The present description relates to an occupant protecting system for a vehicle, a vehicle comprising such an occupant protecting system and an occupant protecting method for such a vehicle. The occupant protecting system comprises a seat assembly, a sensor unit, an actuator unit and a control unit. The sensor unit is configured to generate crash monitoring data of the vehicle. The control unit is configured to determine a crash type based on the crash monitoring data in case of a collision of the vehicle. The actuator unit comprises a pyrotechnic element. The actuator unit is arranged at the seat assembly and capable to adjust a position of the seat assembly. The control unit is configured to cause the actuator unit based on the crash type.

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.

An assembly includes a seat. The assembly includes an anchor fixed relative to the seat. The assembly includes a blanket engageable with the anchor and inflatable to an inflated position. The assembly includes a computer having a processor and a memory storing instructions to inflate the blanket in response to detecting engagement of the blanket with the anchor and to deflate the blanket in response to detecting disengagement of the blanket from the anchor.

A protective system for a motor vehicle with automatic electrical seat position control and/or automatic electrical steering wheel adjustment is provided. The protective system includes a seat position control unit, a steering wheel adjustment control unit, an accident detection device and a communications connection. The seat position control unit is deactivates the automatic electrical seat position control. The steering wheel adjustment control unit is deactivates the automatic electrical steering wheel adjustment. The accident detection device detects a traffic accident of the motor vehicle. The communications connection connects the accident detection device to the seat position control unit and/or the steering wheel adjustment control unit. The accident detection device outputs at least one accident signal to the communications connection in the event of the detection of a traffic accident of the motor vehicle.

Methods and systems are provided for transmitting video data associated with a vehicle. In one exemplary embodiment, a vehicle processor determines a vehicle safety event based on one or more safety sensors, activates one or more vehicle cameras that capture video data in response to the determined vehicle safety event, records the video data in a vehicle data storage device, and, if the vehicle processor determines that a suitable connection to a telecommunications network is available when the video data is being captured, then transmits the video data over the telecommunications network in substantially real time.

A personal mobility device configured for preventing a plurality of occupants from riding therein and a method of controlling stability therefor, may include a sensor unit including a plurality of sensors configured to detect a current boarding weight on the personal mobility apparatus, a pressure applied to a deck, and a driving speed, a communication unit configured to transmit and receive data to or from a communication terminal device of a user, and a controller configured to analyze information on a weight of the user, provided from the communication unit, and sensing information provided from the sensor unit, to determine whether a plurality of occupants rides in the personal mobility device, and to control an operation of the driving unit, preventing an accident when a plurality of occupants rides therein.

Apparatus, methods, and systems for repositioning a steering wheel and/or airbag cushion prior to and/or during deployment of the airbag cushion resulting from an impact event. Some embodiments may comprise a steering wheel configured to be positioned between a first, operational configuration and a second, deployed configuration, wherein in the second configuration the steering wheel is positioned laterally relative to the first configuration, and wherein the steering wheel is configured to be repositioned between the first configuration and the second configuration. A steering wheel actuator may be configured to move the steering wheel laterally from the first configuration to the second configuration.

A damage reduction device according to an embodiment of the present technology includes an input unit, a prediction unit, a recognition unit, and a determination unit. The input unit inputs status data regarding a status in a moving direction of a moving body apparatus. The prediction unit predicts a collision with an object in the moving direction on the basis of the status data. The recognition unit recognizes whether the object includes a person. The determination unit determines, when the collision with the object is predicted and it is recognized that the object includes a person, a steering direction of the moving body apparatus in which a collision with the person is avoidable, on the basis of the status data.

A method of managing collisions, the method comprising: identifying a first crash structure (22) and determining an initial stiffness of the crash structure; determining a level of aggressivity of the collision based on the predicted energy absorption for each vehicle; identifying a first crash structure whose stiffness can be adjusted, and determining a subsequent stiffness value for the crash structure based on the determined amount of energy to be absorbed by each of the vehicles such that the energy absorbed by the crash structure is changed and the level of aggressivity is reduced; and stiffening the first crash structure to the determined stiffness value.

A safety system for a vehicle seat in a commercial vehicle operating a vehicle seat motion actuation when the commercial vehicle is colliding with an obstacle, comprising: —at least one actuator unit that comprises at least one seat actuator to move the vehicle seat from a driving position to a safety position—at least one control unit connected to said actuator unit to control the at least one seat actuator—at least one proximity sensor connected to said control unit and configured to detect an obstacle before the commercial vehicle collides it characterized in that the control unit is provided with a calculator device retrieving specific data (Dw, Dw′, Ds, Do) to determine the requested seat's motion speed profile and the requested seat's motion triggering moment to control, upon receiving an imminent and unavoidable collision alert signal from the proximity sensor, the at least one seat actuator to move the vehicle seat to the safety position.