The invention discloses a smart loudspeaker, wherein the smart loudspeaker includes a voice input module, a language recognition module and at least two voice assistants, and the language recognition module receives a voice information from the voice input module and determines the language category based on the voice information and activates the voice assistant corresponding to the language category.

Embodiments include a device comprising an interface module for interfacing with proprietary legacy systems. The interface module comprises a data interface for interfacing with a processing component of the legacy system, where the processing component uses a proprietary protocol for processing data of the legacy system. The interface module includes a protocol module that comprises a protocol corresponding to the proprietary protocol of the legacy system, and the interface module uses the protocol to exchange data with the processing component. The interface module includes a communication device that communicates with a remote system via a wireless channel. The interface module controls communications that include passing commands from the remote system to the legacy system, and passing event data of the legacy system to the remote system.

Systems, and methods are described herein for identifying and/or controlling influence and/or potential influence of one or more signals on one or more properties of light emitted by one or more lighting units (100). In various embodiments, one or more signals may be identified that influence, or potentially influence, a manner in which a lighting unit controller (110) controls one or more properties of light to be emitted by a lighting unit (100). In some embodiments, a user instruction may be received to alter the manner in which the one or more signals influence how the lighting unit controller (110) controls the one or more properties of light emitted by the lighting unit (100) may be received. The lighting unit controller (110) may control a manner in which light output of the lighting unit (100) is influenced by the one or more signals in accordance with the user instruction.

An apparatus includes processing circuitry configured to output a first superframe configured in an initial superframe mode that allocates each slot of a plurality of slots for wireless communication to a first protocol at a first frequency band, a second protocol at the first frequency band, or a third protocol at the first frequency band. The processing circuitry is also configured to output a second superframe configured in a multi-frequency superframe mode that allocates: i) at least one slot of a plurality of slots for wireless communication to the first protocol, the second protocol, or the third protocol at the first frequency band, and ii) at least one slot of the plurality of slots for wireless communication to the first protocol, the second protocol, or the third protocol at the second frequency band.

A self-calibrating RF network and system and method for use of the same are disclosed. In one embodiment, the self-calibrating RF network includes multiple hospitality properties, wherein RF network includes a property server located in communication with a terminal device providing data services through distribution elements to end point devices, such as set-top boxes. Each of the property servers collects RF performance data relative to the terminal device, the distribution elements, and the end point devices. The RF performance data is analyzed by a remote central server that provides RF adjustment data, which is indicative of power and equalization adjustments to the terminal device, power and equalization adjustments to the plurality of distribution elements, and power and ranging adjustments to the plurality of end point devices.

Disclosed are a binding method and system for device network configuration, and a mobile terminal and a storage medium. The method comprises: according to a request made to a cloud server from a smart device needing to be configured, acquiring device information of the smart device and a binding code; receiving the binding code generated by the cloud server, and the device information sent by same, and connecting the smart device according to the device information, and sending the binding code to the connected smart device, such that when the smart device is registered to the cloud server, the binding and connection to the smart device are realized according to the binding code.

Systems and methods for a security network integrating security system and network devices are disclosed. A system may comprise a gateway and first and second security panels, each located at a premises. The first and second security panels may be connected, via respective first and second wireless communication protocols, to respective first and second security system components. The first and second security panels may receive respective first and second security data from the respective first and second security system components. The gateway may be configured to receive, via the first and second wireless communication protocols, the respective first and second security data. The gateway may be configured to transmit at least one of the first security data and the second security data to a security server located external to the premises.

Temporarily suppressing and/or disabling notifications to a client device of events detected by a security device monitoring an environment. The notifications may be disabled and/or suppressed based upon a request from a user of the client device, or when the client device is nearby the security device. The user may request that notifications are suppressed for a definable suppression duration, wherein a timer is started to run for the suppression duration, and notifications are suppressed while the timer is running. When the client device is nearby the security device, suppression of the notifications for other users may be defined by a user-configurable table. A notification from a security device may include a suppress button to suppress notifications from that security device for a suppression period.

A power module is configured to accept power from a cable, wherein the power module may be inserted into a standard wall cavity via a small hole. A processor module coupled to the power module comprises a processor and is configured to accept power from the cable for the processor, wherein the processor module may be inserted into the standard wall cavity via the small hole. A sensor module coupled to the processor module, comprises a sensor and is configured to accept input from the sensor for the processor, wherein the sensor module may be inserted into the small hole.

Systems, methods, and devices for routing data in a network are described. A user device may send a request for video data that has been captured by a premises device. A computing device at the premises may receive the request and determine a capability of the user device. Based on the capability of the user device, the computing device may select a protocol from a plurality of protocols with which the video data is to be transmitted to the user device. Based on determining that the video data cannot be transmitted via the computing device, the video data may be transmitted from the premises device to the user device via the determined protocol.