A transport management device is configured to manage transport of a vehicle for rent. The transport management device includes: a memory; and a processor that is coupled to the memory, and when executing a program stored in the memory, performs operations. The operations include: determining, based on transporter information including information about one or more transporters who transport the vehicle between an owner of the vehicle and a renter of the vehicle, a first transporter from among the one or more transporters, the first transporter being capable of picking up the vehicle at a first point designated by the owner and transporting the vehicle picked up at the first point to a second point designated by the renter; and transmitting, to a terminal of the first transporter, first transport request information including information indicating the first point and the second point.

A communication system includes: a vehicle-mounted device; and a mobile device. The vehicle-mounted device includes: a vehicle side transmission device that transmits a request signal; a vehicle side receiver that receives an operation signal, transmitted from a mobile device side operation unit of the mobile device, and a response signal; and a vehicle side reception control device that controls the vehicle side receiver to receive the operation signal as a first channel signal, and to receive the response signal as a second channel signal. The mobile device includes: the mobile device side operation unit; a mobile device side reception device; and a mobile device side transmission device that transmits the operation signal as the first channel signal, and transmits the response signal as the second channel signal.

This disclosure relates to a method and system for exchanging data between users of a vehicle, including a main user equipped with a first personal electronic device and a secondary user equipped with a second personal electronic device. The method includes a preparatory phase and a transmission phase, which comprise the following steps: the application installed on the first personal electronic device sends data to a remote server including the second email address of the secondary user and instructions for the transfer of information regarding the vehicle; the remote server sends data to an information cloud including the mobile identifier assigned to the application installed on the second device and information regarding the vehicle, and the cloud sends information regarding the vehicle to the application installed on the second personal electronic device.

A system for remotely opening a land vehicle door is provided. The system includes a mobile communication device supported on the vehicle and operative to produce a first signal in the form of a first electromagnetic field defined by a field envelope. A hand-held communication device is operative to detect the first electromagnetic field and produce a second signal in the form of a second electromagnetic field when the hand-held device is located within the field envelope. Control logic is coupled to the mobile device and is operative to determine if the hand-held device is an authorized hand-held device. The control logic is operative to determine if a pedestrian carrying an authorized hand-held device is located within the field envelope and to generate a door-opening command signal when the authorized device is located within the field envelope for a predetermined period of time.

System, apparatus, device and methods relating to a telematic vehicle sharing platform ecosystem and a telematic vehicle share I/O expander to automate sharing and management of a vehicle that is shared by more than one operator.

An information processing apparatus including a control unit configured to acquire a distance between a vehicle and a user terminal based on position information of the vehicle and position information of the user terminal, and generate a command for setting or releasing a remote immobilizer function and a smart cancel function based on the distance between the vehicle and the user terminal. The remote immobilizer function is a function for remotely setting or releasing an immobilizer of the vehicle. The smart cancel function is a function for stopping radio waves transmitted from the vehicle for communication between the vehicle and a key of the vehicle.

A system and method for remote control of functionalities of a vehicle, for example a motor vehicle reserved for hire, is provided. The system and method include transmission and receipt of information between a mobile terminal, a remote vehicle management system and a control unit of a vehicle to remotely control, particularly to remotely initiate, particular functionalities of a vehicle which has been selected, particularly reserved, in advance using the vehicle management system. The mobile terminal is identified to the vehicle on the basis of an interchange of identifiers that the vehicle and the terminal have received in advance from the vehicle management system.

An affixable device can include a locking mechanism, a force-limiting mechanism, and a sensing mechanism. The locking mechanism can include an engagement component configured to disable the locking mechanism. The force-limiting mechanism can be configured to limit a locking force of the locking mechanism. The sensing mechanism can be coupled to the engagement component, and can be configured to determine that the force-limiting mechanism has limited the locking force of the locking mechanism. In response to determining the force-limiting mechanism limiting the locking force, the sensing mechanism can cause the engagement component to disable the locking mechanism.

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.

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.