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An endurance test lies ahead of the Milltek Sport Volkswagen Racing Cup competitors and their cars next weekend (22/23 August) at Snetterton, with two extended races to enliven the already heated action as the championship nears its conclusion.

Both Snetterton races will be of 30-minute duration, 50 per cent longer than the norm, which could prove crucial for drivers who are kinder to their tyres and those running less success ballast. Four drivers will go into qualifying and the first race carrying the maximum success ballast of 60kg following recent good results – Lucas Orrock, Michael Epps, Phil House and Aaron Mason.

House, a winner at Snetterton for PH Motorsport in 2013 and a podium finisher last time out, says careful preparation will be needed to make the permitted allocation of six new Hankook racing slicks lasts through qualifying and the longer races. “We are going to have to think carefully about how many laps to do in qualifying and how hard to go in the first few laps of the races to make sure not to cook the tyres too early,” says Phil. “It will also mean some set-up changes to make the tyres last a bit longer. It’s not going to be a case of backing off – you never really back off – but we will have to be a bit more calculating with our approach.”

The SlideSports Scirocco of championship leader David Sutton will be ballast-free going into the Snetterton meeting following a recent downtown in form. The Rotherham racer has led the championship all season, racking up four wins from the first eight races. His closest points rival, Doncaster driver Mason, regained his form last time out, at Brands Hatch, where he and his AWM Scirocco picked up their first win of 2015. Another gaining ground as the season approaches its climax is Cambridgeshire-based Orrock, whose Vindis-backed KPM Scirocco has finished on the podium at every meeting bar one this season.

Reigning champion Joe Fulbrook endured a Brands Hatch meeting to forget, suffering one of the biggest crashes of his 11-season VW Cup career. “It was a bit of a smash-up and it properly destroyed the car,” said Joe, whose Golf GTI left the track at Stirlings and rolled. “I was all right – it was only later that it started hurting a bit! It was a shame because we were going really well, and it wouldn’t have happened but for some incidents in the first race I got involved in, which put me ninth on the grid for race two and right in the thick of things. I’d been fast through that corner all weekend and it seems that I caught the car in front more quickly than I expected and I lifted off the throttle right at the moment I put a back wheel on the dirt. Within two-tenths of a second I was back fully on the throttle and heading straight for the barriers... It was the culmination of a catalogue of misfortunes and the punishment didn’t fit the crime.”

The Safe & Sound team technicians have been working overtime to ready Joe’s Golf GTI for a return at Snetterton, where he won in 2014. “The boys have been working monumentally hard on the car and it should be straight for Snetterton; hopefully we will be somewhere near the front. We had good pace at Brands and I want to get back out there because Snetterton has been a good circuit for me in the past.” Fulbrook does indeed have strong form at the Norfolk track, having won twice there in 2008, and twice since, including last year’s win.

The other race winners so far in 2015 are Team HARD’s Epps, who added the crash-shortened Brands Hatch finale to his tally earlier this month, Cooke and Mason Scirocco pilot Jack Walker-Tully and Wisbech-based Joe McMillan in the Cobra Engineering Scirocco.

There will be plenty of further contenders for victory on the grid in Norfolk, not least Team HARD’s podium finishers Howard Fuller and Bobby Thompson. It’s hoped that all the runners whose cars were damaged in the Round 12 startline shunt – including Laura Tillett (SlideSports), Damani Marcano (Team HARD) and Simon Tomlinson (AWM) will be back in action. In addition to rebuilding Fulbrook’s Golf, the Safe and Sound squad have been battling to restore Simon Andrews’ machine to full health after it was bashed at Brands.

Following the Snetterton double-header just two races remain on the calendar to decide the outcome of the Milltek Sport Volkswagen Racing Cup championship title, at Donington Park in mid-September.

