Abstract: A system for remotely controlling an electrical switching device is disclosed. The system includes a mounting fixture configured to be mounted in a wall. An electrical switching device is supported by the mounting fixture. The system also includes a cover configured to cover at least a portion of the mounting fixture. The system further includes a shielding plate configured to have a high electrical conductivity. The shielding plate is mounted proximate to the mounting fixture between the cover and the electrical switching device. The system also includes a directional, non-isotropic radio frequency (RF) antenna sized to fit within the cover and configured to transmit RF frequency signals. The RF antenna is located between the shielding plate and the cover at a predetermined distance from the shielding plate. The predetermined distance is selected to increase the capability of the RF antenna to send and receive the RF signals.

Abstract: A method and apparatus for device discovery and channel selection in a wireless networking environment are described. As part of an automatic network configuration process, a super node sequentially traverses the available channels, broadcasting discovery messages including the channel switching schedule. Wireless nodes that receive those broadcast messages switch channels in lock step with the super node, sending discovery replies on those channels over which the broadcast discovery messages are successfully received. An association is generated identifying accessible nodes and the channels through which those nodes may be accessed. An optimum channel may then be selected based on this association information. Sub-nodes may repeat the broadcast discovery messages, and relay any discovery replies to the super node. The super node may then identify sub-nodes that may be used as proxies to access nodes that would otherwise be inaccessible.

Abstract: A method and apparatus for device discovery and multi-mode security in a wired and/or wireless control network are described. A controlled device is configured with discovery-level instructions and application-level control instructions. The controlled device includes a user-configurable parameter for selecting between multiple security modes. In one or more security modes, the controlled device may ignore application-level messages until encrypted communications are established with a controller. In one mode, the encrypted communication is established with an encryption key exchange using a predetermined security key. In another mode, a specific key is manually entered into the controller by the user/administrator to facilitate the encryption key exchange. Additionally, for control applications where security is not important, an unencrypted security mode may be implemented. A driver ID provided by the controlled device facilitates loading of a preferred device driver by the controller.

Abstract: A method and apparatus for synchronizing streaming media with multiple output devices. One or more media servers serve media streams to one or more output devices (i.e., players). For playback synchronization, one output device is the “master”, whereas the remaining output devices are “slaves”. More data is requested from the media server by the “master” device to maintain a nominal buffer fill level over time. The “slave” devices receive streamed data from the media server at the rate determined by the master device's data requests, and the average rate of data flow over the streaming network is thus controlled by the frequency of the single “master” device's crystal. “Slave” devices make playback rate corrections to maintain respective buffer fill levels within upper and lower threshold levels. For slow networks, each media data packet timestamp is calculated from the time the master's buffer reaches nominal level.

Abstract: A system is disclosed for mounting a faceplate. The system includes a sub-plate configured to be coupled to a junction box. The sub-plate can have an interference-fit socket extending through the sub-plate. The interference-fit socket includes one or more interference fingers located adjacent to a post opening. A post extending from the faceplate can be positioned and sized such that, as the faceplate is coupled to the sub-plate, the post will be received into the post opening in the interference-fit socket and engaged by the one or more interference fingers, enabling the faceplate to be securely mounted to the sub-plate.