A vehicle control device includes: a receiving section receiving, from a user, setting processing for setting a time period in which control of a vehicle by using an information processing device is suppressed; a detecting section detecting a predetermined user operation for control of the vehicle; and a control permitting section that, in a case in which the predetermined user operation is detected in a time period that is different than the time period in which control of the vehicle is suppressed, permits control of the vehicle in accordance with the information processing device vibrating or moving, and, in a case in which the predetermined user operation is detected within the time period in which control of the vehicle is suppressed, does not permit control of the vehicle regardless of whether or not the information processing device is vibrating or moving.

A vehicle control device includes: a receiving section receiving, from a user, setting processing for setting a time period in which control of a vehicle by using an information processing device is suppressed; a detecting section detecting a predetermined user operation for control of the vehicle; and a control permitting section that, in a case in which the predetermined user operation is detected in a time period that is different than the time period in which control of the vehicle is suppressed, permits control of the vehicle in accordance with the information processing device vibrating or moving, and, in a case in which the predetermined user operation is detected within the time period in which control of the vehicle is suppressed, does not permit control of the vehicle regardless of whether or not the information processing device is vibrating or moving.

The vehicle control apparatus comprises one or more processors, one or more storage media storing a program to be executed by the one or more processors. The program includes one or more instructions. The one or more instructions cause the one or more processors to perform a brake control process in which, after a stroke of a predetermined amount or more is made to a brake pedal by a brake booster to apply brake fluid pressure to the brake mechanism to make the brake fluid pressure in a pressurized state in response to input of a predetermined signal corresponding to detection of theft of the vehicle, the stroke of the brake pedal by the brake booster is cancelled while a first valve disposed in a brake fluid pressure circuit is kept at a closed state to keep the pressurized state of the brake fluid pressure applied to the brake mechanism.

The vehicle control apparatus comprises one or more processors, one or more storage media storing a program to be executed by the one or more processors. The program includes one or more instructions. The one or more instructions cause the one or more processors to perform a brake control process in which, after a stroke of a predetermined amount or more is made to a brake pedal by a brake booster to apply brake fluid pressure to the brake mechanism to make the brake fluid pressure in a pressurized state in response to input of a predetermined signal corresponding to detection of theft of the vehicle, the stroke of the brake pedal by the brake booster is cancelled while a first valve disposed in a brake fluid pressure circuit is kept at a closed state to keep the pressurized state of the brake fluid pressure applied to the brake mechanism.

A support panel assembly includes a lower panel, an upper panel pivotally coupled to the lower panel by a central pedestal, and a first pressure sensor coupled to the central pedestal. The first pressure sensor detects pressure exerted into the upper panel in response to the upper panel pivoting in relation to the lower panel about the central pedestal. The first pressure sensor outputs a pressure signal indicative of pressure exerted into the upper panel. In at least one embodiment, the pressure signal is received by a detecting control unit.

A vehicle includes a powered door having an actuator to move the door between open and closed positions, a transceiver configured to communicate with one or more mobile devices, and an imaging device oriented to capture images in a region proximate to the powered door. A controller processes the captured images and controls the actuator to move the door to the open position when a mobile device is detected proximate the vehicle and a user is detected in the captured images located in a door detection zone. The controller moves the door to the open position when a face of a user is recognized as an authorized user located in the door detection zone. The controller moves the door to the open position when a gait of the user is detected and identifies the gait are indicative of an authorized user located in the door detection zone.

A controller of a vehicle detects persons that are approaching the vehicle and uses sensors to collect data regarding the persons to determine whether a security risk exists. In one approach, the collected data is used to determine whether each person is associated with the vehicle. In response to determining that at least one of the persons is unknown, a security risk is evaluated based on data from monitoring of the environment of the vehicle. In response to determining that a security risk score exceeds a threshold, one or more actions for the vehicle are performed to make the vehicle more secure.

A vehicle control system for controlling a vehicle based on information from a mobile communication terminal includes an operation restricting portion that restricts operation to the mobile communication terminal, a determination portion that determines a restriction state of the operation to the mobile communication terminal imposed by the operation restricting portion, and a vehicle control portion that controls the vehicle in accordance with the determination of the determination portion.

A vehicle control system for controlling a vehicle based on information from a mobile communication terminal includes an operation restricting portion that restricts operation to the mobile communication terminal, a determination portion that determines a restriction state of the operation to the mobile communication terminal imposed by the operation restricting portion, and a vehicle control portion that controls the vehicle in accordance with the determination of the determination portion.

A vehicle-mounted apparatus communicates wirelessly with a terminal (user terminal) of a passenger of a vehicle and causes an electric field intensity maintaining unit to store an electric field intensity in wireless communication with the user terminal. The vehicle-mounted apparatus determines whether the user terminal is located in the vehicle based on a value related to a first electric field intensity acquired when a power supply of the vehicle is in a predetermined status and stored in the electric field intensity maintaining unit and based on a value related to a second electric field intensity acquired when the passenger leaves the vehicle and stored in the storage unit. The vehicle-mounted apparatus gives the passenger a predetermined notification when it is determined that the user terminal is located in the vehicle.