External airbag deployment method
First Claim
Patent Images
1. An external airbag deployment method, comprising:
- a) setting a detection area located in front of a vehicle;
b) selecting a target object from among objects detected in the detection area by comparing relative velocities, overlaps, and Time To External Airbag (TTE) values of the detected objects, wherein the TTE is a remaining time until a collision with an airbag cushion occurs when an external airbag is assumed to be deployed;
c) determining whether the vehicle is stable or unstable by comparing a predicted yaw rate of the vehicle with a measured yaw rate;
d) determining whether a relative velocity and an overlap of the target object, predicted at a time when the target object is assumed to collide with the vehicle, are greater than predetermined levels, wherein the relative velocity and the overlap are predicted in consideration of a system delay time;
wherein the d) predicts the relative velocity using the equations;
a predicted acceleration of the target object=(mean of relative velocities for TT)/the TT−
current acceleration of self vehicle,
1)
a predicted relative velocity=a current relative velocity−
(the predicted acceleration of the target object+a current acceleration of the self vehicle)×
Δ
T, and
2)
the Δ
T=TTC+system delay error,
3)wherein the TT denotes a predetermined time, and the TTC denotes a Time To Collision,wherein d) predicts the overlap using a following equations;
a predicted lateral relative velocity=mean of lateral relative velocities for the TT,
1)
a predicted overlap=(a current overlap+the predicted lateral relative velocity×
the Δ
T)/width of the self vehicle×
100, and
2)
the Δ
T=the TTC+the system delay error,
3)whereinthe d) further comprises determining whether a collision probability based on a reciprocal of the TTC and a variation in collision probability is greater than predetermined levels; and
e) deploying the external airbag if it is determined that the vehicle is stable and the predicted relative velocity and the overlap of the target object are greater than the predetermined levels, and the collision probability and the variation in the collision probability are greater than the predetermined levels.
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Abstract
In an external airbag deployment method, a detection area located in front of a vehicle is set. A target object is selected from among objects detected in the detection area by comparing relative velocities, overlaps, and Time To External Airbag (TTE) values of the detected objects. It is determined whether the vehicle is stable or unstable by comparing a predicted yaw rate of the vehicle with a measured yaw rate. It is determined whether a relative velocity and an overlap of the target object, predicted at a time when the target object is assumed to collide with the vehicle, are greater than predetermined levels. The external airbag is deployed if it is determined that the vehicle is stable and the predicted relative velocity and overlap of the target object are greater than predetermined levels.
9 Citations
6 Claims
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1. An external airbag deployment method, comprising:
-
a) setting a detection area located in front of a vehicle; b) selecting a target object from among objects detected in the detection area by comparing relative velocities, overlaps, and Time To External Airbag (TTE) values of the detected objects, wherein the TTE is a remaining time until a collision with an airbag cushion occurs when an external airbag is assumed to be deployed; c) determining whether the vehicle is stable or unstable by comparing a predicted yaw rate of the vehicle with a measured yaw rate; d) determining whether a relative velocity and an overlap of the target object, predicted at a time when the target object is assumed to collide with the vehicle, are greater than predetermined levels, wherein the relative velocity and the overlap are predicted in consideration of a system delay time; wherein the d) predicts the relative velocity using the equations;
a predicted acceleration of the target object=(mean of relative velocities for TT)/the TT−
current acceleration of self vehicle,
1)
a predicted relative velocity=a current relative velocity−
(the predicted acceleration of the target object+a current acceleration of the self vehicle)×
Δ
T, and
2)
the Δ
T=TTC+system delay error,
3)wherein the TT denotes a predetermined time, and the TTC denotes a Time To Collision, wherein d) predicts the overlap using a following equations;
a predicted lateral relative velocity=mean of lateral relative velocities for the TT,
1)
a predicted overlap=(a current overlap+the predicted lateral relative velocity×
the Δ
T)/width of the self vehicle×
100, and
2)
the Δ
T=the TTC+the system delay error,
3)wherein the d) further comprises determining whether a collision probability based on a reciprocal of the TTC and a variation in collision probability is greater than predetermined levels; and e) deploying the external airbag if it is determined that the vehicle is stable and the predicted relative velocity and the overlap of the target object are greater than the predetermined levels, and the collision probability and the variation in the collision probability are greater than the predetermined levels. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification
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Current AssigneeHyundai Motor Company (Hyundai Motor Group)
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Original AssigneeHyundai Motor Company (Hyundai Motor Group)
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InventorsLee, Han Sung, Kim, Yong Sun, Bae, Jin Ho
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Primary Examiner(s)Tarcza, Thomas
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Assistant Examiner(s)PIPALA, EDWARD J
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Application NumberUS14/274,473Publication NumberTime in Patent Office501 DaysField of SearchUS Class Current1/1CPC Class CodesB60R 19/205 inflatable in the direction...B60R 21/013 including means for detecti...B60R 21/0132 responsive to vehicle motio...
