A method for providing an activation signal activating a vehicle occupant protection device includes reading in passenger compartment data from a passenger compartment detection unit and seat belt data from a seat belt sensor. The passenger compartment data represent a passenger compartment of the vehicle. The seat belt data represent a seat belt fastening angle of a seat belt of the vehicle at a belt reversing point relative to a reference axis of the vehicle. The method also includes determining, based on the passenger compartment data, a piece of seat position information representing an occupancy state of a vehicle seat by an occupant and a relative position of the seat relative to the vehicle; ascertaining an occupant class, representing a physical characteristic of the occupant, using the seat position information seat belt data; and generating the activation signal using the seat position information and the occupant class.

A device for activating/deactivating an airbag function of an airbag assigned to a vehicle seat in a vehicle, having an identification system for occupant identification and having an evaluation unit, by which the occupant located on the vehicle seat is classifiable on the basis of the sensor data of the identification system. The evaluation unit activates or deactivates the airbag function in dependence on the occupant classification. The identification system has a plurality of different sensors, i.e., an interior sensor, an exterior sensor, a vehicle seat sensor, a belt sensor, a baggage compartment sensor, and/or a speech recognition sensor. The evaluation unit carries out the occupant classification on the basis of all sensor data.

The control device controls a vehicle towing a trailer. The control device is configured to determine whether or not a user is present in the trailer when a shift range is in the parking range. The control device is configured to ignore a shift range switching operation by a driver when the shift range switching operation is performed while a user is present in the trailer.

System and method for obtaining and recording information about cargo includes a frame defining a cargo-receivable compartment, a position determining system at least partly on the frame and that allows for determination of position of the frame, an identification system on the frame that obtains information about cargo when present in the compartment, a memory component that receives and records information about position and movement of the frame, and the obtained information about cargo when present in the compartment in association with a unique identification of the frame, and a communications system on the frame to enable communication of information to and from the memory component.

A low-cost weight-measurement and sensing system is provided. The system may include a sensor assembly configured to be mounted between a floor pan of a vehicle and a seat of the vehicle. The sensor assembly may include a plurality of sensor modules. Each sensor module of the plurality of sensor modules may be configured to sense a force applied thereupon and generate a reading representative of the force applied thereupon in response thereto to provide a plurality of sensor readings. The system may also include a control module connected to the plurality of sensor modules. The control module may be configured to determine a weight of an occupant of the seat of the vehicle based on the plurality of sensor readings.

A sensor module for use in a low-cost weight-measurement and sensing system is provided. The sensor module may include a substrate configured to be mounted between a floor pan of a vehicle and a seat of the vehicle. The sensor module may further include a force sensing element disposed upon the substrate. The force sensing element may be configured to sense a force applied thereupon, and generate a reading representative of the force applied thereupon in response thereto to provide a sensor reading. The sensor module may also include a wiring harness connected to the force sensing element. The wiring harness may be configured to transmit the sensor reading to a control module. The substrate may define an aperture configured to surround a fastening element used to fasten the seat to the floor pan of the vehicle.

A method for activating a vehicle seat including receiving a seat occupancy signal, receiving a collision signal and generating a signal for activating the vehicle seat as a function of the seat occupancy signal and of the collision signal.

An occupied seat detection device includes: at least one receiver that is disposed in a space including a plurality of seats and receives at least one of sound generated inside the space or sound generated outside the space; an acoustic characteristics analyzer that calculates, from a signal received by the at least one receiver, temporal characteristics or frequency characteristics of the sound in the space; and a detector that detects whether an occupant is present or whether an occupied seat is present inside the space, based on the temporal characteristics or the frequency characteristics calculated by the acoustic characteristics analyzer, and outputs a detection result.

A system capable of determining a type of a passenger sitting on a seat according to a body type is disclosed. The system includes a seat detecting means detecting a position of a seat and an angle of a seat back, a passenger detecting means detecting a passenger based on a state where a specific passenger normally sits on the seat, and a controller detecting a passenger's body part along with a seat-back area where the seat back is positioned and a passenger area where the passenger is positioned using information detected by the seat detecting means and the passenger detecting means, and learning a parameter value that is input as a relationship of detected information and a classification result for a body type of the passenger that is output by the parameter value, thus setting a body-type classification model.

A first data acquiring unit to acquire first data acquired by a first sensor, a second data acquiring unit to acquire second data acquired by a second sensor installed above a seat in a cabin, a front-seat occupant position estimating unit to estimate a position of an occupant on a basis of the first data acquired by the first data acquiring unit, a detection range determining unit to determine a detection range of the second sensor on a basis of the position of the front-seat occupant estimated by the front-seat occupant position estimating unit, and a rear-seat occupant detecting unit to detect a rear-seat occupant on a basis of the second data acquired by the second data acquiring unit and the detection range of the second sensor determined by the detection range determining unit are provided.