A transmissive head-mount type display device includes an image display section adapted to display a virtual image, and capable of transmitting an external sight, an object acquisition section adapted to obtain a selectable object located in a predetermined distance range from the image display section, and a position of a specific object included in the external sight, and a control section adapted to display an object-correspondence virtual image associated with the object obtained as the virtual image using the image display section, identify a change in the position of the specific object based on the position of the specific object obtained, select the object based on a relationship between the change in the position of the specific object identified and a position of the object obtained, and display a specific check image associated with the object selected as the virtual image using the image display section.

A wearable device 100 for controlling a controllable device 104 based on an interaction with an object 102 is disclosed. The wearable device 100 comprises a device detection unit 106 for detecting proximity of the object 102, an action detection unit 112 for detecting an action indicative of an interaction of a user wearing the wearable device 100 with the object 102 and a processing unit 108 for generating a control command for controlling the controllable device 104 based on the detected proximity of the object 102 and based on the action indicative of an interaction with the object 102. The wearable device 100 further comprises a communication unit 110 for sending the control command to the controllable device 104. Thereby, the wearable device 100 is able to detect the use of the object 102 and adjust the control parameters of the controllable device 104 to create context- related use conditions. This may improve the control of the controllable device 104 and this may offer new interaction possibilities between the wearable device 100, the controllable device 104 and the object 102.

An input apparatus for controlling an information terminal includes a gesture detecting unit that detects a rotational movement of a wrist of a user about a lower arm of the user and an output unit that outputs a control command for controlling a device to be controlled to the device to be controlled on the basis of a rotational direction of the detected rotational movement. If the gesture detecting unit detects a first rotational movement in a first rotational direction and thereafter detects a second rotational movement in a second rotational direction that is opposite to the first rotational direction, the output unit outputs a second control command corresponding to the second rotational direction without outputting a first control command corresponding to the first rotational direction.

A mobile terminal including a display; a wireless communication processor configured to transmit a control signal to a content transmission device; and a controller configured to in response to an input for an execution of a content playback application, display a content playback setting screen on the display including a plurality of content reception devices, a plurality of input terminals of the content transmission device through which the content reception devices are connected to the content transmission device, and a plurality of thumbnail images corresponding to content data input via the respective input terminals, and in response to a selection of a first content reception device among the plurality of content reception devices and a selection of a first input terminal among the plurality of input terminals, transmit the content data received through the first input terminal of the content transmission device to the first content reception device, and in response to a selection of the first content reception device and a selection of a second input terminal among the plurality of input terminals, transmit the content data received through the second input terminal of the content transmission device to the first content reception device.

A smart wall-plate system having customizable device controls to initiate automation functions, routines, actions, activities, or control to be performed by a variety of local or remote devices is disclosed. The smart wall-plate system may be connected directly or indirectly to any number and type of local and remote devices as well as various cloud service platforms and home service hubs or assistants. The local and remote devices can include, for example, lighting devices, smart devices, and Internet-of-Things (IoT) devices. The wall-plate system may receive an input from a user. The wall-plate system or another system in communication with the wall-plate system may determine an instruction corresponding to, or triggered by, the received input. The instruction may specify an automated activity to be performed. In response, the wall-plate system or another system may transmit one or more signals to perform the automated activity.

The present invention supports the control of a plurality of controlled devices. With three dimensional accelerometer components, detection of a user action on a remote controller and the orientation of the remote controller are viable through small electronic devices. Aspects of the invention are based on the three dimensional accelerometer components to provide a remote controller that can detect the user action. Based on the user action, the remote controller transmits a signal to the controlled device which conveys the corresponding command. A selected controlled device may be matched to the remote controller. The remote controller and controlled device may also support a learning mode, in which the controlled device sends a list of supported commands to the remote controller. The remote controller then matches an associated action with each command in the command list.

A system, method, and apparatus for controlling a plurality of devices are provided. The system includes a remote control device comprising a processor configured to generate a carousel zone comprising at least a subset of graphical icons of a plurality of graphical icons, determine a first target device and a second target device from the plurality of devices, generate a first user interface based on the first target device, the first user interface associated with a first set of commands, in response to a user input, generate a second user interface based on the second target device, the second user interface associated with a second set of commands, control the first target device based on the first set of commands, and control the second target device based on the second set of commands.

A gesture access system includes at least one wireless transceiver to be mounted to a motor vehicle having a powered door, a motor responsive to motor control signals to open the power door and a processor to process signals from the wireless transceiver to determine whether an object is exhibiting a predefined gesture and, if so, to control an unlocking actuator to unlock the powered door, to then continually monitor and process signals from the wireless transceiver to determine object parameters including a speed of movement of the object away from, and a distance of the object relative to, the powered door, determine a door opening speed based on the object parameters, and control the motor control signals to open the powered door at the determined door opening speed.

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.

Systems, methods, and media for providing a multipurpose remote control are provided. In some implementations, a system for controlling a media device is provided, the system comprising: a hardware processor connected to a touch sensor, a directional input region, and a motion sensor, wherein the hardware processor is configured to: detect that the touch sensor is activated for a predetermined period of time; and upon detecting that the touch sensor has been activated for the predetermined period of time, switching from a first mode to a second mode, wherein: the first mode comprises controlling a highlighted region displayed on the media device in response to an input provided on the directional input region and selecting an item corresponding to the highlighted region in response to depression of the touch sensor; and the second mode comprises controlling a position of a cursor displayed on the media device in response to an output of the motion sensor, selecting an item corresponding to the position of the cursor in response to depression of the touch sensor, and inhibiting the display of the highlighted region.