A HUD display system based on lane line vanishing point according to the invention includes a HUD display, characterized by further including an image acquisition device; the HUD display is further provided with a displayed image adjustment module. The image acquisition device is used for acquiring images of road surface in the traveling direction of the vehicle and the images acquired by the image acquisition device include a display interface of the HUD display. The displayed image adjustment module recognizes lane lines of the road based on the images of road surface acquired by the image acquisition device, maps an intersection point of extension lines of the lane lines on two sides of the vehicle where the intersection point is used as the vanishing point, deforms the content to be displayed and then displays the deformed content by the HUD display by taking lines, each of which connects one of two boundary points at a lower end of the display interface of the HUD display with the vanishing point, respectively, as boundaries of the adjusted display interface. The invention enables the displayed image of the HUD to better fit the road surface when viewed from the interior of the driver's cab, thus greatly reducing the sense of foreign matters in the vision of the driver and improving the safety in driving.

An automotive imaging security system for a vehicle for recording an immediate environment of the vehicle upon an occurrence of a predetermined event. The automotive imaging security system includes four cameras coupled at the four corners of the vehicle's body and configured to capture the immediate environment of the vehicle. The automotive imaging security system further includes one or more sensors configured to detect the predetermined event and activate the camera.

A vehicle theft-prevention apparatus can include a wireless transceiver, a plurality of sensors configured to sense measurements proximate to a vehicle, and at least one computing device coupled to the plurality of sensors and the wireless transceiver. The at least one computing device can be configured to read a plurality of measurements of the plurality of sensors and determine that at least one event has occurred based on the plurality of measurements. The at least one computing device can store data corresponding to the at least one event on a local storage coupled to the at least one computing device and can transmit, via the wireless transceiver, the data corresponding to the at least one event to a remote service.

A vehicle collision warning and avoidance system including a vehicle that includes one or more sensors, one or more cameras configured with an extended rod to monitor the exact location and the speed of the other vehicles to monitor for a collision condition, and visual monitoring display system configured to emit a warning signal to warn a vehicle driver about the collision condition, the internal warning signal system including at least one warning device configured to emit the warning signal, and a processor configured to detect an exit condition using a signal received from the one or more sensors and the one or more cameras in response to the collision condition.

A method security monitors a parked vehicle's surroundings. The vehicle has a plurality of motion activated sensors mounted on the vehicle to obtain data regarding an area near the vehicle. The vehicle includes a controller. mounted on the vehicle, electrically connected with the plurality of sensors to receive the data from the sensors and to process the data to identify activity in the area near the vehicle. With the vehicle parked and the ignition off, at least one of the plurality of sensors senses activity occurring in the area near the vehicle. When activity is determined to be occurring in the sensed area near the vehicle, certain ones of the plurality of sensors monitors the area near the vehicle and provides data to the controller indicative of the activity occurring in the area near the vehicle. A system is also provided.

An external rearview assembly includes a housing pivotally coupled with a vehicle door and operable between an extended position and a retracted position. An electro-optic element is operably coupled with the housing. A display module is disposed proximate the electro-optic element. The display module is activated when the housing is in the retracted position. The display module is deactivated when the housing is in the extended position. An imager is operably coupled with the housing and is configured to capture image data when the housing is in the retracted position and display the image data on the activated display module.

A display control device includes a cancellation detection unit that is configured to detect a cancellation regarding a program rewrite from first update data stored in the rewrite target ECU to second update data acquired from an external device, a write instruction unit that is configured to distribute the second update data to the rewrite target ECU and instruct the rewrite target ECU to write the second update data thereinto, and a notification instruction unit that is configured to give an instruction for notification of a progress regarding the program rewrite. The notification instruction unit is further configured to give the instruction to make the notification of the progress regarding the program rewrite in a first manner when the write instruction unit is distributing the second update data, and give the instruction to make the notification of the progress regarding the program rewrite in a second manner when the cancellation detection unit detects the cancellation. The write instruction unit is further configured to continue distributing the second update data when the cancellation detection unit detects the cancellation during distribution of the second update data by the rewrite instruction unit.

A vehicle theft-prevention system can include a mobile application that can determine a location of the mobile device. One or more computing devices can be in communication with the mobile application via a network. The mobile application and the at least one computing device configured to determine that the location of the mobile device has moved outside of a geofence associated with a vehicle theft-prevention apparatus. The mobile application and the at least one computing device can cause the vehicle theft-prevention apparatus to change from an unarmed mode to an armed mode.

A vehicle can include one or more movably mounted cameras that are able to move to adjust a viewing angle of the camera(s) relative to a body of the vehicle. The camera(s) may be movable by virtue of being coupled to a movable side mirror, such that movement of the side mirror changes a field of view of the camera coupled to the side mirror. For example, the side mirror can be rotated about a rotational axis between a first position in which a field of view of the camera is directed in a first direction (e.g. toward a ground proximate the vehicle), and a second position in which the field of view of the camera is directed in a second direction, different than the first direction (e.g., outward from the vehicle or toward a door of the vehicle).

A vehicle theft-prevention apparatus can include a locking mechanism, at least one computing device, and a cylindrical body including a first portion and a second portion. The first portion can be configured to rotate about the second portion. The at least one computing device can be configured to determine that the locking mechanism has transitioned from an unlocked state to a locked state. In response to determining that the locking mechanism has transitioned to the locked state, the at least one computing device can disable an engaging component of the locking mechanism. The at least one computing device can be configured to receive, via a network, a command to enable the engaging component. In response to receiving the command, the at least one computing device can enable the engaging component of the locking mechanism.