Systems and techniques are described for event detection. A described system includes a vehicle body containing body regions, sensors, processor, and memory. The sensors can include at least one sensor positioned about at least one body region of the body regions. The at least one body region can be associated with a region event type. The memory can store instructions thereon that, when executed by the processor, cause the processor to perform operations which can include obtaining data associated with at least one sensor measurement from the at least one sensor, determining that the at least one sensor measurement is associated with the region event type, and determining that an event associated with the region event type occurred based on determining that the at least one sensor measurement is associated with the region event type and that the at least one body region is associated with the region event type.

A method and an apparatus/assembly provides enhanced protection to a baby in a child safety car seat. A bullet-proof child seat apparatus (BCSA) having a central segment that includes a seat portion and a backrest portion with a shapeable and adjustable headrest is constructed using bullet-proof covering that includes a protective blanket. Adjacent to the central segment are shapeable first and second side segments, each having a collar portion at an upper end and a side panel portion extending downward and away from the collar portion. The BCSA protects a baby fastened in place within the central segment by an enclosing bullet-proof blanket moldable around a baby’s face, an outer bullet-proof material and/or a structure/chassis having a bullet-proof composition. The covering and structure provides complete protection from side to side while side segments can be pulled inward to provide added protection from a frontal direction and particularly to the head and face of a baby whose body is protected in the front by firmly extended flaps of the blanket. The BCSA also includes an infant risk tracking and reporting (IRTR) module that provides further protection by using sensors to track and report a baby’s presence and surrounding environment.

A vehicle seat device includes: an expansion and contraction pattern setting unit that sets an expansion and contraction pattern of each air bag for air bags which are expanded to press a seat skin from an inside; an adjustment position detection unit that detects an adjustment position of a seat element constituting a seat for the seat provided with each of the air bags; and a pressing operation reduction region estimation unit that estimates an existence of a pressing operation reduction region where a pressing operation of the seat skin due to the expansion of the air bag is reduced based on the adjustment position of the seat element. When the existence of the pressing operation reduction region is estimated, the expansion and contraction pattern setting unit sets the expansion and contraction pattern excluding the air bag located in the pressing operation reduction region among the respective air bags.

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.

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.

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.

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.

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.

An airbag apparatus for a vehicle includes: an airbag cushion disposed in the vehicle to be in front of an occupant, the airbag cushion inflating rearwards toward the occupant and laterally upon deployment; a plurality of restraint tethers, each of which having: a first end connected to a front side of the airbag cushion; and a second end connected to a rear end portion or a side end portion of the airbag cushion, each of the plurality of restraint tethers restraining inflation of the airbag cushion to determine a shape of the airbag cushion upon full deployment; and a cushion adjusting mechanism configured to selectively cut or not cut the plurality of restraint tethers upon the deployment, such that a first cushion portion of the airbag cushion inflates more than a second cushion portion of the airbag cushion.