Vehicle impact-sensing method with improved severity discrimination
First Claim
1. The method of controlling deployment of an airbag in a vehicle, said method comprising:
- determining whether an impact event has a high likelihood potential using an early warning sensor disposed near the front of the vehicle for determining velocity changes at the location of the sensor, if the event has a high likelihood potential, determining a predicted occupant movement during a predetermined time duration plus the elapsed sensing time, said calculation using velocity-based measures, if the predicted occupant movement is equal to or greater than a predetermined movement threshold, calculating an impact severity measure as a function of vehicle velocity change, and if the impact severity measure is equal to or greater than a predetermined severity threshold, activating the inflator of the airbag.
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Accused Products
Abstract
A vehicle impact-sensing system is disclosed which discriminates a severe impact event from a minor impact incident. The sensing system is enabled by a preliminary stage of the sensing algorithm in response to an occurrence of an acceleration in excess of an enabling threshold. In the sensing algorithm, a first phase evaluates the likelihood potential of an impact event using a measure derived from the signals provided by a remote sensor at the front end of the vehicle. A second phase determines the timing to trigger the deployment of airbags by using the predicted occupant movement as the measure. A third phase determines the severity of the impact event using a measure derived from accelerometer signals and deploys either a single-stage or a multi-stage inflation of airbags.
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Citations
10 Claims
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1. The method of controlling deployment of an airbag in a vehicle, said method comprising:
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determining whether an impact event has a high likelihood potential using an early warning sensor disposed near the front of the vehicle for determining velocity changes at the location of the sensor, if the event has a high likelihood potential, determining a predicted occupant movement during a predetermined time duration plus the elapsed sensing time, said calculation using velocity-based measures, if the predicted occupant movement is equal to or greater than a predetermined movement threshold, calculating an impact severity measure as a function of vehicle velocity change, and if the impact severity measure is equal to or greater than a predetermined severity threshold, activating the inflator of the airbag. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
said early warning sensor is a remote accelerometer disposed at the front of the vehicle for determining velocity changes at the location of the remote accelerometer, and said impact severity measure is calculated as the product of the vehicle velocity change and the displacement at the remote accelerometer.
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3. The method as defined by claim 1 wherein:
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said early warning sensor is a remote accelerometer disposed at the front of the vehicle for determining velocity changes at the location of the remote accelerometer, and said impact severity measure is calculated as the maximum value obtained by subtracting predetermined reference value of velocity changes at said remote accelerometer from the calculated velocity changes at said remote accelerometer.
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4. The method as defined by claim 1 wherein:
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said early warning sensor is a remote accelerometer disposed at the front of the vehicle for generating acceleration signals, and wherein the step of determining whether an impact event has a high likelihood potential comprises calculating the velocity changes at said remote accelerometer using said acceleration signals and subtracting a predetermined reference value of velocity changes from the calculated velocity changes to obtain a difference quantity, and determining that there is high likelihood potential if the difference quantity is greater than or equal to a predetermined likelihood threshold.
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5. The method defined by claim 1 wherein said vehicle has an accelerometer located in the passenger compartment and wherein the step of determining a predicted occupant movement comprises:
calculating the predicted occupant movement POM at time (t +td) using the equation;
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6. The method defined by claim 5 wherein:
said desired time duration is the required airbag inflation time.
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7. The method defined by claim 5 including the step of:
requiring that the predicted occupant movement exceeds the predetermined movement threshold more than once before determining whether the impact severity signal is equal to or greater than the predetermined severity threshold.
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8. The method defined by claim 5 wherein:
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said early warning sensor is a remote accelerometer disposed at the front of the vehicle for determining velocity changes at the location of the remote accelerometer, and said impact severity measure is calculated as the product of the vehicle velocity change and the displacement at the remote accelerometer.
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9. The method defined by claim 5 wherein:
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said early warning sensor is a remote accelerometer disposed at the front of the vehicle for determining velocity changes at the location of the remote accelerometer, and said impact severity measure is calculated as the maximum value obtained by subtracting a predetermined reference value of velocity changes at said remote accelerometer from the calculated velocity changes at said remote accelerometer.
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10. The method defined by claim 5 wherein:
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said early warning sensor is a remote accelerometer disposed at the front of the vehicle for generating acceleration signals, and wherein the step of determining whether an impact event has a high likelihood potential comprises calculating the velocity changes at said remote accelerometer using said acceleration signals and subtracting a predetermined reference value of velocity changes from the calculated velocity changes to obtain a difference quantity, and determining that there is high likelihood potential if the difference quantity is greater than or equal to a predetermined likelihood threshold.
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Specification