/1701 mm) it could almost go unnoticed on the loading area of a typical pickup, and it is also anything but ordinary under the body.

Ferrari F12 Berlinetta

Ferrari has unveiled the F12 Berlinetta declaring it to be its “fastest road car ever".

Coming just days before the start of the Geneva Motor show, the F12 boasts a top speed of 211mph, reaching 0-60mph in 3.1 seconds.

Using tricks learned from its Formula 1 cars, Ferrari claims the F12 burns less fuel and goes faster than its predecessors thanks to combination of high-tech machinery, wickedly complex weight loss schemes and a bit of black magic aerodynamics.

The 6.3-liter V-12 shared with the Ferrari FF has been boosted to 730 hp and 509 ft-lbs of torque, yet can get nearly 19 mpg under Euro testing with an optional stop-start system.

That power goes through a seven-speed gearbox and electric differential, both resized to shrink the car's footprint.

That gap you see at the top of the hood is what Ferrari calls an "aero bridge" -- a tunnel that shunts air out the vents behind the front wheel arches, helping reduce the car's drag.

The Italian car maker says it has been designed to deliver "unsurpassed driving involvement whatever the road or track".

"The design of the F12 Berlinetta is...a perfect balance of uncompromising aerodynamics with harmonious proportions interpreting the typical elements of Ferrari’s front-engined V12 cars in an original and innovative way," said the company which is based in Maranello, northern Italy.

The vehicle is a successor to the Ferrari 599 which won a host of awards after its 2006 release. The initial 599 can reach 0-60mph in 3.7 seconds, reaching a top speed of 205mph.

Toyota FT-Bh Concept – the hybrid car of tomorrow

Toyota FT-Bh, a hybrid concept at the Geneva Motor Show that gets 134.5 mpg. They can't all be winners. A decade after the Prius first arrived, no other automaker has managed to produce hybrid vehicles in volumes approaching Toyota -- a tribute to the company's head-start in technology and business acumen. Some of that can been seen in the FT-Bh, conceived to show how to build a Toyota Yaris-sized hybrid for maximum efficiency without using exotic materials that would drive up prices. Weighing a scant 1,700 lbs., and sculpted for aerodynamics, the FT-Bh's power comes from a 1-liter, two-cylinder engine -- a smaller mill than what you find in large motorcycles.

Toyota’s new FT-Bh concept is a vehicle designed to take the efficiency of full hybrid vehicles to new heights. Making its debut at the Geneva motor show, it is an ultra-light concept, weighing less than 800kg, which demonstrates what can be achieved in terms of fuel consumption and CO2 emissions in an affordable family supermini.

Those figures are from a vehicle that is close in size to today’s Yaris, at 3,985mm long, 1,695mm wide and 1,400mm tall, with a 2,570mm wheelbase. The emissions are about half the level of those produced by a 1.0-litre Yaris.

In their mission to achieve the best possible fuel economy and emissions, the design team focused on five key areas: reducing weight; driving resistance (including aerodynamic and tyre performance); powertrain efficiency; thermal energy management; and electricity savings.

Toyota recognises that a real-world reduction of total global vehicle CO2 emissions can only be brought about if an affordable, ultra-low emissions vehicle can be manufactured and sold in sufficiently high volumes. That made it important that the concept did not require exotic, expensive materials or complex manufacturing procedures, but used instead only those that are already commonly available in the motor industry.

Design
“Ecomotion” was the theme for styling FT-Bh, with its shape demonstrating a new approach to bodywork design. Key panels, such as the roof, are formed to represent the way fabric can be stretched taut between fastening points, to reflect their ultra-light weight.

The front end of the car broadcastsToyota’s current design language with its large lower grille, together with a sculpted bonnet and headlamps that are integrated into the front wings. Ultra-slim A and C-pillars maximise the glazed area for better visibility and a greater sense of space in the cabin.

The way in which the cabin merges seamlessly into the rear of the vehicle, with an uplifted rear bumper and chevron-shaped corner elements, helps achieve the best possible aerodynamic performance and deliver a drag coefficient of just 0.235.

The stretched fabric-look carries through to the minimalist interior, with a concave centre console creating a driver-focused cockpit, while maintaining the overall feeling of light and space

Weight saving
The target for FT-Bh was a 25 per cent saving on the 1.0-litre Yaris’s 1,030kg kerb weight. Using a combination of high-tensile steel, aluminium and magnesium in the construction has trimmed the weight to just 786kg

In fact, because the hybrid powertrain is heavier than the three-cylinder 1.0-litre engine (weighing about 60kg), the combined mass of the bodyshell, interior trim, chassis and electronics had to be reduced by around 340kg – one third of Yaris’s weight – to achieve the target

Such a large saving in the weight of cabin parts has had a ripple effect in weight reduction in the rest of the vehicle. For example, it means there is less load applied on the body structure and suspension, allowing components to be downsized. And less weight means a smaller displacement engine can be used, further saving weight and thermal energy losses.

