Utilizing an access device is provided. A command mapping of user input to RKE commands is utilized to identify a RKE command based on the user input to one or more motion or orientation sensor of the access device. Responsive to the environmental input from one or more environmental sensors of the access device being indicative of command entry, a transceiver of the access device is activated, the RKE command is sent, and the transceiver is deactivated. Otherwise, the user input of the RKE command is ignored.

A transport trolley for consignments having wheels which define a contact plane for moving the trolley, having a load compartment for receiving consignments during transport, and having a shelf for carrying consignments. The shelf can be adjusted from a lower non-use position arranged in the load compartment into an upper, moderate use position arranged outside the load compartment, and back. The shelf can be adjusted from a lower non-use position arranged in the load compartment into an upper, elevated use position arranged outside the load compartment, and back. The moderate use position and the elevated use position are arranged in a range between 1.0 m and 1.7 m above the contact plane. The elevated use position is arranged above the moderate use position, and a drive is provided for at least partially adjusting the height of the shelf above the contact plane.

A system and method of deploying an ignition interlock system. The method comprises identifying a wearable transdermal device in response to initiating wireless communication between a controller device of a vehicle system and the wearable transdermal device; receiving a transdermal alcohol measurement transmitted from the wearable transdermal device; and generating, in accordance with the transdermal alcohol measurement being above a predetermined intoxication threshold, a vehicle ignition lockout state of the vehicle system.

A vehicle door lock system includes: a door lock; a vehicle event sensor; and a processing circuitry, the processing circuitry is configured to cause the vehicle door lock system to generate first triggering event data, indicative of a first triggering event detected by the vehicle event sensor, caused by a movement of an object onto, or in the vicinity of, the vehicle, at a first time, obtain, from a portable electronic device, second triggering event data, indicative of a second triggering event caused by a movement of the portable electronic device, at a second time, determine if the first triggering event and the second triggering event both occurs within a predetermined time period by comparing the first triggering event data and the second triggering event data.

A transportation vehicle having a BLUETOOTH® Low Energy (BLE) system to send and receive BLE advertising signals, BLE connection request signals and BLE data signals via at least one antenna, a central locking system to lock or unlock at least one vehicle door of the transportation vehicle, and a control unit to activate the BLE system and to activate the central locking system based on the BLE data signals. Also disclosed is an electronic vehicle radio key and a system for passive access to a transportation vehicle including a transportation vehicle, an electronic vehicle radio key and a smartphone. The system allows a user passive access to the transportation vehicle, both with the aid of the electronic vehicle radio key and with the aid of the smartphone.

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.

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.

Methods, apparatus, and systems for passenger authentication and entry for autonomous vehicles are disclosed. A vehicle receives information over a first communication channel from a first mobile device. The information specifies a geographical location. The information causes the vehicle to arrive at the geographical location. The vehicle transmits a first message to a second mobile device indicating that the vehicle has arrived at the geographical location. The first message includes a graphical icon representing the vehicle. The graphical icon is for display on a user interface of the second mobile device. The vehicle receives a second message from the second mobile device over a second communication channel. The second message indicates that the graphical icon was dragged across the user interface into a graphical receptacle displayed on the user interface. Responsive to receiving the second message, at least one door of the vehicle is unlocked.

Disclosed herein is a vehicle theft prevention device. The device can include a data store including event configuration data. The device can include one or more sensors that can sense various types of measurements proximate to a vehicle. The device can include a computing device in communication with the sensors. The computing device can read measurements from the sensors and determine that a particular event has occurred. The computing device can analyze the measurements to determine the particular event occurred based on the event configuration data. When the particular event occurs, the computing device can perform one or more remedial actions.

A vehicle includes a memory and a processor coupled to the memory. The processor is configured to determine whether or not a communication interface is malfunctioning, the communication interface being configured to perform communication for confirming that a device, which holds a digital key for activation, is inside a vehicle cabin, and in a case in which it is determined that the communication interface is malfunctioning, perform processing that enables activation based on a result of authentication of the device.