A sensor arrangement for optically sensing at least one object includes an emission unit, a controllable deflection unit, a reception unit, and an evaluation unit. The emission unit is configured to emit at least one light beam. The controllable deflection unit is configured to deflect the light beam. The reception unit is configured to receive at least a portion of the emitted and deflected light beam that is reflected by an object to be sensed. The evaluation unit is configured to evaluate the received at least portion of the light beam such that a 3D image is generated in order for the object to be sensed.

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 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.

The present invention discloses seat occupation, vital signs and safety belt lock sensor for rear seats, which do not have power supply. The proposed system contains mm-wave radar sensor to be used for rear seat detection of seat occupancy and for vital sign detection, being placed on the vehicle ceiling or being integrated in the front seats, having radiation in the direction of the rear seat and detection if the human being is on the rear seat. The proposed system further contains hardware functionality being integrated in the safety belt environment. This functionality is communicating status if the safety belt is locked or not, in the case when the remote mm-wave sensor detected the human being on the rear seat, using arbitrary wireless communication means, and embedded arbitrary means for conserving energy, like battery. The proposed system is additionally detecting vital signs of the person using rear seats.

The present invention provides an occupant classification apparatus for a vehicle. The occupant classification apparatus for a vehicle includes a sensor mat that is mounted on each seat in the vehicle to sense objects disposed on the seats. An impedance measurer is configured to measure a current based on impedance of the object using the sensor mat A controller is configured to analyze the current measured by the impedance measurer and estimate the object that corresponds to the analyzed result.

The present disclosure relates to a method for adapting an occupant protection feature of a vehicle. Receiving sensor data from at least two sensors, the sensor data is indicative of a detected occupant in the vehicle. Constructing a model of a seating position of the detected occupant in the vehicle based on the sensor data. Adapting the occupant protection feature based on the modelled occupant's seating position.

A system for preventing a door of a vehicle from opening into an object includes a detection module configured to identify an object within a danger zone of the vehicle and detect the opening of the door. The system further includes a locking mechanism coupled to the detection module and configured to lock the door in a partially open position if the object is identified within the danger zone and the opening of the door is detected.

A system for preventing a door of a vehicle from opening into an object includes a detection module configured to identify an object within a danger zone of the vehicle and detect the opening of the door. The system further includes a locking mechanism coupled to the detection module and configured to lock the door in a partially open position if the object is identified within the danger zone and the opening of the door is detected.

An occupant detection system includes a transmitter provided adjacent to a first side face of a vehicle before a predetermined seat and successively transmitting a radio wave over a range covering a seat door located on a second side face of the vehicle and in a same row as the predetermined seat, a receiver provided adjacent to the second side face behind the predetermined seat and receiving the radio wave transmitted from the transmitter, and an occupant detection device including a reception intensity acquirer, an occupant detector, an opening and closing detector. The reception intensity acquirer successively acquires a reception intensity of a radio wave successively received by the receiver. The occupant detector detects an occupant in the vehicle according to the reception intensity of the radio wave received by the receiver while the opening and closing detector detects that the seat door is open.

Vehicular control method to avoid collisions in which a smartphone is coupled to the vehicle while in a vehicular compartment. Data is generated from vehicle-resident sensors about operation of the vehicle and transferred from the vehicle to the smartphone while the smartphone is coupled to the vehicle. A communications network with another vehicle is established using the smartphone and the data transferred from the vehicle to the smartphone and data from sensors on the smartphone is transmitted via the smartphone and established communications network to other vehicle, the data including data about location and movement of the vehicle. Then, while the smartphone is coupled to the vehicle, a vehicular operational function is controlled based in part on data transmitted using the smartphone and established communications network to cause movement of the vehicle to change in order to avoid a collision with the other vehicle.