A universal reminder device in the form of a series circuit including a power source, a warning indicator, a pressure-sensitive normally closed momentary switch, and a pressure-sensitive normally open momentary switch.

An electronic controller of a restraint control system for a vehicle comprises an electronic control unit including a first serial interface. The electronic controller also comprises a communications controller including a second serial interface and a plurality of PSI5 (Peripheral Sensor Interface 5) digital communications interfaces. Each of the first and second serial interfaces are Serial Peripheral Interfaces (SPI) in direct communications with one another, and the digital communications interfaces are each configured to communicate with a remote sensor. The communications controller is configured to transmit a voltage sync pulse to each of the remote sensors via the PSI5 digital communications interfaces in response to a synchronization command received from the electronic control unit via the serial interconnection. The voltage sync pulses on each of the PSI5 interfaces may be staggered and non-overlapping to reduce EMI production and to reduce the current load of the electronic controller.

An assembly for a vehicle includes a first seat and a second seat. The assembly includes a crossbar positioned between the first seat and the second seat. The assembly includes an airbag supported by the crossbar. The assembly includes a controller programmed to position the crossbar in a raised position in response to a detected occupant egress.

A system for a vehicle includes computer including a processor and a memory storing instructions executable by the processor to identify a longitudinal position of a seat. The instructions include to identify a rotational position of the seat. The instructions include to selectively inflate one or more of a plurality of inflation chambers of an airbag adjacent the seat based on the longitudinal position and the rotational position of the seat.

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 vehicle has a restraint system with at least two restraint devices. A sensor detects a potential collision object and outputs a signal representing a relative position of the potential collision object to the vehicle. A processing device suppresses deployment of at least one of the restraint devices based at least in part on the signal output by the at least one sensor.

An occupant protecting device including: a seat provided in a vehicle, the seat including a seat cushion, a seat back, and a headrest, and the seat being provided with an air bag that inflates and deploys at least to a front and both of left and right sides of a head of a seated occupant; and a control device that in the case of having detected or predicted a collision of the vehicle, causes the air bag to inflate and deploy, and in the case that the seat is facing an opposite side to a collision side when the collision has been detected or predicted, delays a timing of causing the air bag to inflate and deploy more compared to in the case that the seat is facing the collision side.

An occupant protection device for a vehicle includes a seat, a three-point seatbelt device, and a belt airbag device. An occupant to board the vehicle is to sit on the seat. The three-point seatbelt device includes a seatbelt extendable across a front of an upper body of the occupant sitting on the seat. The belt airbag device includes a belt airbag that is provided at a shoulder belt section, which is extendable from a shoulder to a waist of the occupant, of the seatbelt, and that is configured to be deployed when a collision occurs. The belt airbag includes a belt-direction deployment section extendable and deployable along the shoulder belt section, and an intersecting-direction deployment section extendable and deployable in a direction intersecting the shoulder belt section. The sections are configured to form a single bag by being coupled to each other below a head of the occupant sitting on the seat.

A vehicle seat is rotatable about an axis perpendicular to a vehicle floor from a forward-facing position to a rear-facing position. The seat includes a seat bottom and a seat back. A seat belt assembly extends at least partially from the seat back. At least one airbag is incorporated into the seat belt assembly and is deployable when the vehicle seat is rotated to at least one of the rear-facing position and a position between the forward-facing position and the rear-facing position.

An occupant detection method includes detecting a load acting on a seat for a vehicle with use of a load sensor provided at the seat, monitoring a seating sensor output outputted from a seating sensor forming a detection region at the seat, and determining that a child occupant is seated at a child restraint seat installed at the seat when a detection value of the load sensor is equal to or larger than a minimum value determining that an adult occupant is seated at the seat and equal to or smaller than a maximum value determining that the child occupant is seated at the child restraint seat, in a case where the seating sensor output indicates a state in which a seating load of an occupant is not applied to the detection region, the seating load corresponding to a load of the occupant while the occupant is seated.