Examples are directed toward a system and method relating to mobile screening. For example, a mobile screening vehicle includes a passenger scanner that performs security scanning of a passenger on the mobile screening vehicle. The mobile screening vehicle also includes a verification system that verifies, consistent with the security scanning of passengers, that passengers on the mobile screening vehicle are approved to proceed to a secure area of a travel venue.

A computer-implemented method for controlling a vehicle. The method monitors one or more characteristics of one or more users within the vehicle, and compares the one or more characteristics of the one or more users with one or more corresponding baseline characteristics of the one or more users. The method further determines, based on the comparison, that a difference between the one or more characteristics and the one or more corresponding baseline characteristics of the one or more users exceeds a threshold value, and performs a controlling action associated with the vehicle, wherein the controlling action may be taking a higher level of autonomous control over the vehicle; varying speed and handling of the vehicle; and overriding the one or more characteristics of the one or more users in order to avoid an accident.

A system, method, and computer program are provided for enabling operation based on user authorization. In use, a first user is authenticated by receiving at least one first image based on a first set of sampling parameters, identifying at least one face associated with the at least one first image, and determining that the at least one face is an authorized user. Based on the authentication, the first user is permitted to access a first vehicle. Additionally, use of the first vehicle is verified for the first user, and in response to the verification, operation of the first vehicle by the first user is enabled.

The present disclosure provides, in an aspect, a computer-implemented method for modifying vehicle settings for a vehicle, the method comprising identifying a vehicle occupant having a personalized set of vehicle settings for the vehicle, identifying a condition modifier associated with the vehicle occupant and the personalized set of vehicle settings, and applying a vehicle setting from the set of vehicle settings based on the condition modifier.

Systems and methods are provided for adding supervised stops to an autonomous vehicle route. In particular, systems and methods are provided for allowing a primary passenger, who is accompanied by one or more other passengers, to pause a ride, exit the vehicle, and request supervision of the other passengers while the primary passenger is away from the vehicle. Supervision of the other passengers can include monitoring vehicle temperature, making sure the other passengers remain safely inside the vehicle, preventing strangers from accessing the vehicle, providing any requested feedback regarding the other passengers to the primary passenger, and enabling communication between the first passenger and the other passengers.

A driving assist device is mounted on a vehicle. The driving assist device includes a derivation unit that derives driving characteristics of a user who drives the vehicle, a determination unit that determines, based on the driving characteristics, whether a driving operation by the user corresponds to a driving operation that falls outside the driving characteristics, and an inhibition unit that performs, in a case where the determination unit determines that the driving operation by the user corresponds to a driving operation that falls outside the driving characteristics, control for inhibiting traveling based on the driving operation by the user.

Systems and methods for determining and using fleet-specific vehicle operator performance for a set of vehicle operators are disclosed. A fleet of vehicles may be operated by a set of vehicle operators. Exemplary implementations may obtain trip information or service information that include values for driver performance metrics pertaining to individual vehicle operators; determine the fleet-specific vehicle operator performance by aggregating information included in the obtained trip and/or service information; determine particular metric values for a particular vehicle operator; compare the determined fleet-specific vehicle operator performance with the determined particular metric values; based on the comparison, generate and/or provide one or more notifications to at least one of the particular vehicle operator, a stakeholder of the fleet of vehicles, and a remote computing server. In some implementations, a system may recommend taking a particular action, including but not limited to scheduling a break for the particular vehicle operator.

The present disclosure relates to a vehicle where a driver assistance function can be controlled differently according to the physical characteristic of the driver, and a method for controlling the same function. One embodied method for controlling a driver assistance function may comprise steps of obtaining at least one of body-reaction state information and manipulation disability state information, the body-reaction state information related to a driver's situation cognition and reaction and the manipulation disability state information being for physical disability in relation to manipulation of a vehicle; selecting at least one assistance level corresponding to the obtained information among a plurality of assistance levels, each level corresponding to a different driver assistance function; and conducting control of the vehicle based on the selected at least one assistance level.

Methods and systems for communicating with a server of a cloud services system used to interface with vehicles are provided. One method includes receiving, by the server, a request from electronics of a vehicle to access a profile for a user account. The request identifies user information for a user to use the vehicle. The method includes processing, by the server, at least part of the user information to verify the user against data associated with the user account. The profile has a plurality of settings of the user for the vehicle, and at least part of the plurality of settings for the profile being stored on storage accessible to the cloud services system. The method includes transferring, by the server, upon verification of the user information, one or more settings of the plurality of settings to the vehicle. The transferring is configured to instruct software associated with said electronics of the vehicle to apply said one or more settings to the vehicle for customizing said vehicle to use said one or more settings, and the vehicle uses wireless communication with the cloud services system to receive said one or more settings for the profile. And, the profile is transferrable from vehicle to vehicle used by the user, so user settings go with the user. The profile, in one example, is activated automatically in a vehicle upon pairing a device with the vehicle.

Systems and methods for determining and using deviations from driver-specific vehicle performance expectations for a particular vehicle operator are disclosed. Exemplary implementations may obtain trip information or service information that include values for driver performance metrics pertaining to a particular vehicle operator; determine the driver-specific performance expectations by aggregating information included in the obtained trip information; determine particular metric values for a current trip; compare the determined driver-specific performance expectations with the particular metric values for the current trip; determine deviations based on the comparisons; determine whether to recommend an action based on the deviations; and generate and/or provide one or more notifications to at least one of the particular vehicle operator, a stakeholder of the fleet of vehicles, and a remote computing server.