An electric vehicle battery pack release system configured to cause a physical separation of a battery pack from an electric vehicle on to which the battery pack is mounted, including one or more pyrotechnic bracket assembly configured to operably couple a battery pack to an electric vehicle, one or more sensor configured to sense a state of the electric vehicle, and an electronic control unit configured to receive data from the one or more sensors and to trigger an explosion in the one or more pyrotechnic bracket assemblies to affect the physical separation of the battery pack from the electric vehicle.

A control device for controlling a passenger protection device for a vehicle includes an input unit configured to receive a first acceleration signal in a first axial direction and a second acceleration signal in a second axial direction which are generated by an acceleration sensor disposed in a side door of a vehicle, a determination unit configured to determine whether a collision has occurred in the side door of the vehicle using at least one of the first acceleration signal and the second acceleration signal, and a control unit configured to control a passenger protection device disposed adjacent to the side door of the vehicle based on a result of determining whether the collision has occurred.

A control device for controlling a passenger protection device for a vehicle includes an input unit configured to receive a first acceleration signal in a first axial direction and a second acceleration signal in a second axial direction which are generated by an acceleration sensor disposed in a side door of a vehicle, a determination unit configured to determine whether a collision has occurred in the side door of the vehicle using at least one of the first acceleration signal and the second acceleration signal, and a control unit configured to control a passenger protection device disposed adjacent to the side door of the vehicle based on a result of determining whether the collision has occurred.

From a set of point data, a set of scattered rays is constructed. From the set of scattered rays, a set of ray slopes is computed. The set of ray slopes is mapped to a corresponding set of trigonometric functions. Using an optimization method, a parameter of the set of trigonometric functions is selected. Using an inverse of the set trigonometric functions, a vehicle mass corresponding to the set of point data is computed. Based on the vehicle mass, a threshold braking distance of a collision avoidance system of the vehicle is adjusted, the threshold braking distance comprising a distance from an object predicted to collide with the vehicle. By braking the vehicle at least the threshold braking distance from the object, a predicted collision between the vehicle and the object is avoided.

A method for controlling actuation of an actuatable restraint in response to a vehicle rollover event includes detecting whether the vehicle (12) is being driven off-road. The method also includes determining whether the vehicle (12) is undergoing a roll event (99) that would warrant actuation of the actuatable restraint (20) if the vehicle was being driven on-road. The method further includes actuating the actuatable restraint (20) in response to determining that a roll acceleration (D RATE) of the vehicle (20) indicates that the roll event is continuing. A vehicle safety system (10) includes an actuatable restraint and a controller (50) configured to control actuation of the actuatable restraint according to this method.

A method for controlling actuation of an actuatable restraint in response to a vehicle rollover event includes detecting whether the vehicle (12) is being driven off-road. The method also includes determining whether the vehicle (12) is undergoing a roll event (99) that would warrant actuation of the actuatable restraint (20) if the vehicle was being driven on-road. The method further includes actuating the actuatable restraint (20) in response to determining that a roll acceleration (D RATE) of the vehicle (20) indicates that the roll event is continuing. A vehicle safety system (10) includes an actuatable restraint and a controller (50) configured to control actuation of the actuatable restraint according to this method.

A method for detecting a direction of a collision of a vehicle. The method includes a comparing step, in which a first acceleration signal is compared to two threshold values, in order to determine a first collision direction signal indicating a direction of the collision, and in which a second acceleration signal is compared to a further threshold value, in order to determine a further collision direction signal indicating a direction of the collision. The second acceleration signal represents the acceleration of the vehicle subjected to smoothing. In the determining step, using the first collision direction signal and the further collision direction signal, a result signal is determined, which indicates the direction indicated by the first collision direction signal and by the further collision direction signal as an actual collision direction.

A method for detecting a direction of a collision of a vehicle. The method includes a comparing step, in which a first acceleration signal is compared to two threshold values, in order to determine a first collision direction signal indicating a direction of the collision, and in which a second acceleration signal is compared to a further threshold value, in order to determine a further collision direction signal indicating a direction of the collision. The second acceleration signal represents the acceleration of the vehicle subjected to smoothing. In the determining step, using the first collision direction signal and the further collision direction signal, a result signal is determined, which indicates the direction indicated by the first collision direction signal and by the further collision direction signal as an actual collision direction.

A vehicle control device that controls a vehicle, the vehicle control device comprising: an acquisition unit configured to acquire surrounding information of the vehicle; a recognition unit configured to recognize another vehicle traveling in surroundings of the vehicle, based on the surrounding information; a calculation unit configured to calculate a visual recognition ratio of a steering wheel of the other vehicle to a perfect circle; and a control unit configured to control the vehicle, based on the visual recognition ratio.

A vehicle control device that controls a vehicle, the vehicle control device comprising: an acquisition unit configured to acquire surrounding information of the vehicle; a recognition unit configured to recognize another vehicle traveling in surroundings of the vehicle, based on the surrounding information; a calculation unit configured to calculate a visual recognition ratio of a steering wheel of the other vehicle to a perfect circle; and a control unit configured to control the vehicle, based on the visual recognition ratio.