Systems and methods for performing a vehicle operation. One system includes a plurality of transceivers associated with a vehicle and a vehicle access system. The vehicle access system is configured to receive, via each of the plurality of transceivers, signal strength data associated with a portable communication device using a Bluetooth signal received at an antenna associated with each of the plurality of transceivers, and compare, for each of the plurality of transceivers, the signal strength data with a threshold signal strength value to perform a localization of the portable communication device generating the Bluetooth signal to determine whether the portable communication device is located inside or outside the vehicle. The vehicle access system is also configured to perform the operation based on whether the portable communication device is located inside or outside the vehicle.

A detection device includes at least one detection module communicatively coupled with a communication device. The detection module includes a controller circuit communicatively coupled with a first antenna. The first antenna receives first electromagnetic signals from a first plurality of antennae located within an interior of a first vehicle. The first antenna receives second electromagnetic signals from a second plurality of antennae located and within an interior of a second vehicle. The controller circuit determines a position of the communication device within the interior of the first vehicle relative to locations of the first plurality of antennae based on the first electromagnetic signals received by the first antenna. The controller circuit determines a position of the communication device within the interior of the second vehicle relative to locations of the second plurality of antennae based on the second electromagnetic signals received by the first antenna.

A key and lock set for a vehicle includes: a vehicle lock set with both vehicle door lock and vehicle engine start lock; a passcode for mechanical lock; a rotary mechanical passcode dialer or push-button mechanical passcode keypad that is mounted in vehicle and accessible from vehicle outside; an electronic key in the form of a card key, tag key, passcode or biometric for an electronic lock, wireless key with a built-in power source, portable electronic appliance with key software or key hardware of cell phone, smart phone, tablet, computer, smart watch, digital camera or digital multimedia player; and an electronic key identifier that is mounted in vehicle for the electronic key.

A method for activating a vehicle function using portable user equipment communicating via ultra-wide band with an activation device on the vehicle. The activation of the vehicle function is carried out as a function of a position of the portable equipment relative to a boundary between an internal zone and an external zone of the vehicle. The activation method including: previously equipping the vehicle with an internal and external antennas; determining the presence of the portable equipment in an authorization zone around the vehicle; storing a power delay of the multi-path ultra-wide band signals received by each antenna according to time; determining an attenuation delay of the received power; comparing the attenuation delay with at least one reference delay; determining whether the portable equipment is located in the internal zone or in the external zone; activating the vehicle function corresponding to the position of the portable equipment.

A system includes a processor to execute instructions to, upon instantiation of a control application in a vehicle, retrieve (a) configuration data specifying one or more features available to the control application in the vehicle, and (b) settings data specifying one or more current settings for the control application; monitor a vehicle network for request from a remote device for a selected feature of the control application in the vehicle; determine from the configuration data whether the selected feature is included in the one or more features available to the control application in the vehicle; and, if the selected feature is included, actuate a component in the vehicle based on the selected feature and the settings data.

A communication device according to one aspect of embodiments includes a controller. In a case where vibration of the communication device is detected, the controller allows execution of a communication process with a communication target device.

A vehicle control system (VCS) includes external communication interfaces, such as a Bluetooth® interface, for communicating with a user communication and control device, such as a smart phone or a tablet. The user is enabled to operate certain features of the vehicle, such as the remote start, power locks/trunk, climate control, and security features, through the smart phone. The VCS may also communicate with a remote server via the user's smartphone, for example, providing telematics data and receiving service reminders for display to the user on the smartphone, the VCS, or a display built into the vehicle. The VCS may be custom installed in the vehicle using the user's or the installer's smartphone, without a physical connection from the VCS to the smartphone.

An orchestrator for a fleet management system is disclosed herein. The orchestrator is configured to monitor completion of an assigned job by an autonomous vehicle in a fleet of autonomous vehicles. For example, the autonomous vehicle may have an assigned job of delivering cargo from one location to another location. The orchestrator can identify a plurality of tasks to be completed by a plurality of subsystems of the fleet management system in order to enable completion of the assigned job by the autonomous vehicle. For example, the subsystems may include a troubleshooting subsystem, a remote operations subsystem, a fleet operations subsystem, a fleet coordinator, and/or an interface. The orchestrator can coordinate completion of the tasks by the plurality of subsystems.

A vehicle information display system includes a digital license plate attachable to a vehicle and having a display able to present electronically readable visual information. This electronically readable visual information is usable to facilitate provision of services, including but not limited to vehicle rental or providing vehicle access to authorized service providers.

A system and method of remotely enabling and disabling the starting of one or more vehicles using hardware components installed within a case and a data processing device (DPD), such as a smart phone, in logical communication with one of the vehicle and the case via a WAN, wherein an ignition request is relayed via the WAN to server which parses the ignition request into one or more encrypted ignition instructions, each encrypted ignition instruction sent to a separate vehicle exclusively associated with the encrypted ignition instruction.