Hardware independent mapping of multiple sensor configurations for classification of persons
First Claim
1. A method for classifying vehicle occupants by measuring seat occupant weight comprising the steps of:
- (a) mounting a plurality of sensors within a seat structure such that the plurality of sensors are mounted in a predetermined sensor configuration having a plurality of discrete sensor locations;
(b) generating a plurality of occupant weight signals from the plurality of sensors in response to a weight force applied to the seat structure including generating a weight signal from each discrete sensor location;
(c) mapping the plurality of occupant weight signals from the plurality of sensors into a virtual matrix wherein the virtual matrix comprises a theoretical sensor configuration having a plurality of virtual sensor positions and wherein the virtual matrix includes a greater number of virtual sensor positions than discrete sensor locations, and including mapping the plurality of occupant weight signals into the plurality of virtual sensor positions including mapping each weight signal into one of the plurality of virtual sensor positions, and determining which virtual sensor positions do not have corresponding mapped weight signals and assigning a value for each of the remaining virtual sensor positions based on weight signal data from discrete sensor locations surrounding each of the remaining virtual sensor positions; and
(d) determining seat occupant weight based on output from the virtual matrix.
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Accused Products
Abstract
Sensors are mounted within a seat structure for measuring seat occupant weight. The sensors can be mounted in any one of various sensor configurations. So that common hardware can be used for each different sensor configuration, a virtual matrix is created and output from the sensors is mapped into the virtual matrix. The virtual matrix includes virtual cell locations that do not have a corresponding sensor output; i.e., there are fewer physical cells (sensors) than virtual cell locations in the virtual matrix. A weight output signal from each sensor is mapped into the corresponding position in the virtual matrix and the remaining virtual cell locations have values assigned to them based on data supplied by the surrounding physical cells. Seat occupant weight is determined based on output from the virtual matrix and the occupant is placed into one of the various occupant classifications. Deployment force of a restraint system is controlled based on the classification of the seat occupant.
45 Citations
1 Claim
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1. A method for classifying vehicle occupants by measuring seat occupant weight comprising the steps of:
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(a) mounting a plurality of sensors within a seat structure such that the plurality of sensors are mounted in a predetermined sensor configuration having a plurality of discrete sensor locations; (b) generating a plurality of occupant weight signals from the plurality of sensors in response to a weight force applied to the seat structure including generating a weight signal from each discrete sensor location; (c) mapping the plurality of occupant weight signals from the plurality of sensors into a virtual matrix wherein the virtual matrix comprises a theoretical sensor configuration having a plurality of virtual sensor positions and wherein the virtual matrix includes a greater number of virtual sensor positions than discrete sensor locations, and including mapping the plurality of occupant weight signals into the plurality of virtual sensor positions including mapping each weight signal into one of the plurality of virtual sensor positions, and determining which virtual sensor positions do not have corresponding mapped weight signals and assigning a value for each of the remaining virtual sensor positions based on weight signal data from discrete sensor locations surrounding each of the remaining virtual sensor positions; and (d) determining seat occupant weight based on output from the virtual matrix.
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Specification