A vehicle control device detects an object existing in front in a traveling direction of a host vehicle by an object detection sensor, and performs collision avoidance control with respect to the object based on a detection result and includes: a determining unit that, in a case where there is an object moving toward the front of the host vehicle in a direction intersecting the traveling direction of the host vehicle, determines that a portion other than a front end portion of the object is acquired by the object detection sensor as a detection position of the object and a control unit that, in a case where it is determined that a portion other than the front end portion of the object has been acquired, permits collision avoidance control to be performed even when a lateral position of the acquired portion is not in a collision prediction area.

Approaches herein provide a transaction card with an ergonomic textured grip. In some approaches, a card includes a body having a first main side and a second main side, and an identification chip along the first main side of the body. The card may further include a textured grip along the second main side of the body, wherein the textured grip comprises a plurality of curvilinear grip elements extending in an undulating arrangement between a first end and a second end of the textured grip.

On-road autonomous vehicles and other on-road vehicles operative to perform various autonomous maneuvers to reduce, avoid, or alleviate injuries in conjunction with an anticipated collision of the vehicle with a foreign object. A foreign object approaching is detected by the vehicle, object dynamics are calculated, and a prediction is made that a collision is either unavoidable or preferred over a different outcome. As a result, the vehicle then decides to perform an injury-mitigating autonomous maneuver in the short period of time between such a detection/prediction and the actual collision, in which such a maneuver is not expected to circumvent the collision, but is rather designed to mitigate injuries caused by the collision. The injury-mitigating autonomous maneuver may include autonomously and controllably changing orientation or trajectory of the vehicle relative to the foreign object or relative to the expected point of impact.

A method and apparatus of predicting a crash are provided. The method includes detecting coordinates of a target obstacle based on first coordinate information of a radar sensor and second coordinate information of an ultrasonic sensor, translating the second coordinate information to the coordinate system of the first coordinate information and generating translated coordinate information, estimating a position, speed, and acceleration of a vehicle if the vehicle is a predetermined distance from the target obstacle based on the translated coordinate information, determining a potential crash type between the vehicle and the target obstacle based on the estimated position, speed and acceleration of the vehicle, determining a three-dimensional movement trajectory based on the estimated position, speed and acceleration of the vehicle and the determined crash type, and predicting a crash point of the vehicle, a crash point of the target object and a crash time based on the three-dimensional movement trajectory.

An occupant protection control system that includes: a crash sensing component that senses an occurrence of a crash of a vehicle, including a crash type; a detecting component that detects a current seat state, of a seat whose state can be changed from a normal state; plural types of occupant protection devices that are disposed according to crash type and protect, according to crash type, an occupant seated in the seat; and a control component that, on the basis of a detection result of the detecting component and a sensing result of the crash sensing component, controls the plural types of occupant protection devices in such a way that, among the plural types of occupant protection devices, the control component operates occupant protection devices that are necessary to protect the occupant and prohibits operation of occupant protection devices that are not necessary to protect the occupant.

A battery system includes battery cells in a housing; and an impact detection circuit including an electrical resistor circuit supported by a plate member that is adjacent the battery cells and including electrical brittle conductors electrically connected in parallel to each other, each electrical brittle conductor is configured to break in response to an impact causing a deformation of the electrical brittle conductor; a voltage source connected to the electrical resistor circuit and configured to apply a voltage to the electrical resistor circuit; and a detector configured to determine at least one of an electrical resistance of the electrical resistor circuit and an electrical current flowing through the electrical resistor circuit, and detect an impact on the battery system based on determining at least one of a resistance increase and an electrical current drop due to breaking of at least one of the electrical brittle conductors.

A turret airbag system is provided including a plurality of airbags disposed within the turret to protect an occupant of the turret from injury and/or ejection from the turret. Turret airbags may be configured in padding around a turret access opening, and/or as substantially cylindrical airbags that deploy between the occupant of the turret and a wall or exterior opening of the turret. In some examples, the turret airbag(s) may be integrated with a countermeasure system that deploys explosion countermeasures and activates the turret airbags based on sensor data and multiple thresholds that indicate a collision event, a rollover event and/or an explosion event.

An apparatus and method for protecting a passenger of a vehicle that may minimize impact energy transmitted to a passenger by realizing rotation, position change, and space securing of an interior seat according to sensor detection of an external impact to a vehicle. The apparatus for protecting a passenger includes at least one seat movable in a length direction of the vehicle and rotatable disposed inside a vehicle, a plurality of sensing units installed in the vehicle and outputting a collision signal in case of a vehicle collision, and a controller determining a direction and location of a collision in the vehicle in case of the vehicle collision and controlling the at least one seat to be selectively moved and/or rotated according to the direction and location of the collision.