An airbag module for a supplemental restraint system of a vehicle can include an inflator, an airbag attached to the inflator and in fluid communication with the inflator; and a module controller mounted to the inflator. The module controller can be configured to: determine an elapsed service time of the inflator based on the identification information of the vehicle; compare the elapsed service time to a first time threshold; and output a disable signal to the SRS controller commanding the SRS controller to disable a firing pulse for the inflator when the elapsed service time is greater than or equal to the first time threshold.

A side air bag device is described which is disposed in a space between a vehicle body and a back seat and for which rigidity of attachment to a vehicle body member is improved. The side air bag device provided between a vehicle body and a back seat includes: a base member including a base storage configured to store an air bag and an inflator and a base attachment portion attached to the vehicle body; and a retainer member configured to hold the base storage from a vehicle back side. The retainer member extends from a portion holding the base storage while being bent along the shape of the vehicle body. The retainer member is attached to the vehicle body together with the base attachment portion while being overlapped with the base attachment portion.

A side air bag device is described which is disposed in a space between a vehicle body and a back seat and for which rigidity of attachment to a vehicle body member is improved. The side air bag device provided between a vehicle body and a back seat includes: a base member including a base storage configured to store an air bag and an inflator and a base attachment portion attached to the vehicle body; and a retainer member configured to hold the base storage from a vehicle back side. The retainer member extends from a portion holding the base storage while being bent along the shape of the vehicle body. The retainer member is attached to the vehicle body together with the base attachment portion while being overlapped with the base attachment portion.

In various examples, systems and methods are disclosed that accurately identify driver and passenger in-cabin activities that may indicate a biomechanical distraction that prevents a driver from being fully engaged in driving a vehicle. In particular, image data representative of an image of an occupant of a vehicle may be applied to one or more deep neural networks (DNNs). Using the DNNs, data indicative of key point locations corresponding to the occupant may be computed, a shape and/or a volume corresponding to the occupant may be reconstructed, a position and size of the occupant may be estimated, hand gesture activities may be classified, and/or body postures or poses may be classified. These determinations may be used to determine operations or settings for the vehicle to increase not only the safety of the occupants, but also of surrounding motorists, bicyclists, and pedestrians.

In various examples, systems and methods are disclosed that accurately identify driver and passenger in-cabin activities that may indicate a biomechanical distraction that prevents a driver from being fully engaged in driving a vehicle. In particular, image data representative of an image of an occupant of a vehicle may be applied to one or more deep neural networks (DNNs). Using the DNNs, data indicative of key point locations corresponding to the occupant may be computed, a shape and/or a volume corresponding to the occupant may be reconstructed, a position and size of the occupant may be estimated, hand gesture activities may be classified, and/or body postures or poses may be classified. These determinations may be used to determine operations or settings for the vehicle to increase not only the safety of the occupants, but also of surrounding motorists, bicyclists, and pedestrians.

An airbag operating apparatus for a vehicle may include: a sensing signal input unit configured to receive a sensing signal; a plurality of squib driving units including input ports connected in parallel to one another, having internal resistances set different from one another, installed to correspond to a plurality of airbags, respectively, and configured to drive the corresponding airbags when reaching an ignition current value according to airbag deployment signals; a storage unit configured to store the internal resistances of the plurality of squib driving units and output voltages of the airbag deployment signals according to deployment situations; and a control unit configured to receive the sensing signal from the sensing signal input unit, determine situations for deploying the plurality of airbags, and output the airbag deployment signals as output voltages to the input ports of the plurality of squib driving units according to the determination result.

An airbag operating apparatus for a vehicle may include: a sensing signal input unit configured to receive a sensing signal; a plurality of squib driving units including input ports connected in parallel to one another, having internal resistances set different from one another, installed to correspond to a plurality of airbags, respectively, and configured to drive the corresponding airbags when reaching an ignition current value according to airbag deployment signals; a storage unit configured to store the internal resistances of the plurality of squib driving units and output voltages of the airbag deployment signals according to deployment situations; and a control unit configured to receive the sensing signal from the sensing signal input unit, determine situations for deploying the plurality of airbags, and output the airbag deployment signals as output voltages to the input ports of the plurality of squib driving units according to the determination result.

A system and method is provided for measuring a voltage drop at a node. In embodiments, a circuit includes an analog-to-digital converter, a current sink, and a controller. The input of the analog-to-digital converter and the input of the current sink is coupled to the node to be measured. A set point for the current sink is determined. The output of the analog-to-digital converter during the voltage drop is sampled. And a relative voltage drop value is computed by subtracting the sampled output of the analog-to-digital converter during the voltage drop from a sampled output of the analog-to-digital converter during a steady-state condition. The current sink operating at the set point during the steady-state condition and during the voltage drop.

A method and a system for impact detection in a stationary vehicle are provided. The method includes putting a telematics device into a sleep mode and performing a first micro wakeup. In response to determining that a first value read from a sensor during the micro wakeup is greater than a noise threshold, increasing a frequency of the micro wakeups and a sampling rate of the sensor. The method also includes reading a second value from the sensor during a second wakeup, performing a regular wakeup, and sending the first and second values during the regular wakeup.

A vehicular exterior rearview mirror assembly includes a mirror head disposed at a mounting structure and having a mirror casing and a mirror reflective element. An indicator module is disposed at a rear portion of the mirror reflective element and includes a housing having an indicating portion and a connector portion, a circuit board disposed in the indicating portion and having circuitry and a light source. The circuitry includes electrically conductive terminals extending from the circuit board and disposed at the connector portion of the housing. An electrical connector has a connecting end that is received in the connector portion of the housing to electrically connect to the electrically conductive terminals. An anti-backout element is disposed at the connector portion. With the electrical connector received in the connector portion, the anti-backout element is positioned at the electrical connector to preclude backing out of the electrical connector from the connector portion.