A vehicle is provided that includes an imaging device located on the vehicle and oriented to capture images, memory storing one or more pet profiles, and a controller processing the captured images to detect a pet and determining at least one of an estimated pose of the pet and a gait of the pet, wherein the processor determines a bone structure of the pet from the at least one estimated pose and gait and compares the bone structure to the one or more pet profiles to detect an authorized pet, the controller controlling one or more vehicle related features based on the detected authorized pet.

A device for providing an interface using a projection includes: a first camera for capturing a vehicle user when an approach of the vehicle user to a vehicle is detected; a projector for projecting an interface, related to at least one vehicle control function, preset based on user identification information; a second camera for capturing an area on which the interface is projected; a memory storing one or more instructions; and a processor for executing the instructions to: acquire the user identification information of the vehicle user using the first camera, recognize a user input to the interface using the second camera, and perform a vehicle control corresponding to the interface when the user input is recognized.

A method for monitoring internal environment of a vehicle implemented in an electronic device includes detecting environment data of internal of the vehicle, and detecting whether an engine of the vehicle is running; when the engine of the vehicle is running and the environment data does not meet a preset threshold, issuing a first alarm; when the engine of the vehicle is not running, obtaining location information of the vehicle, activating a camera device to capture images or shoot a video of internal of the vehicle, and determining whether at least one living creature is inside the vehicle; when the at least one living creature is inside the vehicle, transmitting the location information, and the images or the video and the environment data to a terminal device; and displaying the location information, the images or the video and the environment data, and issuing a second alarm.

Example vehicle security systems and methods are described. In one implementation, a method receives a destination and a driving route to the destination for an autonomous vehicle to follow. A vehicle security system identifies a passkey associated with the driving route and communicates the passkey to a user designated to meet the autonomous vehicle at the destination. The vehicle security system confirms that the user designated to meet the autonomous vehicle possesses the passkey.

A region monitoring system includes: a first communication control unit that transmits monitoring camera captured-image data to a monitoring server, the monitoring camera captured-image data being captured-image data of a monitoring camera that monitors a region in which a plurality of houses are located; and a camera communication control unit that transmits in-vehicle camera captured-image data to the monitoring server, the in-vehicle camera captured-image data being captured-image data of an in-vehicle camera of a vehicle located in the region.

Upon detecting an absence of a user inside a passenger cabin of a vehicle, an object inside the passenger cabin is classified as one of preferred or nonpreferred. Upon classifying the object as preferred, a sensor is activated to monitor an environment outside the passenger cabin based on determining the object is visible from outside the passenger cabin. A priority level for the preferred object is determined based on data from the sensor, wherein the priority level is one of high or low. A vehicle component is actuated to reduce the priority level based on determining the priority level for the preferred object is high.

A vehicle theft-prevention apparatus can include at least one computing device couple to a plurality of sensors and a wireless transceiver. The plurality of sensors can be configured to sense measurements proximate to a vehicle. The at least one computing device can be configured to read a plurality of first measurements of a first sensor of the plurality of sensors. Based on the plurality of first measurements from the first sensor, the at least one computing device can determine that a key fob moved outside of a range of the first sensor. In response to the key fob moving outside of the range of the first sensor, the at least one computing device can transition to an armed state. The at least one computing device can read a plurality of second measurements from a subset of the plurality of sensors. Based on the plurality of second measurements, the at least one computing device can determine that a person has entered the vehicle.

A vehicle security system connected to an external device running a program thereon, the vehicle security system including a front camera disposed on at least a portion of a front portion of a vehicle to record at least one first visual data of a surrounding area in a front of the vehicle thereon, a plurality of rear cameras disposed on at least a portion of a rear bumper of the vehicle to record at least one second visual data of a surrounding area in a rear of the vehicle thereon, a first mirror camera disposed on at least a portion of a first mirror of the vehicle to record at least one third visual data of a surrounding area on a first side of the vehicle thereon, a second mirror camera disposed on at least a portion of a second mirror of the vehicle to record at least one fourth visual data of a surrounding area on a second side of the vehicle thereon, a roof antenna camera disposed on at least a portion of a roof antenna of the vehicle to record at least one fifth visual data of a surrounding area on a roof of the vehicle thereon, a plurality of interior cameras disposed on at least a portion of a rearview mirror of the vehicle to record at least one sixth visual data of a surrounding area within an interior of the vehicle thereon, and a microphone disposed on at least a portion of the rearview mirror of the vehicle to record at least one audio data of a surrounding area of the vehicle.

A vehicle includes a first sensor that senses a state of the vehicle and a second sensor that senses outside of the vehicle. A computing device is configured to receive signals from the sensors and to control rotating and turning of the wheels. While the vehicle is parked, the computing device determines according to a signal received from the sensors, that a condition is satisfied. The condition may be associated with a particular wheel. Based on determining that the condition is satisfied, and while the vehicle remains parked, the computing device initiates automatically rotating or turning the particular wheel associated with the condition.

A vehicle operation detection device includes a storage unit configured to store a trained model obtained by machine learning using training data in which an image captured in advance and a body part used for a gesture of a user are associated with each other, an entry determination unit configured to determine whether, based on a position of the body part in the image obtained by inputting a newly captured image into the trained model, the body part enters a recognition area set in an imaging area of a camera, and a gesture determination unit configured to calculate a displacement vector of the body part based on images captured at a time interval after it is determined that the body part enters the recognition area, and determine, in accordance with whether a direction of the displacement vector is a direction corresponding to the gesture, whether the gesture is made.