Article source: www.volkswagen.co.uk

We're continually refining our Turbocharged Direct Injection (TDI) diesel engines to make them even more efficient while still being great fun to drive. They offer refined power, even at low revs, and exceptional fuel economy, which all helps to lower emissions. We are now converting our full range of TDI engines to common rail engines that are responsive, incredibly efficient, cleaner and quieter. And if you're looking for high performance diesel technology you'll find our V6 and V8 TDI engines very impressive. Our award-winning TSI petrol engines mean you no longer have to choose between performance and economy. Small, light and powerful, they blend the best of our TDI diesel and FSI (Direct Injection) engines. The result is outstanding fuel saving, lower emissions and, best of all, greater performance.

Article source: www.volkswagen.co.uk

Our static cornering lights provide an extra light source behind the headlight reflector. When you turn the steering wheel, or indicate, a small additional reflector with a separate halogen bulb lights the area you're turning into, over several metres at an angle of 35 degrees. As a result, the driver spots potential hazards sooner and more easily. The static cornering light's clear signal effect also alerts other road users.

Article source: www.volkswagen.co.uk

The catalytic converter selectively converts nitrogen oxide (NOx) in the exhaust gases into nitrogen and water. To do this, it uses a synthetically produced aqueous urea solution, carried in an auxiliary tank. The substance, containing 32.5 per cent urea, is added continuously to the exhaust tract, upstream of the Selective Catalytic Reduction (SCR) catalytic converter. It is metered according to the mass flow rate of the exhaust gas and is precisely regulated by the engine management system, which receives information from the NOx sensor. NOx exhaust treatment is part of our BlueMotionTechnologies - our innovative energy saving and fuel efficient technologies.

Article source: www.volkswagen.co.uk

Wolfsburg, 14 July 2015 – Volkswagen AG aspires to holding the leading position in the field of automated parking. A look into the near future of automated parking is given by 'V-Charge', an EU research project, in which six national and international partners are jointly developing new technologies. Its focus is on automating the search for a parking space and on the charging of electric vehicles. The best part about it is that the vehicle not only automatically looks for an empty parking space, but that it finds an empty space with charging infrastructure and inductively charges its battery. Once the charging process is finished, it automatically frees up the charging bay for another electric vehicle and looks for a conventional parking space. 'V-Charge' stands for Valet Charge and is pointing the way to the future of automated parking.

In the USA especially, convenient valet parking is a big hit: you pull up in your car right outside your destination, valet service personnel park it for you and have it brought around again as and when you need it. There is no more time-wasting search for a parking place. The V-Charge project picks up on this idea. Its development goal is fully automated searching for a parking space ('valet parking') within defined zones, such as in multi-storey car parks.

There are many scenarios that illustrate the advantages of the V-Charge concept. Take one practical everyday example: a commuter notices that he is possibly going to be late and is thus running the risk of missing an important meeting at his company. With V-Charge he is able to pull up right in front of the main entrance, get out and establish the link to his vehicle via the associated smartphone application. Operating fully automatically, the vehicle has a digital map relayed to it and within the parking area or multi-storey car park autonomously navigates to a parking space. If it is an electric vehicle, the system additionally prioritises a parking bay with an automatic charging facility. Pedestrians, cyclists and other vehicles are identified by the cameras and ultrasound sensors integrated within the vehicle. Therefore, the vehicle is allowed to travel in so-called 'mixed traffic'. The selected parking area neither has to be an enclosed domain nor is any complex technical equipment required.

As the electric vehicle nears its destination, the system recognises via local sensors whether the allocated parking space is taken. If it is empty, the fully automatic parking manoeuvre begins and positions the vehicle exactly above the inductive charging spot. When the charging process is complete, the vehicle automatically moves to another parking space, leaving the charging station free for another electric car. When the driver returns to the multi-storey car park, he calls the vehicle back to the starting point via the V-Charge app. The vehicle moves to the defined pick-up location, with the driver not needing to set foot in the parking area or multi-storey car park.

