Disclosed herein are a vehicle emergency notification method and apparatus using interaction with an external terminal. Some of functions of a conventional vehicle emergency notification apparatus are performed by a replaceable or detachable external terminal. The apparatus may provide notification of a vehicle emergency via interaction with the external terminal. The external terminal generates a Minimum Set of Data (MSD) related to an accident involving the vehicle. A proxy Public Safety Answering Point (PSAP) receives the MSD from the external terminal. The PSAP finally determines whether an accident involving the vehicle has occurred via interaction with a proxy PSAP FE and interaction with a vehicle occupant, and requests dispatch from an emergency agency if it is finally determined that the accident involving the vehicle has occurred.

A lane departure avoidance system disables start of steering control or terminate running steering control upon determination that a value of a at least one selected variation, which is selected from a first variation, a second variation, a third variation, and a fourth variation, is equal to or more than a corresponding threshold. The first variation is a variation of a lateral position of an own vehicle relative to lane marking lines recognized by a recognition unit, and the second variation is a variation of a yaw angle of the own vehicle relative to the recognized lane marking lines. The third variation is a variation of a curvature of the recognized lane marking lines, and the fourth variation is a variation of a pitch angle of the own vehicle.

A lane departure avoidance system disables start of steering control or terminate running steering control upon determination that a value of a at least one selected variation, which is selected from a first variation, a second variation, a third variation, and a fourth variation, is equal to or more than a corresponding threshold. The first variation is a variation of a lateral position of an own vehicle relative to lane marking lines recognized by a recognition unit, and the second variation is a variation of a yaw angle of the own vehicle relative to the recognized lane marking lines. The third variation is a variation of a curvature of the recognized lane marking lines, and the fourth variation is a variation of a pitch angle of the own vehicle.

A double-security anti-theft emergency switch, specially suitable for batteryless race motor vehicles comprising a fixed assembly integral with the vehicle and cooperating with a movable key which is tied up to the driver by means of an even partially elastic lace, is disclosed. The double security is bound to the presence of a first normally closed switch whose opening, via the movable key, is necessary to disconnect the ignition circuit of the motorcycle from ground and to allow the engine to start-up, so as to produce the electrical power necessary for an RFID system to monitor a transponder comprised in the movable key. Should the outcome of this transponder test be unsuccessful, a second normally open switch would be closed and would ground the ignition circuit of the engine and lock the motorcycle.

In a parking assistance method of a parking control device which executes parking control with respect to a free parking space surroundings a host vehicle, a first frame line of free parking space in a direction orthogonal to a vehicle width direction and a second frame line which forms a pair with the first frame line are detected, and a parking target is set on a straight line connecting between a point on the first frame line and a point on the second frame line, for example, the parking target is set on the straight line connecting between an end on the first frame line and an end on the second frame line, and parking control is executed so that a position of wheels of the host vehicle is matched with the parking target.

The present invention addresses the problem of obtaining a vehicle-mounted image recognition device capable of improving the efficiency of image processing. This vehicle-mounted image recognition device 100 for solving the abovementioned problem sets a stereoscopic vision image region 502 in each of captured images 501 captured by a pair of right and left cameras, while setting a monocular vision image region 503 in the captured image 501 captured by one of the cameras, scans each of the captured images captured by the pair of right and left cameras along an image scanning line in a right-left direction, distributes the scanned image into stereoscopic vision image data obtained by scanning the inside of the stereoscopic vision image region 502 and monocular vision image data obtained by scanning the inside of the monocular vision image region 503, performs stereoscopic vision image processing using the stereoscopic vision image data, performs monocular vision image processing using the monocular vision image data, and recognizes an object corresponding to the type of an application using image processing results.

A tunable knee blocker energy absorption system for a vehicle having an instrument panel, a structural cross-car member, and an occupant protection device includes a left energy absorption (EA) bracket configured to couple to the structural cross-car member and including a left lower EA bracket, a left upper EA bracket, and a left EA bridge. A right EA bracket is configured to couple to the structural cross-car member and includes a right lower EA bracket and a right upper EA bracket. The left EA bracket and the right EA bracket are distinct from each other to manage a non-uniform load path of occupant femurs into the instrument panel and alter the kinematic response of the occupant back to a uniform presentation to the occupant protection device.

A tunable knee blocker energy absorption system for a vehicle having an instrument panel, a structural cross-car member, and an occupant protection device includes a left energy absorption (EA) bracket configured to couple to the structural cross-car member and including a left lower EA bracket, a left upper EA bracket, and a left EA bridge. A right EA bracket is configured to couple to the structural cross-car member and includes a right lower EA bracket and a right upper EA bracket. The left EA bracket and the right EA bracket are distinct from each other to manage a non-uniform load path of occupant femurs into the instrument panel and alter the kinematic response of the occupant back to a uniform presentation to the occupant protection device.

An occupant protection apparatus is configured to protect an occupant to sit on a seat of a vehicle. The apparatus includes an airbag in a shape of a rod at least in part. The airbag extends downward from above shoulders of the occupant to deploy on sides of the shoulders. At a completion of deployment, part of the airbag becomes approximately straight, and an upper part of the airbag tilts toward a center of the seat in a right-to-left direction.

An occupant protection apparatus is configured to protect an occupant to sit on a seat of a vehicle. The apparatus includes an airbag in a shape of a rod at least in part. The airbag extends downward from above shoulders of the occupant to deploy on sides of the shoulders. At a completion of deployment, part of the airbag becomes approximately straight, and an upper part of the airbag tilts toward a center of the seat in a right-to-left direction.