A vehicle door control device includes a swipe operation portion provided on a vehicle interior side of a door, a detection unit provided at least in the swipe operation portion and configured to detect a swipe operation, a door lock device configured to hold the door in a closed state, and a controller configured to release a closed state of the door by the door lock device when it is determined that the swipe operation is detected based on a detection result of the detection unit.

The invention relates to an arrangement (10) for an evaluation in a capacitive sensor device (20) of a vehicle (1), in particular for the detection of an activation action at the vehicle (1), comprising: at least one sensor element (20.1) for the detection of a change in a surroundings of the sensor element (20.1), an electric holding arrangement (50.4) which is connected to the sensor element (20.1) for the transfer of charge, a control device (50) for the repeated determination (100) of at least one parameter of the sensor element (20.1) specific to the detection, in order to perform the evaluation, at least one controlling means (50.6) of the control device (50) in order to perform for the respective determination (100) of the parameter the transfer of charge repeatedly as pulses (P) with a predetermined number (N), so that a state of charge of the holding arrangement (50.4) is changed successively.

A light switch network comprises a plurality of light switch units, each comprising a gesture interface to sense a user gesture by receiving at least one gesture signal from a sensing zone, and configured to exchange one or more gesture status signals with at least one other switch unit in the network in relation to the received gesture signal; each switch being enabled, on receiving the gesture signal: in a first mode, to change a designated switch mode and/or state in response to the gesture signal; or in a second mode, to not change the designated switch mode and/or state according to one or more conditions associated with the status signals received from the other switch unit.

A light switch network comprises a plurality of light switch units, each comprising a gesture interface to sense a user gesture by receiving at least one gesture signal from a sensing zone, and configured to exchange one or more gesture status signals with at least one other switch unit in the network in relation to the received gesture signal; each switch being enabled, on receiving the gesture signal: in a first mode, to change a designated switch mode and/or state in response to the gesture signal; or in a second mode, to not change the designated switch mode and/or state according to one or more conditions associated with the status signals received from the other switch unit.

A lighting wall controller having a capability to reject user inputs at a surface of the wall controller and/or proximity detection in accordance with sensing signals received at locations on and near the wall controller. Programming configures a processor for proximity detection to detect a presence of a conductive object within a predetermined distance to the wall controller. The processor further determines whether user inputs correspond to touches at locations on the wall controller or user gestures near the wall controller to perform one of a plurality of defined lighting functions for a lighting system. When user inputs do not correspond to defined lighting functions, a number of the non-defined inputs is counted to provide an indicator of activity on the surface of the wall controller to activate a locked mode for a duration of the non-defined inputs.

An apparatus may include a touch sensor, a touch region of the touch sensor that is free of sense electrodes, a first peripheral region of the touch sensor and a second peripheral region of the touch senor and the touch region is located between the first peripheral region and the second peripheral region, a first sense electrode is located in the first peripheral region, a second sense electrode is located in the second peripheral region.

A light switch network comprises a plurality of light switch units, each comprising a gesture interface to sense a user gesture by receiving at least one gesture signal from a sensing zone, and configured to exchange one or more gesture status signals with at least one other switch unit in the network in relation to the received gesture signal; each switch being enabled, on receiving the gesture signal: in a first mode, to change a designated switch mode and/or state in response to the gesture signal; or in a second mode, to not change the designated switch mode and/or state according to one or more conditions associated with the status signals received from the other switch unit.

A control device having an exterior panel and a control module, where the control module includes a sensor layer, and the exterior panel overlays the sensor layer. The control module is configured to determine one or more characteristics of a touch input, and to select a scene based at least in part on the one or more determined characteristics of the touch input. The control module further controls an operational aspect of each device of the set in accordance with the selected scene.

A control device relates to a vehicle having an automatically opening and/or automatically closing lid with at least one control switch in the vicinity of the lid and with a programmable electronic control unit. The control switch may be operated arbitrarily contactlessly in the form of a proximity sensor and when operated generates an operation request signal which is an input signal to the control unit. The control unit is configured in such a manner that defined environmental conditions may be evaluated for the detection of a risk of salinity and humidity and that, given the presence of a risk of salt and water, an appropriate adaptation may be made to the evaluation of the operation request signal. Preferably, at least one outside temperature below a predefined threshold and information indicating the presence of moisture are defined as the environmental conditions to be evaluated for detecting the risk of salt and water.

A touch-sensing electronic device includes a housing having first, second and third touch-sensing surfaces; a substrate extensively disposed under the first, second and third touch-sensing surfaces; sensing electrodes formed on the same substrate, and having capacitance changes in response to touch operations or gestures respectively performed on or over the first, second and third touch-sensing surfaces, wherein the sensing electrodes are grouped into three sensing electrode arrays corresponding to the first, second and third touch-sensing surfaces, respectively; and a controller for generating respective control signals corresponding to the touch operations performed on or over the first, second and third touch-sensing surfaces. At least two of the three sensing electrode arrays have different configurations for performing different sensing operations.