A vehicle theft-prevention apparatus can include a locking mechanism configured to engage to secure the vehicle theft-prevention apparatus into a vehicle and disengage to unsecure the vehicle theft-prevention apparatus from the vehicle. The vehicle theft-prevention apparatus can include a clutch mechanism configured to prevent the locking mechanism from further engaging based on a magnitude of force applied. The clutch mechanism can include a first portion configured to rotate about an axis and comprising at least one aperture, a second portion configured to rotate about the axis and comprising a track, and at least one article configured to pass through the at least one aperture and travel along the track.

A vehicle theft-prevention apparatus can a motor unit configured to rotate based on an electrical signal. A shaft of the motor unit can be coupled to a cam. The cam can move a connection plate between an engaged position and a disengaged position. When the connection plate is in the engaged position, a locking mechanism can move between a locked position and an unlocked position. When the connection plate is in the disengaged position, the locking mechanism can maintain a current position.

A number of techniques are disclosed for making it more convenient and efficient for customers to conduct various rental vehicle transactions. As an example, a technique for performing an automated pickup of a rental vehicle using a mobile device is disclosed. As another example, a technique for performing an automated return administration of a rental vehicle using a mobile device is disclosed. As another example, a technique for permitting customer to select a particular rental vehicle for a rental vehicle transaction using a mobile device is disclosed. Also disclosed is a technique for permitting a customer to keylessly start a rental vehicle using a machine-sensible item such as his/her mobile device without requiring the customer to possess a smart key.

Method and apparatus are disclosed for activation of valet mode for vehicles. An example vehicle system includes a remote near-field communication (NFC) device and a vehicle. The vehicle includes an engine, a cabin, and an interior NFC reader located in the cabin. The vehicle also includes a controller configured to enter a valet mode and authenticate the remote NFC device for the valet mode when the engine is active and the interior NFC reader communicates with the remote NFC device.

A keyed-alike digital consumer access key is generated for distribution to a plurality of vehicles of a fleet. The keyed-alike digital consumer access key is deployed to the plurality of vehicles. The keyed-alike digital consumer access key is deployed to a mobile device. A request from a mobile device may be received to gain access to the plurality of vehicles. Responsive to validating the mobile device, the mobile device may be sent the keyed-alike digital consumer access key and a unique identifier corresponding to the mobile device, the keyed-alike digital consumer access key for use by the mobile device in authentication to one or more of the plurality of vehicles, the unique identifier for use by the mobile device in tracking which mobile device is accessing the one or more of the plurality of vehicles.

A transceiver is configured to: pair with a mobile device; and transmit a predetermined signal from an antenna to the mobile device. A zone module is configured to: receive a signal from the mobile device in response to the predetermined signal; and based on the signal, select a zone within which the mobile device is present from a group consisting of: a first zone that is defined by a first radius from the antenna; a second zone that excludes the first zone and that is defined by a second radius from the antenna, where the second radius is greater than the first radius; and a third zone that is radially outward of the second zone and that excludes the first and second zones.

Aspects of the present disclosure generally pertain to a vehicle inhibitor with an enhanced user interface and a system and method for overriding a vehicle inhibitor. This disclosure may be useful for providing an emergency override function for vehicle loan repayment enforcement systems that have wireless user interface modules, and that have become lost or inoperable when needed to generate an emergency override signal. Further, the present disclosure addresses this problem while mitigating additional system cost and additional components. This disclosure includes a method of providing an emergency override function for vehicle loan repayment enforcement systems that have wireless user interface modules, and that have become lost or inoperable when needed to generate an emergency override signal. Further this disclosure includes a method of providing a disablement override function for vehicle loan repayment enforcement systems, wired or wireless, that allows vehicle operation past the grace period in those locations where complete disablement may be limited.

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.

A vehicle theft-prevention apparatus can include a locking mechanism configured to engage to secure the vehicle theft-prevention apparatus into a vehicle and disengage to unsecure the vehicle theft-prevention apparatus from the vehicle. The vehicle theft-prevention apparatus can include a clutch mechanism configured to prevent the locking mechanism from further engaging based on a magnitude of force applied. The clutch mechanism can include a first portion configured to rotate about an axis and comprising at least one aperture, a second portion configured to rotate about the axis and comprising a track, and at least one article configured to pass through the at least one aperture and travel along the track.

A vehicle theft-prevention apparatus can a motor unit configured to rotate based on an electrical signal. A shaft of the motor unit can be coupled to a cam. The cam can move a connection plate between an engaged position and a disengaged position. When the connection plate is in the engaged position, a locking mechanism can move between a locked position and an unlocked position. When the connection plate is in the disengaged position, the locking mechanism can maintain a current position.