Wearable electronic systems having varying interactions based on device orientations are described herein. The systems include a first wearable electronic device and a second wearable electronic device having an input device and a device orientation sensor. The device orientation sensor detects a device orientation of the second wearable electronic device and generates a device orientation signal. The systems have a first mapping orientation mode that performs a first mapping between inputs from the input device and functions of a user interface displayed on the first wearable electronic device when the second wearable electronic device has a first device orientation and a second mapping orientation mode that performs a second mapping between inputs from the input device and functions of the user interface displayed on the first wearable electronic device when the device orientation of the second wearable electronic device detected by the device orientation sensor is a second device orientation.

Handheld electronic devices are provided that have remote control functionality and gesture recognition features. The handheld electronic device may have remote control functionality in addition to cellular telephone, music player, or handheld computer functionality. The handheld electronic devices may have a touch sensitive display screen. The handheld electronic devices may recognize gestures performed by a user on the touch sensitive display screen. The handheld electronic devices may generate remote control signals from gestures that the handheld electronic device may recognize. A media system may receive the remote control signals and may take appropriate action. The touch sensitive display screen may be used to present the user with information about the media system such as the current volume.

The present disclosure provides a device control method, which comprises capturing, by a portable device, a first image of a specific area containing a number of electronic devices connected to a communication network; transmitting a connection signal to a selected electronic device on a device list containing all the electronic devices connected to a communication network; determining whether the selected electronic device is in the first image captured based on whether a response has been received from the selected electronic device; identifying the selected electronic device on the device list and the relative position of the selected electronic device on the first image captured upon determined that the selected electronic device is in the first image; and continuing the device identification process until all the connected electronic devices on the device list has been verified, to identify the relative positions of all electronic devices contained in the first image.

A computer-implemented method for enabling gesture-based interactions between a computer program and a user is disclosed. According to certain embodiments, the method may include initiating the computer program. The method may also include detecting that a condition has occurred. The method may also include activating a gesture-based operation mode of the computer program. The method may also include receiving gesture data generated by a sensor, the gesture data representing a gesture performed by the user. The method may further include performing a task based on the gesture data.

A remote control device is provided that is configured for use in a load control system that includes one or more electrical loads. The remote control device includes a mounting structure and a control unit, and the control unit is configured to be attached to the mounting structure in a plurality of different orientations. The control unit includes a user interface, an orientation sensing circuit, and a communication circuit. The control unit is configured to determine an orientation of the control unit via the orientation sensing circuit. The control unit is also configured to translate a user input from the user interface into control data to control an electrical load of the load control system based on the orientation of the control unit and/or provide a visual indication of an amount of power delivered to the electrical load based on the orientation of the control unit.

A control system for controlling at least one remote device includes a communication module for transmitting control instructions to the remote device; a processor unit for generating said control instructions and sending them to said communication module; and a user interface for detecting information from a user. The user interface includes at least one muscle activity sensor for detecting muscular activity information from the user by measuring the electrical activity of at least one of the user’s muscles, and the user interface generates muscular activity signals representative of detected muscular activity and sends them to the processor unit, and the processor unit generates the control instructions as a function of the muscular activity signals received by the processor unit.

A compact wireless remote control for the wireless remote control of a machine is described, having an upper-face operating surface having a display device and at least one free space which is below the upper-face operating surface so as to be at least partly covered by same, is open towards the outside at least laterally on one side, and is delimited by wall portions of the wireless remote control. At least one operating element which can be actuated by an operator at least from the open lateral side of the free space is provided on at least one of said wall portions on the free space side. The free space is preferably formed continuously from one lateral side to the other lateral side and is open at both lateral sides. At least one operating element in each case can be manually accessed from each open lateral side for actuation.

An information processing apparatus includes a control unit (140) that executes a detection process of detecting, on the basis of user-specified position information in a space and target position information in the space, a plurality of processing targets that is continuously selected by a user from a plurality of selection targets within the space, and a batch operation process of executing a batch operation on the detected plurality of processing targets on the basis of processing policy information indicating a processing policy specified by the user for the detected plurality of processing targets.

The present disclosure provides for device localization using ultra wide band (UWB) detection and gesture detection using inertial measurement units (IMUs) on one or more wearable devices to control smart devices, such as home assistants, smart lights, smart locks, etc.

An application control system and method is adapted for use with an entertainment system of a type including a display such as a monitor or TV and having display functions. A control device may be conveniently held by a user and employs an imager. The control system and method images the screen of the TV or other display to detect distinctive markers displayed on the screen. This information is transmitted to the entertainment system for control of an application or is used by the control device to control an application.