In one aspect, a method is provided for controlling access to a facility including a movable barrier and a plurality of loading docks. The method includes receiving, from a user device associated with a vehicle, a check-in communication that includes a check-in identifier. The method includes receiving a verification communication that verifies a presence of the vehicle relative to a sensor associated with the movable barrier. The method further includes causing a movable barrier operator associated with the movable barrier to move the movable barrier between closed and open positions in response to the check-in identifier indicating authorization to access the facility and in response to receiving the verification communication. Further, the method includes selecting a particular loading dock from the plurality of loading docks and communicating a loading dock identification representative of the particular loading dock to the user device to direct the vehicle to the particular loading dock.

A method includes predicting an environmental condition at a location to which a vehicle is travelling, the environmental condition including at least one of water, dust, and pollution, determining that an object within the vehicle is at a distance greater than a threshold distance from an unobstructed window of the vehicle, and then actuating the unobstructed window to a closed position based on the environmental condition and the object being at the distance from the window greater than the threshold distance.

A vehicle control device includes a power door control unit that executes first power-door-opening control for causing a power door to perform an opening operation, when the power door is in a closed state and a vehicle-interior-situation recognizing unit recognizes a first user who uses a predetermined seat provided in a vehicle, and when a vehicle-surrounding-situation recognizing unit recognizes that a second user who has got off the vehicle approaches the power door corresponding to the predetermined seat.

A control system comprising: a sensor configured to measure a distance to an object, and obtain a distance measurement value, the object existing in a measurement target space that is a space in which a position of an upper limb of a user who tries to operate a target object that is an object controlled by the control system is assumed to be found, and the distance measurement value being a value that indicates the measured distance; and a control section configured to execute a process related to the target object based on the distance measurement value obtained by the sensor.

A vehicular vision system includes a camera disposed at a vehicle and viewing rear of the vehicle, and an electronic control unit (ECU) having an image processor for processing image data captured by the camera. The vehicular vision system, responsive to processing by the image processor of image data captured by the camera, determines an individual has moved within a threshold distance of the rear of the vehicle. The vehicular vision system, responsive to determining that the individual has moved within the threshold distance of the vehicle, determines whether the individual is an authorized user of the vehicle. Responsive to at least to determining that the individual is an authorized user of the vehicle, a powered rear lift gate mechanism of the vehicle opens a rear lift gate of the vehicle to allow the user access to the interior of the vehicle.

A passage gate for allowing or preventing people to enter or to exit a passage area comprising a base portion (110) and a panel portion (120) is provided. The passage gate (100) is configured to be driven in a first operation mode and a second operation mode. When the passage gate (100) is driven in the first operation mode the panel portion (120) is slidable relative the base portion (110) between a first open position, allowing people to pass, and a closed position preventing people from passing through the passage gate (100). When the passage gate (100) is driven in the second operation mode the base portion (110) is rotatable between the closed position and a second open position for achieving a larger passage area.

A system and method are described for providing an air quality alert to an occupant of a host vehicle. The system includes a communication unit adapted to be mounted in the host vehicle and configured to receive a wireless vehicle-to-x communication comprising an air quality value associated with a geographic area outside the host vehicle. The system also includes a controller adapted to be mounted in the vehicle and provided in communication with the communication unit. The controller is configured to generate an air quality alert control signal operative to provide an air quality alert to the occupant of the host vehicle based on a relationship of the air quality value to an air quality threshold value.

A vehicle control device includes: an acquisition section configured to acquire a determination result as to whether a predetermined communication terminal is in a vehicle cabin interior area, and acquire another determination result as to whether or not the communication terminal is in a vehicle cabin exterior area; and a control section configured to, based on the determination results of the acquisition section, initiate a closing operation of a vehicle door in cases in which a determination is made that the communication terminal is in the vehicle cabin exterior area, and stop the closing operation in cases in which a determination is made that the communication terminal is in the vehicle cabin interior area after the closing operation was initiated.

A sensor outputs distance information indicating a first distance to a first obj ect located in a detection area and a second distance to a second object located in the detection area. A control device allows an operation control of a device to be controlled based on a fact that the distance information satisfies prescribed conditions that include: i) a condition that the first distance and the second distance exhibit changes corresponding to entries of the first object and the second object into the detection area; and ii) a condition that one of the first distance and the second distance monotonically decreases and then monotonically increases while the other one of the first distance and the second distance maintains a first value.

An unattended occupant alarm assembly includes a plurality of passenger pressure pads that is each integrated into a respective passenger seat in a vehicle to detect the weight of a passenger sitting in any other the passenger seats. A driver pressure pad is integrated into a driver's seat of the vehicle to detect the weight of a driver sitting in the driver's seat. A control unit is coupled to the vehicle. The control unit is actuated into an alert condition when the driver pressure pad does not detect the weight of the driver and any of the passenger pressure pads detects the weight of the passenger after a pre-determined duration of time. Additionally, the vehicle horn is actuated to emit an audible alarm and the electric window system is actuated to roll down windows of the vehicle when the control unit is actuated into the alert condition.