Taking the lead in the international research consortium is the Swiss Federal Institute of Technology (ETH) in Zurich. It is responsible for visual localisation, movement planning and vehicle control (Autonomous Systems Lab division), camera calibration, 3D reconstruction from images and obstacle detection (Computer Vision and Geometry Lab division).

BraunschweigTechnical University works on the issues of car park management and the vehicle's communication with the technical surroundings (vehicle-to-infrastructure'V2I'), Robert Bosch GmbH contributes its expertise in the field of sensor technology, Parma University looks after object recognition and Oxford University handles the development of detailed navigation maps of the parking area (semantic mapping concepts). As the sixth partner in the consortium, Volkswagen is providing the platform equipment, safety and control modules, as well as systems for static monitoring of surroundings, object recognition and automated parking.

The test vehicle: a network of technical sensory organs

The technical prerequisites largely already exist. During the introductory stage, for instance, it was possible to utilise sensor and camera technologies that are already being used in today's production vehicles. A dense network of sensory devices enables autonomous operation of the V-Charge test vehicle, which is based on a Volkswagen e Golf1. Four wide- angle cameras and two 3D cameras, twelve ultrasound sensors, digital maps and the so- called 'Car2X' technology for the vehicle's communication with the infrastructure ensure that the vehicle's surroundings are reliably detected and recognised. Pedestrians, vehicles and obstacles get identified, parking spaces recognised and measured and then this stream of data is put together in real timeto form an overall picture – the task that the technical 'sensory organs' have to fulfil is complex and extremely varied.

As continual tests run as part of the research project show, V-Charge is already functional today. GPS-independent indoor localisation, centimetre-exact parking space measurement and 360-degree recognition of surroundings all function reliably, as do the system's reactions to pedestrians and vehicles and the way in which it takes account of traffic moving in line with or across the vehicle's path.

2005: a Volkswagen Touareg called 'Stanley'makes the first move towards autonomy
At Volkswagen automatic motoring moved from being a vision to a field of research at an early stage. 'Stanley' – a Touareg converted in cooperation with Stanford University in California and the Volkswagen Electronics Research Laboratory (USA) into a laboratory that could drive autonomously – was already winning the Grand Challenge competition for robot vehicles as far back as 2005. The next stage of development, in 2007, was the Passat 'Junior', which even then was finding its way through the big-city jungle without a driver – and doing so with such success that it took second place in the Urban Challenge for autonomous vehicles.

Given the working titles 'PAUL' and 'iCar', two further Passat research vehicles also demonstrated their autonomous capabilities that same year. While, thanks to intelligent parking assistance with no driver involvement, 'PAUL' slips into spaces perpendicular to the carriageway, the 'intelligent car' makes life easier for the driver in stop-and-go situations and on long monotonous journeys by automatically braking and keeping the appropriate distance.

In 2011, the 'eT – follow me!' microvan was launched as the ideal vehicle for delivery services. One real-life scenario: If the driver walks from house to house along a street delivering letters, for example, 'eT' follows him on quiet electric paws like a well-trained dog to ensure his mailbag is constantly replenished ('FollowMe' function) – or stays on his spot like a good boy until receiving the electronic 'come to me' call.

Also taking to the stage of autonomous motoring in 2011 was the 'HAVE-IT' (Highly Automated Vehicles for Intelligent Transport), a Volkswagen AG contribution to the research project of the same name funded by the European Commission. The Wolfsburgengineers had developed for the Passat Variant a 'temporary autopilot', which set the best possible degree of automation for driving on motorways and similar roads based on the driving situation, surroundings, the driver's condition and the system status.

Note: Text and photographs can be downloaded from www.volkswagen-media-services.com.

Movie: (V-Charge- The future of parking 2:41 min).

1Volkswagen e-Golf power consumption,kWh/100 km: 12.7 (combined); CO2 emission, g/km: 0 (combined); efficiency class: A+

*The other vehicle models mentioned in the text are test vehicles.

Article source: www.volkswagen.co.uk

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