A vehicle anti-theft device that is operable to inhibit the operation of a keyless vehicle module wherein the present invention includes a first mode and a second mode. The present invention includes a second controller wherein the second controller is installed in a suitable location within a vehicle. The second controller is electrically coupled to the wiring harness of the vehicle wherein a circuit portion thereof is utilized to supply direct current power to the second controller. A key fob is provided wherein the key fob is operably coupled to the second controller. The key fob includes a first switch and a second switch wherein the first switch and second switch transition the present invention between the first mode and second mode. In the first mode of the present invention the second controller inhibits direct current flow to the first controller and as such renders the keyless vehicle module inoperable.

A vehicle theft-prevention system can include a plurality of sensors configured to sense measurements proximate to a vehicle and a body configured to secure to a window of the vehicle. The body can include a wireless transceiver 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. The at least one computing device can be configured to, in response to the indication, transition to the armed mode, wherein transitioning to the armed mode comprises setting a configuration of at least one property of a subset of the plurality of sensors.

A vehicle theft-prevention apparatus can include a slip clutch mechanism, a locking mechanism, 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 locking mechanism can be configured to engage based on rotation of the first portion relative to the second portion in a first direction, and disengage based on a rotation of the first portion relative to the second portion in a second direction. The slip clutch mechanism can be configured to prevent the locking mechanism from further engaging from rotation in the first direction relative to the second portion based on a magnitude of force applied.

A vehicle theft-prevention apparatus can include a body, a computing device, sensors, and a speaker. The body can include a first and second portion and a light emitting portion. The first portion can move relative to the second portion. The second portion can include perforations to facilitate sound transmission from the speaker. The light emitting portion can be positioned between the first portion and the second portion. The light emitting portion can be configured to emit light based on a signal from the computing device. A lens can include a concentric structure protruding from the body. The lens can cover the sensor.

The present disclosure generally relates to managing and using an electronic key. In some embodiments, the electronic key is utilized to cause a vehicle to unlock one or more doors of the vehicle when a computer system that includes the electronic key is positioned within a first threshold distance of the vehicle. In some embodiments, a user interface object associated with the electronic key is displayed in a first position of an accounts user interface when a computer system that includes the electronic key is positioned within a second threshold distance of the vehicle.

A sensing device can include an accelerometer, a transceiver, and a computing device in communication with the accelerometer and transceiver. The computing device can transmit a first set of signals at a first power level to a remote device. The computing device can determine, via the accelerometer, a movement of the sensing device. The computing device can increase a power level for transmission from the first power level to a second power level in response to the movement. The computing device can transmit future signals at the second power level to the remote device.

The invention relates to an authentication system (10) for a vehicle (100), in particular a motor vehicle (100), for storing an ID-transmitter (80) in the vehicle (100) with an outer housing (11) in which the ID-transmitter (80) can be stored. In this case it is provided that an electronic security unit is provided to monitor at least the secure storage of the ID-transmitter (80) within the outer housing (11).

Vehicle door unlocking control methods, apparatuses, and systems for vehicles. The vehicle door unlocking control method can be carried out by the apparatuses and systems and includes: obtaining an acquisition trigger signal; controlling, based on the acquisition trigger signal, a first camera assembly disposed on a vehicle to acquire a first face image of a user; performing feature matching between the first face image and a pre-stored second face image; performing living body detection on the first face image; and sending a vehicle door unlocking instruction to at least one vehicle door lock of the vehicle in response to successful feature matching and successful living body detection. This door unlocking solution may be used to provide face-based vehicle door opening in a safe, convenient and reliable manner.

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 vehicle control system includes an entry ECU that performs first authentication processing for access from an outside of a vehicle, a door control ECU that controls locking and unlocking of a door of the vehicle, and a central ECU, the entry ECU transmits a first startup request, which instructs to start up the central ECU, before executing the first authentication processing, and the central ECU transmits a second startup request which instructs to start up the door control ECU.