A position determination method in a vehicle, which uses signals from a pressure-based collision sensor. In addition, an associated electronic control module and an associated use.

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.

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.

A vehicle-hood assembly includes a vehicle hood and an energy absorber fixed to the vehicle hood. The energy absorber is releasable from a compressed position to an uncompressed position. The energy absorber includes a chamber that is sealed and vacuum pressurized in the compressed position. An actuator is configured to unseal the chamber to release the energy absorber from the compressed position to the uncompressed position.

The present disclosure provides a vehicle airbag device including: an airbag that inflates and deploys due to supply of gas, that has a main body and a projection that projects in a vehicle rearward direction, and that has a gap portion, between the main body and the projection, which opens in the vehicle rearward direction; and a coupling portion that couples together a first attachment portion set at the airbag at a front end portion side of the gap portion and a second attachment portion set at a side portion of the projection, and which, when inflation and deployment of the airbag, stretches between the first attachment portion and the second attachment portion, which is positioned further in the vehicle rearward direction than the first attachment portion.

The present disclosure provides a vehicle airbag device including: an airbag that inflates and deploys due to supply of gas, that has a main body and a projection that projects in a vehicle rearward direction, and that has a gap portion, between the main body and the projection, which opens in the vehicle rearward direction; and a coupling portion that couples together a first attachment portion set at the airbag at a front end portion side of the gap portion and a second attachment portion set at a side portion of the projection, and which, when inflation and deployment of the airbag, stretches between the first attachment portion and the second attachment portion, which is positioned further in the vehicle rearward direction than the first attachment portion.

Methods and systems for assessing, detecting, and responding to malfunctions involving components of autonomous vehicles and/or smart homes are described herein. Malfunctions may be detected by receiving sensor data from a plurality of sensors. One of these sensors may be selected for assessment. An electronic device may obtain from the selected sensor a set of signals. When the set of signals includes signals that are outside of a determined range of signals associated with proper functioning for the selected sensor, it may be determined that the selected sensor is malfunctioning. In response, an action may be performed to resolve the malfunction and/or mitigate consequences of the malfunction.

A pre-crash system has at least one dummy actuator and an adaptive pre-trigger function that is implemented with different parameter sets as a function of a current degree of validation, and evaluates the acquired physical quantities for pre-crash recognition in order to recognize an unavoidable crash, a first parameter set, which limits the pre-trigger function to a dummy operating mode in which the pre-trigger function produces at least one trigger signal for the dummy actuator if the evaluation of the physical quantities permits the inference of an unavoidable crash, being implemented until the current degree of validation satisfies a specified condition, the pre-trigger function comparing the triggering of the dummy actuator with the behavior of the evaluation and control unit, and, as a function of the comparison, rating the triggering of the dummy actuator as “correct” or as a “false positive.”

Methods and systems for autonomous vehicle recharging or refueling are disclosed. Autonomous vehicles may be automatically refueled by routing the vehicles to available fueling stations when not in operation, according to methods described herein. A fuel level within a tank of an autonomous vehicle may be monitored until it reaches a refueling threshold, at which point an on-board computer may generate a predicted use profile for the vehicle. Based upon the predicted use profile, a time and location for the vehicle to refuel the vehicle may be determined. In some embodiments, the vehicle may be controlled to automatically travel to a fueling station, refill a fuel tank, and return to its starting location in order to refuel when not in use.

A vehicle safety system of a vehicle facilitates safe exigency ingress into a vehicle. The vehicle safety system may receive data associated with a condition of the vehicle (e.g., from sensors, components, remote signals, passenger input, etc.). Based at least in part on the data associated with the condition of the vehicle, the vehicle safety system may detect a triggering event associated with the ingress of a passenger compartment of the vehicle. Based at least in part on the triggering event, the vehicle safety system may perform a vehicular safety measure associated with ingress to the passenger compartment of the vehicle.