The invention relates to a method of folding an airbag (10), especially a driver airbag module, comprising a front airbag layer (11) which is connected at least in portions to a rear airbag layer (12), the method comprising the following steps of: a) flatly spreading the airbag (10) onto a support surface (15) so that the front airbag layer (11) comes to rest on the rear airbag layer (12), b) folding, especially zigzag folding, at least in portions each of a left-hand lateral airbag portion (30) and a right-hand lateral airbag portion (31) in the direction of a longitudinal axis (L) of the airbag (10), c) furling each of an upper airbag portion (20) and a lower airbag portion (21) in the direction of a transverse axis (Q) of the airbag (10).

An apparatus comprising an arm control path, a deploy control path and a communication module. The arm control path maybe configured to trigger an arm signal. The deploy control path may be configured to trigger a deploy signal. The communication module may be configured to communicate a remote signal to/from an end device, generate a bypass signal in response to the remote signal and generate the remote signal in response to detecting the arm signal. An activation signal for an actuator may be generated in response to the arm signal and the deploy signal. The arm signal and the deploy signal may be generated independently. The communication module may enable the remote signal to activate the end device. The bypass signal may be compatible with the arm control path and ensure an independent and parallel path for the arm control path to generate the arm signal.

A method for activating a passenger protection device of a vehicle. A relative velocity value, which represents a relative velocity between the vehicle and an object, and at least one correction value are read in. In a further step, a velocity reduction value, which represents a decrease of a velocity of the vehicle when the vehicle collides with the object, is ascertained using the relative velocity value and the correction value. Finally, an activation signal for activating the passenger protection device is generated using the velocity reduction value.

An instrument-panel assembly includes an instrument panel, an airbag housing supported by the instrument panel, an airbag supported by the airbag housing, and a rotatable connection rotatably supporting the airbag housing on the instrument panel. The instrument panel extends along a longitudinal axis. The rotatable connection is rotatable about a rotational axis transverse to the longitudinal axis.

A circuit system includes: a receiver circuit which outputs a periodic voltage pulse via a bus line; and an ascertaining device configured to ascertain whether the voltage on the bus line has reached a specified threshold value. The circuit system is configured to start the reception of data signals a specified time period after an instant at which the voltage on the bus line has reached the specified threshold value.

A device for triggering at least one external protection function for a motor vehicle for the protection of external road users in particular need of protection, in particular for the protection of pedestrians, includes a control unit for evaluating sensor data from a first sensor system for sensing collision objects and for outputting a first trigger signal for the at least one external protection function, as well as an auxiliary control unit for evaluating sensor data from a second sensor system for sensing collision objects and for directly outputting a second trigger signal for the at least one external protection function if a collision object was detected, the auxiliary control unit being adapted such that the control unit is bypassed when the second trigger signal is output.

Systems and methods are provided for dampening impact to a vehicle. The system may include a vehicle frame component; a plurality of adjustable exterior vehicle body components coupled to the frame component, wherein the vehicle body components are on different sides of a vehicle and are configurable to dampen an external force exerted on the vehicle; a plurality of actuator components configured to adjust physical configurations of the vehicle body components relative to the frame component; a component configured to collect data representing an external environment of the vehicle; and one or more processors configured to detect, by processing the data, an external driving condition, wherein the external driving condition is an impending collision between the vehicle and one or more objects external to the vehicle, and when the external driving condition is detected, cause the actuator components to correspondingly adjust the physical configurations of the vehicle body components.

An in-vehicle system for a vehicle includes: a plurality of information processors that install an application; an application acquisition unit that acquires the application; a request specifying unit that specifies a request resource required by the application acquired by the application acquisition unit; a resource specifying unit that specifies a provision resource that is provided by each of the information processors; and a selection unit that selects one of the information processors which provides the provision resource satisfying the request resource as an installation destination of the application.

Systems and methods are provided for dampening impact to a vehicle. The system may include a vehicle frame component; a plurality of adjustable exterior vehicle body components coupled to the frame component, wherein the vehicle body components are on different sides of a vehicle and are configurable to dampen an external force exerted on the vehicle; a plurality of actuator components configured to adjust physical configurations of the vehicle body components relative to the frame component; a component configured to collect data representing an external environment of the vehicle; and one or more processors configured to detect, by processing the data, an external driving condition, wherein the external driving condition is an impending collision between the vehicle and one or more objects external to the vehicle, and when the external driving condition is detected, cause the actuator components to correspondingly adjust the physical configurations of the vehicle body components.

A system and method are provided for dampening impact to a vehicle. The system may include an adjustable exterior vehicle component configured to dampen an external force exerted on the vehicle, a vehicle frame component configured to couple to the adjustable exterior vehicle component, an actuator component configured to adjust a physical configuration of the adjustable exterior vehicle component, an external communication component configured to collect driving environment data representing an external environment of the vehicle, and one or more processors configured to receive driving environment data and detect, by processing the driving environment data, an external driving condition. When the one or more processors detect the external driving condition, the one or more processors may cause the actuator component to adjust the adjustable exterior vehicle component to a specific physical configuration.