The disclosure provides methods and systems for spatially remote controlling a network controllable device in a physical user environment. An exemplary method may include tracking, by a processor, a position and orientation of a remote control device based on sensor data. The sensors may be one or more of a gyroscope, accelerometer, and a magnetometer. Based on the tracking, a ray extending from the remote control device in a direction the remote control device is pointing is determined. The determined ray is compared to a predefined map, the predefined map including a spatial location associated with each of one or more network controllable devices. The method may include, based on the comparing, selecting a network controllable device of the one or more network controllable devices corresponding to the determined ray. In response to receiving a user input, a control signal is then transmitted to the selected network controllable device.

The disclosure provides methods and systems for spatially remote controlling a network controllable device in a physical user environment. An exemplary method may include tracking, by a processor, a position and orientation of a remote control device based on sensor data. The sensors may be one or more of a gyroscope, accelerometer, and a magnetometer. Based on the tracking, a ray extending from the remote control device in a direction the remote control device is pointing is determined. The determined ray is compared to a predefined map, the predefined map including a spatial location associated with each of one or more network controllable devices. The method may include, based on the comparing, selecting a network controllable device of the one or more network controllable devices corresponding to the determined ray. In response to receiving a user input, a control signal is then transmitted to the selected network controllable device.

Systems and methods are provided for monitoring aircraft to mitigate potential loss of communication scenarios. One exemplary method involves monitoring a plurality of communications channels using an onboard communications system, maintaining associations between respective communications channel assignments and respective operational contexts based on the plurality of clearance communications, and in response to detecting a change in an operational context of the aircraft, providing indication of a recommended communications channel based on an association between the recommended communications channel and one of the plurality of different operational contexts corresponding to a current operational context of the aircraft.

A ladder-type filter includes a plurality of series arms and a plurality of parallel arms, in which one of the parallel arms does not have resonance characteristic is arranged in parallel between two series arm resonators of the plurality of series arms. The ladder-type filter may be included in a duplexer and/or a module.

A ladder-type filter includes a plurality of series arms and a plurality of parallel arms, in which one of the parallel arms does not have resonance characteristic is arranged in parallel between two series arm resonators of the plurality of series arms. The ladder-type filter may be included in a duplexer and/or a module.

A method for controlling the operation of a plurality of consumer electronic devices by displaying a plurality of broadcast channel identifiers each corresponding to a broadcast channel in a display of a controlling device adapted to command at least channel tuning operations of the plurality of consumer electronic devices. Input is accepted into the controlling device that functions to designate one of the plurality of broadcast channel identifiers and the controlling device uses the designation of the one of the plurality of broadcast channel identifiers to cause a transmission of a wireless signal from the controlling device to a one of the plurality of consumer electronic devices to thereby cause the one of the plurality of consumer electronic devices to tune to the broadcast channel corresponding to the designated one of the plurality of broadcast channel identifiers. A condition associated with at least one of the controlling device and the designated one of the plurality of broadcast channel identifiers functions to determine the one of the plurality of consumer electronic devices to which the wireless signal is transmitted.

Examples are provided for establishing a bonded zone comprising a first playback device comprising a respective first wireless radio and a second playback device comprising a second respective wireless radio. The first and second playback devices may establish a bonded zone comprising at least the first and second playback device. While in the established bonded zone, the first playback device may determine that the first playback device is in the established bonded zone and that the first playback device is not currently playing audio in synchrony with the second playback device. Responsive to determining that the first playback device is not playing audio in synchrony, the first playback device may disable communicating via the first wireless radio of the first playback device and send a message to the second playback device to disable communicating via the first wireless radio of the second playback device.

Examples are provided for establishing a bonded zone comprising a first playback device comprising a respective first wireless radio and a second playback device comprising a second respective wireless radio. The first and second playback devices may establish a bonded zone comprising at least the first and second playback device. While in the established bonded zone, the first playback device may determine that the first playback device is in the established bonded zone and that the first playback device is not currently playing audio in synchrony with the second playback device. Responsive to determining that the first playback device is not playing audio in synchrony, the first playback device may disable communicating via the first wireless radio of the first playback device and send a message to the second playback device to disable communicating via the first wireless radio of the second playback device.

A hand-held electronic device having a remote control application user interface that functions to displays operational mode information to a user. The graphical user interface may be used, for example, to setup the remote control application to control appliances for one or more users in one or more rooms, to perform activities, and to access favorites. The remote control application is also adapted to be upgradeable. Furthermore, the remote control application provides for the sharing of operational mode information.

A hand-held electronic device having a remote control application user interface that functions to displays operational mode information to a user. The graphical user interface may be used, for example, to setup the remote control application to control appliances for one or more users in one or more rooms, to perform activities, and to access favorites. The remote control application is also adapted to be upgradeable. Furthermore, the remote control application provides for the sharing of operational mode information.