A new approach is proposed to support appliance configuration identification and profiling management. An appliance scanning component running on an appliance is configured to scan, examine, and determine current configuration of the appliance including hardware components and/or software components installed on the appliance. The configuration of the appliance is then provided to an appliance profiling engine running on a server, wherein the appliance profiling engine hashes the configuration of the appliance into a unique identifier of the appliance and look up a model of the appliance from an appliance profiling database using the unique identifier as a key. If the configuration of the appliance is not found, the appliance profiling engine identifies discrepancies between the configuration of the appliance and other appliances in the appliance profiling database to determine if the appliance is a new model, a revision of an existing model, or is simply misconfigured.

An entertainment device initiates a configuration process of a controlling device in response to a change in an audio visual entertainment system configuration in which at least one of a plurality devices is connected to the entertainment device as an audio and/or visual source and at least one of the plurality of devices is connected to the entertainment device as an audio and/or visual output destination for the entertainment device.

A system includes a plurality of first building components, a private local blockchain, a second building component, and a client device. The private local blockchain includes a device ledger indicating each first building component, a transaction ledger maintaining a plurality of blocks corresponding to a transaction between at least two first building components and including at least one first unique identifier of the corresponding first building component and a timestamp of the transaction, a transaction processor that generates at least one block by executing a predetermined hash function using a previous block, and a local rule engine defining rules to evaluate a transaction. The second building component has at least one second unique identifier. The client device provides the at least one second unique identifier to the private local blockchain. The private local blockchain determines whether to add the second building component to the device ledger.

An apparatus, method and storage medium to control a mobile terminal. The apparatus including a first communicator configured to receive configuration information from a target device using first wireless communication; a memory; and a processor configured to be in communication with the memory, wherein the processor causes the apparatus to perform operations including: automatically launching a specific application on a mobile terminal based on reception of the configuration information, wherein the specific application is an application for receiving data from the target device using second wireless communication different from the first wireless communication.

Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for integrating one or more light switch panels into a monitoring system. The methods, systems, and apparatus include actions of determining to communicate a non-traditional file to a z-wave capable device, communicate a first data packet to the z-wave capable device, based on communicating the first data packet to the z-wave capable device, alter a schedule command class payload of a second data packet to include a first portion of the non-traditional file, alter a schedule command class payload of a third data packet to include a second portion of the non-traditional file, and alter a schedule command class payload of a fourth data packet to include a third portion of the non-traditional file, and communicate, to the z-wave capable device, the altered second data packet, the altered third data packet, and the altered fourth data packet.

This disclosure is directed to a universal interface for sensor devices. Applications executed in a device may interact with sensor devices via a universal interface. For example, the device may act as a gateway allowing Internet of Things (IoT) devices to interact with at least one resource external to the environment in which the IoT devices operate. The device may comprise at least memory circuitry to store at least a virtual file system and at least one application. The virtual file system may provide a programmatic interface through which at least one sensor device may be accessible to the at least one application. Processing circuitry in the device may execute an application from those stored within the memory circuitry. The application, when executed, may cause interconnect circuitry also in the device to at least one of transmit instructions to, or receive data from, a sensor device utilizing the virtual file system.

Rule-based modeling for building control systems is described herein. One device includes a memory, a user, interface, and a processor configured to execute executable instructions stored in the memory to display, in a single view on the user interface, a listing of all components of a facility controlled by a building control system, display, in an additional view on the user interface, a number of rules for mapping the components of the facility to a common model of the building control system, map the components of the facility to the common model by applying the number of rules to the components of the facility, and display, in the additional view on the user interface, the components of the facility that have been mapped to the common model.

The present disclosure resides in a method for operating, installed in an automated plant, a field device, which is connected for communication with a field access unit by means of a first communication network, especially by means of a fieldbus of automation technology, comprising: invoking a link of the field device in a client computer, wherein the link is composed at least of a protocol field and a parameter field, wherein the invoking of the link initiates steps as follows: starting a first frame application associated with the protocol field of the link; transferring the link to the first frame application and extracting information contained in the parameter field by the first frame application; configuring a communication path between the client computer and the field device via the field access unit with application of the information; opening a device driver or a device description in the first frame application.

A terminal, a method for voice control, and related products are provided. The method for voice control is applicable to a terminal including a LPWAN communication module, and the method includes the following. A first enhanced LPWAN with at least one smart device is established. Voice data of a user is obtained and a control intention of the user for the at least one smart device is determined according to the voice data. A dedicated control instruction for a first smart device of the at least one smart device is determined according to the control intention, where the dedicated control instruction is used to instruct the first smart device to perform a corresponding operation. The dedicated control instruction is sent to the first smart device.

A control system includes: a communication unit that sends, to each of a plurality of devices, a control command for controlling the device; a registration unit that registers a standard action for collectively controlling at least two devices included in the plurality of devices, based on device control consecutiveness which is determined by control history information of the plurality of devices; and an executor that causes the communication unit to send a control command to each of the at least two devices when execution of the standard action registered is instructed.