A vehicle theft recording system, including a first exterior 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 second exterior camera disposed on at least a portion of a rear portion of the vehicle opposite with respect to the front portion 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 opposite with respect to the first side of the vehicle to record at least one fourth visual data of a surrounding area on a second side of the vehicle thereon, an interior camera disposed on at least a portion of a dashboard of the vehicle to record at least one fifth visual data of a surrounding area within an interior of the vehicle thereon, and an alert unit disposed within at least a portion of the vehicle to respond to an alert based on a presence of at least one unauthorized user within and around the vehicle.

The present disclosure relates to the technical field of recreational vehicles (RVs), and provides an RV monitoring system. The RV monitoring system includes a display screen, and a rear-view camera assembly, a side-view camera assembly, a door-top camera assembly, and a reversing camera that are electrically connected to the display screen, where the display screen is detachably disposed inside an RV, the reversing camera is detachably disposed at a lower end of the tail of the RV, the rear-view camera assembly is mounted at a stop lamp of the RV, the door-top camera assembly is disposed on the top of a door of the RV, and the side-view camera assembly is disposed at a turn lamp of the RV.

A vehicle theft-prevention apparatus can include at least one computing device coupled to at least one sensor and a wireless transceiver. The at least one sensor 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 the at least one sensor at a predetermined frequency, where the at least one sensor is located in a first position of the vehicle. The at least one computing device can be configured to receive a plurality of second measurements from at least one additional theft-prevention apparatus, where the at least one additional theft-prevention apparatus is located at a second position in the vehicle. The at least one computing device can determine that a person has entered the vehicle based on at least one of: the plurality of first measurements and the plurality of second measurements.

A 360-degree vehicle video surveillance system is described. In some implementations, the system can include a control unit having a processor coupled to a nontransitory computer readable medium having stored thereon software instructions that, when executed by the processor, cause the processor to perform operations to control video surveillance operations, a data storage module coupled to the processor and configured to store video surveillance data, a position sensing module coupled to the processor and configured to electronically determine position of the system, and a data communications module coupled to the processor and configured to transmit video surveillance data to an external system. The system also includes one or more imaging modules coupled to the control unit, each imaging module including at least one video imaging sensor, an additional sensor, and a base configured to releasably attaching the imaging module to a vehicle.

A sensing device can include at least one sensor, positioning circuitry, a transceiver, and a computing device in communication with the at least one sensor, the positioning circuitry, and the transceiver. The computing device can determine a location of a vehicle via the positioning circuitry. The computing device can determine that a point of interest (POI) associated with a predefined category of POIs corresponds to the location. The computing device, via the transceiver, can determine that a person is moving away from the vehicle based on a measurement associated with a remote device. The computing device can enter into an armed mode in response to the determinations. The computing device can detect an intrusion into a vehicle while in the armed mode based at least in part on measurements from the at least one sensor. The computing device can generate an alarm in response to the intrusion.

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 receive, via the wireless transceiver, an indication to enter an armed mode from an unarmed mode. In response to entering the armed mode, the at least one computing device can set a configuration of at least one property of a subset of the plurality of sensors. The at least one computing device can receive, via the wireless transceiver, a second indication to enter a special mode from the armed mode. In response to entering the special mode, the at least one computing device can alter the configuration of the at least one property of the subset of the plurality of sensors.

A system can include at least one server in communication with a vehicle theft-prevention apparatus that comprises a plurality of sensors and at least one computing device. The at least one server can be configured to receive an authentication request from a particular application executed on a mobile device comprising user credentials. The at least one server can authenticate the authentication request as a particular user account, where the particular user account is associated with the vehicle theft-prevention apparatus. The at least one server can receive instructions from the particular application that the mobile device has moved outside of a geofence associated with the vehicle theft-prevention apparatus. The at least one server can send a command to the vehicle theft-prevention apparatus to enter an armed mode.

Vehicle configured for reducing cost by performing a plurality of functions using a single camera, may include a camera; a at least one sensor configured to obtain location information related to a driver; a moving portion connected to the camera and configured to adjust a photographing direction of the camera; and a controller connected to the at least one sensor and the moving portion and configured to control the moving portion so that the photographing direction of the camera faces the outside of the vehicle or the inside of the vehicle according to the location information related to the driver.

Systems, methods and apparatuses to recognize a threat to a vehicle from a distance and generate alarms or alerts in response. For example, a camera of a vehicle in a parking state can capture an image of the surrounding of the vehicle. When a person approaching the vehicle from a distance is identified from the image, an artificial neural network evaluates, based at least in part on one or more images from the camera, the level of threat from the person approaching the vehicle. In response to the threat level being above a threshold, the vehicle can generate an alarm to deter illegal activities and/or send an alert to a remote device, such as a mobile device of an owner, driver, authorized user, or security agent.

A vehicle theft-prevention apparatus can include at least one computing device and a cylindrical body configured to be positioned within a cup holder of a vehicle, the cylindrical body having a cup holder element on a top side. The vehicle theft-prevention apparatus can further include a fish-eye camera sensor on an upper portion of the body, a passive infrared sensor positioned in the body, and a plurality of legs mechanically connected to a locking mechanism and configured to extend to provide an outward force on the cup holder to prevent removal of the vehicle theft-prevention apparatus. The at least one computing device can comprise a processor and a memory and can be configured to capture a plurality of images from the fish-eye camera sensor, read a plurality of measurements from the PIR sensor, and trigger an alarm based on the plurality of images and the plurality of measurements.