Your 2-Minute Guide to Vehicle Parking Assist Systems

submitted: Jul 17th 2008 | by: JasonLancaster | Total views: 1 | Word Count: 605 | PDF View | Print Article

Almost every kind of vehicle has experienced a growth in size over the past decade. An "entry-level" car by a company such as BMW nowadays might be near the size and weight of a mid-size car ten years ago. As vehicles have gotten bigger, parking has become harder and harder.

The most obvious vehicle size increase has been in the pickup truck segment, where "small" trucks like the Dodge Dakota now look like giants beside their early predecessors. Full-size trucks have also been expanding, becoming heavier, wider and taller. Toyota too has participated in this growth trend. The Toyota Tundra was originally a mid-size pickup marketed to full-size buyers. Toyota realized a larger vehicle could fit more customers, and as a result, the 2007 Tundra was much bigger than earlier models in almost every dimension.

Size may have its benefits, but it has its downfalls as well. The biggest problem with bigger vehicles is that parking has become a lot harder. Sitting behind the wheel of a new Toyota Tundra, it might be hard to gauge just where the truck begins and ends. To make things easier, vehicle designers have introduced "parking assist" as an aid to drivers struggling with parking their new vehicles.

"Parking assist" is, on most vehicles, a system of sensors mounted on one or both sets of bumpers which beeps as the vehicle approaches an object. The beeps usually begin from about 6 feet away from an obstacle, and increase in frequency as you approach, becoming a continuous tone at about 6 inches from the obstacle. Beeping frequency and onset vary between different systems. The parking assist is a great tool for parallel parking, and can also serve as a warning if a small object such as a fence post or child is near your vehicle. But how does it work?

The system works using a set of "eyes", or special sensors, mounted in the vehicle's bumpers. The sensors regularly transmit highly focused sound waves from the bumpers, which are reflected back towards the sensor whenever they hit a solid object. Since sound travels at a fairly constant speed through air, a computer can calculate the distance between the bumper and object based on the amount of time it takes for the signal to return to the bumper. Submarines using active sonar underwater employ the same basic principle, although water transmits sound better than air, which results in better range for the submarine sensors.

While the system is effective when dealing with stationary objects like parked vehicles, posts and garage doors, the sensors are not quite sensitive enough to pick up smaller objects moving past the sensors. This means that small children, animals, or all-terrain vehicles might not generate a warning beep - or at least not a consistent warning beep. So, while parking assist - aka parking sonar - is definitely a useful tool, it is not a replacement for caution. Drivers must still do their best to ensure that there is no one behind or in front of their vehicle when parking.

The next generation of parking assist systems has begun to appear in high-end luxury cars, and it's really quite amazing. Rather than using just sound sensors - which are somewhat inaccurate - the system uses a video camera and a complex computer program in conjunction with the sound sensors. Instead of just warning the driver when they get close, this next generation of parking assist actually steers and parks your car for you. This is really helpful with parallel parking - just so long as you're willing to let your car work the steering, gas, and brake. What will they think of next?

About the Author

Author Jason Lancaster operates TundraHeadquarters.com, a web site with information, news, and reviews of Toyota Tundra accessories and Tundra parts.


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