Body measurements of a person may be scanned using a camera (e.g., a camera on a mobile phone. Vehicle settings may then be determined based on the body measurements. Example vehicle settings may include one or more of a position of a heads-up display, a position of a pedal, an angle of a backrest, a height of a seat cushion, a tilt of the seat cushion, an extension position of the seat cushion, a position of a lumbar support, a position of a seat side bolster, a position of a headrest, a position of a side mirror, a position of a rear-view mirror, a tilt of a steering wheel, and/or a position of a steering wheel.

Systems and methods to authenticate a vehicle operator for an autonomous vehicle on a vehicle service platform are provided. In one example embodiment, a computer-implemented method includes obtaining authentication request data indicative of an authentication request, the authentication request data including at least an operator identifier associated with the vehicle operator and a vehicle identifier associated with the autonomous vehicle. The method includes providing a service code associated with the authentication request to the autonomous vehicle. The method includes obtaining from a user device in response to providing the service code to the autonomous vehicle, operator data associated with the authentication request, the operator data including the service code. The method includes determining an authentication result associated with the authentication request based at least in part on the service code and the operator data. The method includes providing the authentication result to the user device.

Systems and methods for generating adaptive instructions for a driver. The system includes a memory that stores instructions for generating adaptive instructions for a driver. The system also includes a processor configured to execute the instructions. The instructions cause the processor to: monitor one or more factors including a gaze of the driver, a physiological signal of the driver, information related to the operation of a vehicle, and information related to an external environment of the vehicle; analyze the one or more factors to determine when and how to provide the adaptive instructions to the driver; generate the adaptive instructions based on the analysis; and provide the adaptive instructions to the driver via a vehicle user interface.

Methods and apparatus for vehicle climate control using distributed sensors are disclosed. A disclosed example method includes receiving data from sensors distributed within a vehicle at a first controller, processing the data at the first controller to identify an event associated with the interior of the vehicle and sending an instruction based on the event from the first controller to a second controller of the vehicle to affect an operation of a climate control system of the vehicle.

A system and a method for remapping controls in a vehicle is disclosed. The system for remapping controls in a vehicle includes an input device configured to receive a data block of vehicle information. The system also includes a plurality of configurable vehicle controls situated in a vehicle, a control module configured to receive the data block from the input device to reconfigure the functionality of at least one of the plurality of configurable vehicle controls based on the data block received. The method for remapping controls in a vehicle includes the acts of receiving a data block from an operator, evaluating the data block, selecting a stored vehicle, generating a vehicle configuration based on the selected stored vehicle provided in the data block, and configuring a plurality of configurable vehicle controls according to the vehicle configuration.

A vehicle includes a plurality of electronic control units (ECUs); a communicator configured to detect a personal identification device of an occupant and receive an identification (ID) of the occupant from the personal identification device of the occupant; and at least one processor electrically connected to the communicator and configured to determine a position of the personal identification device, wherein the processor is configured to, in response that the ID of the occupant corresponds to an pre-stored ID, generate a control signal for controlling the plurality of ECUs to perform a function that matches the pre-stored ID for an occupant seat corresponding to the determined position.

Systems and methods for generating adaptive instructions for a driver. The system includes a memory that stores instructions for generating adaptive instructions for a driver. The system also includes a processor configured to execute the instructions. The instructions cause the processor to: monitor one or more factors including a gaze of the driver, a physiological signal of the driver, information related to the operation of a vehicle, and information related to an external environment of the vehicle; analyze the one or more factors to determine when and how to provide the adaptive instructions to the driver; generate the adaptive instructions based on the analysis; and provide the adaptive instructions to the driver via a vehicle user interface.

Method for automatically assessing performance of a driver (110) of a vehicle (100) for a particular trip, wherein current driving data sets, comprising basic driving data are repeatedly read from the vehicle, which method comprises the steps a) collecting previous-trip driving data sets, comprising instantaneous vehicle energy consumption, for different previous trips, different drivers and different vehicles; b) grouping said previous-trip driving data sets into basic historic groups and calculating a respective group performance parameter; c) further grouping said previous-trip driving data sets into extended historic groups; d) mapping each current-trip data set to said extended historic groups; and e) calculating a current-trip performance parameter based upon the group performance parameter values of the respective basic historic groups corresponding to previous-trip driving data sets comprised in the extended historic group to which a current-trip data set was matched in step d. The invention also relates to a system.

Method and apparatus are disclosed for dongles for controlling vehicle drive-assist systems. An example vehicle includes an electronic control unit for performing an autonomous motive function, an OBD port configured to receive a dongle to communicatively couple to the dongle, and a driver-assist controller. The driver-assist controller is configured to receive instructions from the dongle when the vehicle is at a racing event location responsive to the OBD port receiving the dongle and deactivate the autonomous motive function when receiving the instructions.

Provided is a vehicle control device with which it is possible to reduce the time required to rewrite a control program. In the vehicle control device according to the present invention, after an updated version of the control program has been stored in a second storage unit, a first storage unit is initialized in advance before the instruction to update the control program has been executed.