Method for determining a danger zone for a pre-crash sensing...

Data processing: vehicles – navigation – and relative location – Vehicle control – guidance – operation – or indication – Vehicle subsystem or accessory control

Reexamination Certificate

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Details

C701S300000, C701S301000, C342S042000, C342S072000

Reexamination Certificate

active

06728617

ABSTRACT:

TECHNICAL FIELD
The present invention relates to pre-crash sensing systems for automotive vehicles, and more particularly, to pre-crash sensing systems having countermeasures operated in response to the length and width of a detected vehicle.
BACKGROUND
Auto manufacturers are investigating radar, lidar, and vision-based pre-crash sensing systems to improve occupant safety. Current vehicles typically employ accelerometers that measure vehicle body decelerations in the event of a crash. In response to accelerometers, airbags or other safety devices are deployed.
In certain crash situations it would be desirable to provide information before forces actually act upon the vehicle when a collision is unavoidable. Such information may include the position of a target vehicle relative to a source vehicle.
Remote sensing systems using radar are used in adaptive cruise control, collision avoidance and collision warning applications. These systems have characteristic requirements for false alarms. Generally, the remote sensing system reliability requirements for pre-crash sensing for automotive safety related systems are more stringent than those for comfort and convenience features, such as, adaptive cruise control. The reliability requirements even for safety related features vary significantly, depending upon the safety countermeasure under consideration. For example, tolerance towards undesirable activations may be higher for activating motorized belt pre-tensioners than for functions such as vehicle suspension height adjustments. Non-reversible safety countermeasures, including airbags, require extremely reliable sensing systems for pre-crash activation.
To meet wide-angle coverage requirements for pre-crash sensing purposes, multiple pulsed radar based sensing systems are being investigated for automotive applications. Multiple, pulsed radar sensor based systems with a wide field of coverage are available. Triangulation techniques with individual radar range measurements are used with multiple pulsed radar systems for object position estimation.
Threat assessment concepts based on the width and path of the host vehicle, and tracked objects are also available. These concepts do not properly account for the dimensions of the host and target vehicles. They also do not address the issue of impact situation classification. For example, they do not separate between those potential collisions in which the front of the host vehicle is involved, and those in which the sides of the host vehicle are involved.
The length and width of the host and target vehicles are important in deciding whether the accident is going to happen or whether it is going to be a near miss situation. Also, for countermeasure deployment decisions, such as nose-dipping, it is necessary to know if the front or sides of the host vehicle will be involved in the accidents.
It would therefore be desirable to provide a reliable method for determining the position of a target vehicle. It would also be desirable to provide a system that takes into consideration the size of the object including the length of the object in the activation of a countermeasure.
SUMMARY OF THE INVENTION
The present invention provides an improved pre-crash sensing system that reduces false activations and activates a countermeasure in response to the size of the object detected.
In one aspect of the invention, a pre-crash sensing system for a source vehicle (sometimes also referred to as the host vehicle) having a source vehicle length and a source vehicle width that is coupled to a countermeasure system is described. The system includes an object sensor for generating an object distance signal, object relative velocity signal and an object classification signal. A controller is coupled to the object sensor for activating the countermeasure system in response to the object distance, relative velocity and the object classification signal.
In a further aspect of the invention, a method for operating a pre-crash sensing system for an automotive vehicle having a countermeasure system, said method comprises: determining an object distance, an object relative velocity and an object classification with an object sensor; determining an object length and object width corresponding to the object classification; and activating the countermeasure system in response to the object length and object width and the object distance and relative velocity.
One advantage of the invention is that the length and width of the sensed object may be taken into consideration. This is extremely useful if the object is another automotive vehicle such as a sport utility, car or truck. By knowing the size of the vehicle, different countermeasures and different countermeasure activation modes may be chosen.
Another advantage of the invention is that unintentional, inadvertent or unnecessary activations of countermeasure devices are minimized.


REFERENCES:
patent: 5691725 (1997-11-01), Tanaka
patent: 6085151 (2000-07-01), Farmer et al.
patent: 6452535 (2002-09-01), Rao et al.
Shiraishi, Masatake; Tsuchiya, Yukiya; “Car Crash Zones Based On Driver's Collision Avoidance Behavior”; 2001 ASME Int'l. Mechanical Engineering Congress and Exposition; Nov. 11-16, 2001, NY, NY; DE-vol. 112 IMECE2001/DE-23260.
Seiler, Peter, Bongsob, Song, Hedrick, J. Karl; “Development of a Collision Avoidance System”, SAE Technical Paper Series 980853; International Congress and Exposition, Detroit, MI; Feb. 23-26, 1998.

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