AUDI AUTONOMOUS CARS COULD EASE DRIVING DRUDGERY

Self-driving and self-parking Audi technology demonstrator cars show how some of the stress of urban motoring could be alleviated in future

 

• Autonomous Audi demonstrators enable drivers to turn their attention to other tasks while in traffic jams and to park by remote control from outside the car
• Working prototypes shown at this month’s Consumer Electronics Show in Las Vegas
• Audi wants to tackle traffic jam tedium and bring placidity to urban parking. In pursuit of these goals the Vorsprung durch Technik brand has developed two fully operational demonstrators that show how future models could offer ‘hands (and feet)-free’ driving in moving traffic and completely ‘driver-free’ parking.

 

The first of the two working prototypes, which have been in service at this month’s Consumer Electronics Show in Las Vegas, shows how piloted driving in traffic jams will in future reduce the driver’s workload in stressful situations, such as in congested traffic. At speeds of between zero and 37mph, the system helps to steer the car within certain constraints, and also accelerates and brakes autonomously.

 

The car’s speed and the speeds of nearby vehicles are constantly analysed by the piloted system. If it detects a traffic jam from the data at speeds below 37mph, the driver can activate the assistance function. By broadly scanning its surroundings, the system can also work in a temporary lane even in the absence of lane markings. It also reacts cooperatively to cars moving into or out of the lane.

 

The new system is based on the functionality of Audi adaptive cruise control with Stop & Go, and has exactly the same operating characteristics when moving off and braking, but in this case the system is enhanced by the addition of lateral guidance. Two radar sensors monitor everything up to 250 metres ahead, at a scan angle of around 35 degrees. A wide-angle video camera monitors the lane markings, and can also detect objects such as pedestrians, other vehicles and safety guardrails. Eight ultrasonic sensors monitor the zones directly in front of the car and at its corners. A laser scanner is also used which provides highly precise data over a scanning angle of around 140 degrees up to 80 metres in front of the vehicle.

 

 

As an assistance function, piloted driving in a traffic jam enables the driver to devote their attention, within certain limits, to other activities while the system is operating. If the vehicle reaches the limits of the function, for instance if the traffic jam disperses, the driver is prompted to resume control.

 

No more car park tight squeezes

 

Struggling to manoeuvre into a parking space or home garage, and then struggling to get out of the car with kids, dogs, pushchairs and other paraphernalia, without damaging it, could be a thing of the past with the help of Audi piloted driving. The advanced system fitted to the second technology demonstrator operating at CES enables the driver to get out of the car in front of the garage or before negotiating a tight parking spot, and to instruct it to autonomously park itself via the remote key fob or a smartphone.

 

 

With the help of its sensors, the car drives autonomously into the parking space or the garage under the driver’s supervision, stopping immediately if it detects an obstacle. Once it has reached its final position, it shuts off the engine, deactivates the ignition and locks the doors before finally sending a confirmation to the driver.

 

Getting out of the garage or parking space is just as convenient. At the touch of a button the vehicle manoeuvres out of the space, and the driver and passengers can easily get in and drive off.

 

Communication between car and car park

 

Another parking talent simulated by the demonstrator at CES that could be viable in the longer term involves the car ‘talking’ to the public car park it is entering, enabling it to find the nearest parking space and to guide itself autonomously to that space and then park.

 

 

 

The driver activates the futuristic technology with the aid of a smartphone app, which enables a connection to be established with the car park’s central computer. The central computer takes over part of the control function and guides the vehicle via a Wireless Local Area Network (WLAN) connection to the nearest available parking space. The vehicle’s movements are recorded via external laser sensors and processed with additional movement data by the car park’s computer to pinpoint the vehicle. The central computer also has a map of the car park layout and records parking space occupancy. This information is transmitted to the vehicle and used to plan the route, thus ensuring that the vehicle can actually drive from the starting point to its destination. The vehicle also monitors its surroundings using twelve ultrasound sensors as it moves. In future, four video cameras will also be used.

 

Audi is currently in the process of equipping a car park in its base town of Ingolstadt, Germany, with the relevant technology.