Powertrain
FT-Bh’s full hybrid drive system is a masterpiece of powertrain downsizing. With substantial weight savings in every driveline component, it is almost 90kg lighter than theHybrid Synergy Drivesystem used in today’s Prius.The lightweight, two-cylinder, 1.0-litre Atkinson cycle petrol engine combines high efficiency with low thermal capacity and benefits with detailed measures to increase combustion efficiency and reduce friction. As a result, FT-Bh achieves an average fuel consumption of 134.5mpg and CO2 emissions of just 49g/km.The car’s light weight makes it agile and responsive to throttle and brakes, and thanks to its electric motor delivering maximum torque from standstill, it is nimble, too.

FT-Bh demonstrates the adaptability of Toyota’s Hybrid Synergy Drivetechnology. It serves as a study for how even greater fuel efficiency might be achieved in the medium term by using two alternative powertrains: a compressed natural gas hybrid (CNG-HV), with 38g/km CO2 emissions; and a Plug-in hybrid (PHEV), emitting just 19g/km.

Lower driving resistance
The concept represents a comprehensive study in next-generation aerodynamic techniques. It features air curtain intakes on the frontal extremities of the bodywork; air-stream alloy wheels; the replacement of airflow-disrupting door mirrors with cameras; latches in place of handles to open the doors; a pagoda-style roof with a dropped rear section; and a sharply cut rear end that incorporates an air outlet slit and an underfloor spoiler to smooth the flow of air away from the vehicle. Together these measures bring the Cd down from a B-segment/supermini average of about 0.29 to just 0.235.FT-Bh rides on narrow, large diameter 145/55R18 low rolling resistance tyres, which make a significant contribution to bringing down the road load and driving resistance, with no loss of grip or traction

Thermal energy management and electricity saving
Further goals for FT-Bh were improvements in the recovery of thermal energy and a 50 per cent reduction in electricity consumption. The cabin uses thermally efficient components and the air conditioning focuses only on parts of the car where people are sitting.

The amount of electricity used by the LED headlamps, interior lighting and other electrical components has been drastically reduced, to the extent that power consumption is half that of conventional cars. The glazing has been designed for maximum thermal efficiency and even the matte paint has been chosen for its excellent heat insulation characteristics.

Finally, a car for little people

The Volkswagon Mini-Gol was introduced in 2008 as a fully functional alternative for little people transportation. Designed for people under 5 feet, it is powered by a 5.5 horsepower engine that tops out at 17 mph. It also uses very little gas.

BMW displays Vision Connected Drive Concept Car

The BMW Vision ConnectedDrive study demonstrates current and future methods of mobile networking in a particularly focused way. The design and technology of this spectacular roadster are aimed at making the vehicle an integral part of a networked world.

Comfort, safety and the infotainment experience in the vehicle can be precisely optimised by the innovative functionality, individually tailored to suit the requirements of both the driver and passenger. New technologies and design concepts are employed to add even more facets to the unmistakable BMW driving pleasure.

Pioneering technology heightens driving pleasure. BMW Vision ConnectedDrive makes its case in a most persuasive way, presenting immediately-mesmerising, intelligent solutions

BMW demonstrates with this vehicle the unique potential that can be realised by both the current and future developments in BMW ConnectedDrive, optimising comfort, safety and the enjoyment of infotainment in the vehicle.

The boundless opportunities to attain even more driving pleasure by means of intelligent networks is demonstrated most impressively at the Geneva Motor Show by the world premiere of BMW Vision ConnectedDrive, by the design of the bodywork and interior of the concept vehicle, an inspiring light installation, a new display and operating concept and a multimedia presentation at the show.

The design embodies the bond between the driver and the vehicle and the dialogue between the driver and the passenger as well as the interaction of the occupants of the car with the environment. The functional areas of BMW ConnectedDrive are symbolised on three levels - comfort, safety and infotainment.

The elementary exchange of data and information for all three functional areas is visualised by an intricately complex light installation and presentation at the exhibition.

In addition to the dynamic charisma generated in typical BMW style by a long bonnet blending seamlessly with the windscreen, the long wheelbase and the seating positions set well back, the design of the concept vehicle visualises the fusion of exterior, interior and environment, made possible only by BMW ConnectedDrive.

Surfaces, strongly expressive and powerfully taut, are enhanced by distinctive flowing lines. The layering principle, which requires that individual components take on a number of tasks, has been implemented both in the interior and the exterior.

Sensors integrated into the headlights and the rear lights assist in monitoring the traffic situation and the environment. Antennas instead of wing mirrors transmit information to the outside world and capture navigation data.

An enhanced Head-Up Display is one of the innovations in the field of display and operating concepts of the BMW Vision ConnectedDrive family. It delivers a three-dimensional display of information and icons which provide an optical fusion of the actual view of the road ahead with virtual content.

For example, this augmented reality application projects information about the route precisely onto the location of a possible turn-off - in relation to the actual field of view. Information is displayed either in the foreground or in the background, depending upon its relevance and the current traffic situation.

In addition, the concept vehicle is equipped with a freely programmable instrument cluster; its display complements the projections generated by the Head-Up Display. The range and breadth of its functionality exceeds by far the display capabilities of classic cockpit instruments.

By means of a display, which also presents information in three dimensions, individual pieces of information can be optically emphasized to a greater or lesser degree depending upon the driving situation, in order to gain the appropriate amount of attention.