A system includes a computer having a processor and a memory, and the memory storing instructions executable by the processor to cause the processor to determine that a wheelchair is located within a threshold distance of a vehicle; actuate a puddle lamp to project a light projection proximate to a door of the vehicle; determine whether the wheelchair is aligned with respect to the light projection based on an image captured by a camera, wherein the image includes image data comprising a position of the wheelchair relative to the light projection; and actuate the door of the vehicle to open in response to determining that a wheelchair user is located at a designated location relative to the vehicle.

A drive for a leaf of a door, window, or the like, including a mechanical energy store (16) configured to store energy during an opening movement of the leaf and expend energy during a closing movement of the leaf, an electric motor (18) operatively connected to the leaf via a motor shaft (20), the electric motor (18) operated as a generator to dampen the opening movement and the closing movement. The electric motor including a control unit configured to control the electric motor, wherein a drive behavior of the control unit is repeatedly and variably adaptable to a current need of a user.

When it is confirmed that a user exists based on an image of the situation outside a vehicle which is captured using a camera and a proximity sensor detects a fact that the user is approaching based on, for example, a putting of a hand of the user over the proximity sensor, a control device causes a ramp to be extended. As such, a user sitting in a wheelchair can cause the ramp to be extended by approaching the proximity sensor, such as the putting of the user's hand over the proximity sensor such that the user sitting in the wheelchair does not have to press an extension/storage button provided on the vehicle to cause the ramp to be extended.

A system and method to remotely operate a door, the method including: transmitting a door's proximity to a mobile device; receiving, by the mobile device, identifying information from a remote intermediary processing server; receiving, from a user, a command to operate the door; and transmitting the command to operate the door.

A system and method include a sensor disposed adjacent a power actuated movable panel of a vehicle for detecting an approach of an operator to the power actuated movable panel and measuring at least one operator characteristic of the operator in proximity to the sensor. The system and method also include a controller in communication with the sensor to interpret sensor data of the operator from the sensor to determine the at least one operator characteristic to adjust a position of the power actuated movable panel based on the at least one operator characteristic.

A method for individually configuring at least one automatic function for a door, in particular in a publicly accessible area, with at least one electrically or electronically controllable actuator for performing the automatic function, includes the steps of receiving configuration information from an electronical device associated to an individual in an approach area of the door, configuring the automatic function based on received configuration information, and controlling the actuator for performing the at least one automatic function according to the configuration. Moreover, a door control device is used for electrically or electronically controlling at least one actuator for performing at least one automatic function of a door, in particular in a publicly accessible area.

A touch pad button system for electric door operators is comprised of a touch pad, an electric door operator in communication with the touch pad, and a door operable by the electric door operator pursuant to a predefined set of instructions. The door and the electric door operator are at a location remote from the touch pad. The touch pad includes a tactile sensing member, a shorting pad, a bottom circuit and a dielectric member. The touch pad also has a power source and transmitter for sending signals received by a tactile sensing member to the electric door operator. An adhesive adheres the touch pad to a surface. Upon receiving a signal, the electric door operator opens a door pursuant to a predefined set of instructions. The door and electric door operator are at a location remote from the touch pad.

A drive for a leaf of a door, window, or the like, comprising at least one mechanical energy store, which is charged by an opening movement of the leaf and discharged by a closing movement of the leaf, at least one electric motor, which is operatively connected to the leaf via at least one motor shaft and can be operated as a generator in order to dampen the leaf movements, and a control and/or regulator electronics unit for controlling the electric motor. The control and/or regulator electronics unit comprises means via which the drive behaviour can be variably specified repeatedly by a respective user and/or via which the drive behaviour can be variably adjusted repeatedly in accordance with the behaviour of a respective user.

A vehicle includes a slope device configured to perform deployment and storage of a slope, a camera, and a door and slope control device configured to communicate with a server including a getting-on reservation database including attribute information of a passenger, and perform deployment and storage of the slope by the slope device, in which the door and slope control device is configured to, when the vehicle is stopped to allow the passenger to get on the vehicle, confirm the attribute information of the passenger acquired from the getting-on reservation database of the server based on an image of the passenger captured by the camera, and perform deployment of the slope depending on the confirmed attribute information.