Abstract: A method for discriminating input to a sensing algorithm used with an occupancy classification system includes generating a series of sensor signals from a sensor array. The method further includes generating a sensor signal from a belt tension sensor and generating a pattern recognition algorithm as a function of: the series of sensor signals from the sensor array and the sensor signal from the belt tension sensor.

Abstract: A vehicle seat sensing system is provided for detecting a presence of an unrestrained vehicle occupant on a vehicle seat cushion. A plurality of sensor assemblies are in spaced relation to one another and disposed adjacent a lower surface of said vehicle seat cushion. Each of the plurality of sensor assemblies variably sense a displacement of the vehicle seat cushion. A summing circuit disposed in proximity to the plurality of sensor assemblies is provided for summing sensed signals from the plurality of sensor assemblies. The summing circuit provides a summed output signal indicative of a presence of a vehicle occupant. The summed output signal is output exterior of the vehicle seat for determining whether the vehicle occupant is seated on the vehicle seat cushion.

Abstract: A method for discriminating input to a sensing algorithm used with an occupancy classification system includes generating a series of sensor signals from a sensor array. The method further includes generating a sensor signal from a belt tension sensor and generating a pattern recognition algorithm as a function of: the series of sensor signals from the sensor array and the sensor signal from the belt tension sensor.

Abstract: A sensor assembly for use in a vehicle seat cushion for detecting the presence of an occupant includes a mat adapted to be installed in the vehicle cushion. The mat includes first mounting structure and a first sensor device attached to the mat. A first member has a second mounting structure adapted to be attached to the first mounting structure for attaching the first member to the mat. A second member is movably mounted relative to the first member about an axis. A second sensor device is mounted in the second member.

Abstract: A sensor assembly for use in a vehicle seat cushion for detecting the presence of an occupant includes a first member defining an internal bore. A second member has a portion slidably disposed in the bore of the first member. The first member is movably mounted relative to the first member about an axis. A spring biases the first member relative to the second member. A sensor device is mounted in one of the first and second members.

Abstract: A vehicle occupant sensing system for a vehicle seat assembly that includes at least one emitter and at least one sensor operable to detect relative distance between the sensor and the emitter to thereby detect a condition of the vehicle seat assembly. The vehicle occupant sensing system also includes a biasing pad adapted so as to be disposed below a seat cushion of the vehicle seat assembly so as to deflect in response to deflection of the seat cushion. The biasing pad supports at least one of the emitter and the sensor such that the emitter and the sensor are biased away from each other and such that one of the emitter and the sensor are supported for movement toward and away from the other.

Abstract: A low profile sensor assembly for use in a vehicle occupant sensing system that comprises a base, an upper slide member, and at least one intermediate guide member. Also disclosed is a low profile sensor assembly for use in a vehicle occupant sensing system that comprises a base with an outer step and a receptacle, and the low profile sensor assembly also comprises an upper slide member with a lower flange and a retainer. The outer step is adapted to accept the lower flange, and the receptacle is adapted to accept the retainer. The intermediate guide member, the outer step, and the receptacle each allow the respective upper slide member to move further toward the base. Thus, when the low profile sensor assembly is incorporated into a vehicle seat assembly, the low profile sensor assembly is less likely to detrimentally affect the comfort level of the vehicle seat assembly.

Abstract: A method of recognizing and classifying the occupancy in a vehicle seat having an occupancy sensing system, including the steps of sensing the output of an array of sensors that detect a physical presence in a seat and applying the sensor array output as a vector representation to a neural net that was trained using a learning vector quantization algorithm. The method also includes the step of recognizing the sensor array output as falling within one of a group of predetermined classification patterns that represent a physical presence in the seat defined by size, weight, and physical orientation.

Abstract: A method of determining an equivalent output value for a failed sensor in a vehicle seat having an occupancy sensing system. The method includes the steps of sensing the output of each sensor in an array of sensors that detect a physical presence in the seat. If the output of the sensor falls below a predetermined value, exceeds a predetermined value, or remains fixed the sensor is classified as inoperative. The method then calculates an equivalent sensor output value for any sensor classified as inoperative and applies the sensor array output values for each operable sensor in the array and the calculated equivalent output value for any inoperative sensor to a neural net. Then, the applied sensor output values are recognizing as falling within one of a group of predetermined classification patterns that represent a physical presence in the seat defined by size, weight, and physical orientation.

Abstract: A vehicle occupant sensing system adapted for detecting a condition of a vehicle seat assembly including at least one emitter and at least one sensor disposed spaced relative to the emitter. The sensor is operable to detect relative distance between the emitter and the sensor to thereby detect the condition of the vehicle seat assembly. The vehicle occupant sensing system also includes at least one sensor assembly having a base and an upper slide member moveable toward and away from the base. The upper slide member includes at least one interference member that generates an interference fit between the emitter and the interference member to thereby securely mount the emitter to the upper slide member. The vehicle occupant sensing system may be employed in a vehicle seat to detect a condition of the vehicle seat.

Abstract: A sensor assembly for use in a vehicle seat cushion for detecting the presence of an occupant includes a first member defining an internal bore. A second member has a portion slidably disposed in the bore of the first member. The first member is movably mounted relative to the first member about an axis. A spring biases the first member relative to the second member. A sensor device is mounted in one of the first and second members.

Abstract: A sensor assembly for use in a vehicle seat cushion for detecting the presence of an occupant includes a mat adapted to be installed in the vehicle cushion. The mat includes first mounting structure and a first sensor device attached to the mat. A first member has a second mounting structure adapted to be attached to the first mounting structure for attaching the first member to the mat. A second member is movably mounted relative to the first member about an axis. A second sensor device is mounted in the second member.