A system includes a first webbing payout sensor and a seatbelt wear condition module. The first webbing payout sensor can detect a first webbing payout of a seatbelt associated with a seat of a vehicle. The first webbing payout is a first length of webbing of the seatbelt dispensed from a first retractor of the seatbelt. The seatbelt wear condition module can identify whether the seatbelt is worn correctly based on the first webbing payout. The system may further include a second webbing payout sensor that detects a second webbing payout of the seatbelt associated with the seat. The second webbing payout is a second length of webbing of the seatbelt dispensed from a second retractor of the seatbelt. The seatbelt wear condition module identifies whether the seatbelt is worn correctly based on the first webbing payout and the second webbing payout.

An object detecting apparatus is provided which includes relative speed obtaining means for obtaining a relative speed of a nearby object, relative acceleration calculating means for calculating a relative acceleration of the object from the relative speed, and limiting means for setting an upper limit of the relative acceleration when a given condition where a degree of reliability of a detected value of the relative speed is expected to be low is met and then also limiting the value of the relative acceleration using the upper limit when the given condition is met. The object detecting apparatus is capable of executing a control task accurately using a value of the relative acceleration calculated based on a detected value of the relative speed.

There is provided a computer implemented method for executing a model, for detecting safety seat events, comprising: receiving a plurality of records, each represents measurements taken by a motion sensor mounted on a child safety seat or a base of a child safety seat installed in a vehicle while the vehicle is static or in motion; executing at least one model to classify each of the plurality of records; detecting an occurrence of a child related event based on outputs of the execution of the at least one model; and activating a protection mechanism by a protection mechanism unit according to the detected occurrence of child related event.

A method for performing a checking of a person, such as a vehicle passenger, by way of infrared radiation involves determining the distance between a source of infrared radiation and the person by way of light according to a distance definition and setting the intensity of the infrared radiation in dependence on the distance as determined.

A vehicular vision system includes a driver-side exterior mirror assembly, a passenger-side mirror assembly and an interior mirror assembly. The fields of view of the mirror reflective elements of the exterior mirror assemblies are adjustable by the driver via a respective actuator. The exterior mirror assemblies include respective cameras that each have a respective rearward field of view that supplements the field of view of the mirror reflective element when viewed by the driver of the vehicle. A video display is disposed behind the mirror reflector of an interior mirror reflective element such that displayed video images are viewable through the mirror reflector of the interior mirror reflective element. The video display includes a driver-side display portion and a passenger-side display portion that each display images derived from image data captured by the respective camera while not displaying images derived from image data captured by the other camera.

An occupant detection system includes a vehicle seat having a seat back and a seat base, and a biometric sensor arranged in at least one of the seat back and the seat base. The biometric sensor is configured to detect a physiological characteristic of a seat occupant. A controller is operatively connected to the biometric sensor. The controller is configured to provide an output signal in response to a physiological characteristic detected signal from the biometric sensor.

A safe driving determination apparatus includes a state identification part that identifies a state of the vehicle, an angle value identification part that identifies an angle value indicating a face direction angle of a driver with respect to the traveling direction, and a determination part that determines whether or not the driver is in a state of being inattentive to the road ahead, wherein the angle value calculation part inputs the angle value calculated to the determination part if the state is in a state where the driver is not allowed to be in a state of being inattentive to the road ahead, and inputs a value at which the difference from the reference angle value is less than the threshold value, to the determination part if the state is in a state where the driver is allowed to be in a state of being inattentive to the road ahead.

There is provided a computer implemented method for executing a model, for detecting safety seat events, comprising: receiving a plurality of records, each represents measurements taken by a motion sensor mounted on a child safety seat or a base of a child safety seat installed in a vehicle while the vehicle is static or in motion; executing at least one model to classify each of the plurality of records; detecting an occurrence of a child related event based on outputs of the execution of the at least one model; and activating a protection mechanism by a protection mechanism unit according to the detected occurrence of child related event.

An airbag control device includes an emergency detection unit, an inflator activation unit configured to activate an inflator of an airbag device based on an emergency detection signal of the emergency detection unit, an environmental load detection unit configured to detect an environmental load of the airbag device, an integration unit configured to integrate the environmental load detected by the detection unit, and a countermeasure activation unit configured to perform at least one of issuing an alert and disabling the inflator activation unit when an environmental load integrated value of the integration unit reaches a predetermined value.

A system includes a first webbing payout sensor and a seatbelt wear condition module. The first webbing payout sensor can detect a first webbing payout of a seatbelt associated with a seat of a vehicle. The first webbing payout is a first length of webbing of the seatbelt dispensed from a first retractor of the seatbelt. The seatbelt wear condition module can identify whether the seatbelt is worn correctly based on the first webbing payout. The system may further include a second webbing payout sensor that detects a second webbing payout of the seatbelt associated with the seat. The second webbing payout is a second length of webbing of the seatbelt dispensed from a second retractor of the seatbelt. The seatbelt wear condition module identifies whether the seatbelt is worn correctly based on the first webbing payout and the second webbing payout.