There are four types of technology available for determining local speed limits on a road and the speed of the vehicle: • Position-based systems • Radio beacons • Optical recognition • Dead reckoning
Position-based systems GPS like other
satellite navigation systems is based on a network of satellites that constantly transmit radio signals. GPS receivers pick up these transmissions and compare the signals from several satellites in order to pinpoint the receiver's location to within a few meters. This is done by comparing the time at which the signal was sent from the satellite to when it was picked up by the receiver. Because the orbital paths of the satellites are known, the receiver can perform a calculation based on its distance to several of the orbiting satellites and therefore obtain its position. There are currently 31 satellites making up the GPS network, and their orbits are configured so that a minimum of five satellites are available at any one time for terrestrial users.
Radio beacons Roadside
radio beacons, or bollards, work by
transmitting data to a receiver in the car. The beacons constantly transmit data that the car-mounted receiver picks up as it passes each beacon. This data could include local speed limits, school zones, variable speed limits, or traffic warnings. If sufficient numbers of beacons were placed at regular intervals, they could calculate vehicle speed based on how many beacons the vehicle passed per second. Beacons could be placed in/on speed signs, utility poles, other roadside fixtures, or in the road itself. Mobile beacons could be deployed in order to override fixed beacons for use around accident scenes, during poor weather, or during special events. Beacons could be linked to a main computer so that quick changes could be made. The use of radio beacons is common when ISA systems are used, to control vehicle speeds in off-road situations, such as factory sites, logistics and storage centres, where occupational health and safety requirements mean that very low vehicle speeds are required in the vicinity of workers, and in situations of limited or obscured visibility.
Optical recognition systems Optical recognition technology has focused on recognizing speed signs, and roadside objects such as "
cat's eyes". This system requires the vehicle to pass a speed sign or similar indicator and for data about the sign or indicator to be registered by a scanner or a camera system. As the system
recognizes a sign, the speed limit data is obtained and compared to the vehicle's speed. The system uses that speed limit until it detects a speed sign with a different limit. It is also possible to use
computer vision to determine the
assured clear distance ahead.
Dead reckoning Dead reckoning (DR) uses a mechanical system linked to the vehicle's driving assembly in order to predict the path taken by the vehicle. By measuring the rotation of the road wheels over time, a fairly precise estimation of the vehicle's speed and distance travelled can be made. Dead reckoning requires the vehicle to begin at a known, fixed point. Then, by combining speed and distance data with factors such as the angle of the
steering wheel and feedback from specialized sensors, e.g., accelerometers, flux gate compass, gyroscope, it can plot the path taken by the vehicle. By overlaying this path onto a digital map, the DR system knows approximately where the vehicle is, what the local speed limit is, and the speed at which the vehicle is travelling. The system can then use information provided by the digital map to warn of upcoming hazards or points of interest, and to provide warnings if the speed limit is exceeded. Dead reckoning is prone to cumulative measurement errors, such as variations between the assumed circumference of the tyres compared to the actual dimension, which is used to calculate vehicle speed and distance travelled. These variations in the tyre circumference can be due to wear, or variations in tyre pressure due to variations in speed, payload, or ambient temperature. Other measurement errors are accumulated when the vehicle navigates gradual curves that inertial sensors, gyroscopes and/or accelerometers, are not sensitive enough to detect, or due to electromagnetic influences on
magnetic flux compasses, from passing under
power lines or when travelling across a steel bridge, and through underpasses and road tunnels. Some top-end GPS-based navigation systems currently on the market use dead reckoning as a backup system in case the GPS signal is lost. == Limitations and objections ==