A condition control of a robot cleaner is performed or service is provided with a user using the robot cleaner to improve the convenience of the user. Various data items obtained through a network connection are used in the condition control or service to estimate/determine a behavior, condition, or request of the user. Specifically, the operation of the robot cleaner is controlled based on operations of other associate devices disposed in the same room where the robot cleaner runs.

A device controllable via tabular data and a computer-implemented method for interactively performing operations on tabular data. The method comprises providing an input array, an operations array, and an output array, wherein each array includes at least one cell, receiving, in the operations array, a first reference to a cell of the input array, receiving tabular data from an input source, and performing operations on multiple rows of the tabular data. The operations comprise inserting one of the rows of the tabular data into the input array, determining a value of a second cell of the operations array based on the referenced cell of the input array, and storing one of the following in a cell of the output array: the determined value of the operations array and a value of the referenced cell of the input array.

A user equipment (UE) may transmit a sounding reference signal (SRS) on a component carrier (CC) that is otherwise configured for downlink communications. Due to a carrier aggregation configuration or UE capability, the UE may need to retune certain components to transmit on the CC. If the SRS transmission, including the retuning time, collides with another transmission (e.g., in uplink or downlink) the UE may drop the SRS, drop the other transmission, or puncture the other transmission to facilitate the SRS transmission. The determination about a collision may depend on the retuning time, channel, or type of control information in the other transmission. In some cases, a UE may drop the other transmission if transmitting the SRS would prevent the UE from transmitting a demodulation reference signal, hybrid automatic repeat request (HARD) feedback. In some cases, the determination may be based upon a prioritization and may also depend on a subsequent subframe.

A user equipment (UE) may transmit a sounding reference signal (SRS) on a component carrier (CC) that is otherwise configured for downlink communications. Due to a carrier aggregation configuration or UE capability, the UE may need to retune certain components to transmit on the CC. If the SRS transmission, including the retuning time, collides with another transmission (e.g., in uplink or downlink) the UE may drop the SRS, drop the other transmission, or puncture the other transmission to facilitate the SRS transmission. The determination about a collision may depend on the retuning time, channel, or type of control information in the other transmission. In some cases, a UE may drop the other transmission if transmitting the SRS would prevent the UE from transmitting a demodulation reference signal, hybrid automatic repeat request (HARD) feedback. In some cases, the determination may be based upon a prioritization and may also depend on a subsequent subframe.

A slave relay station is adapted to serve and/or host pages comprising a simplified graphic user interface (GUI) encoded in a widely recognized format such as, for example, HTML or WML. The GUI embodies activatable links corresponding to control functions for configured appliances. A wireless phone or other device with network access and the capability to process and present such pages, for example via a Web browser, may then be utilized to effect control of such appliances by simply navigating to the network address of the slave relay station, obtaining an appropriate GUI page, and interacting with the links.

A system and a method render internet multimedia content in a network using an application to render the internet multimedia content and/or locally stored multimedia content on one or more rendering devices in the network. The application may provide web browser functions, such as, for example, receiving, processing, decoding and/or rendering the internet multimedia content. The application may have an enhanced user interface which may enable a user to select the internet multimedia content and a rendering device in the network, send the internet multimedia content to the rendering device and/or control rendering of the internet multimedia content on the rendering device.

A functional device is disclosed that can collect and process data/information/parameter values from one or more sensors and compares the same with one or more predefined/threshold value to suggest one or more actions and/or generate alerts/messages/suggestions to be performed by one or a combination of remote system, wearer, home automation network, healthcare provider, doctor, caretaker, among other stakeholders. Communication between the functional device, home automation server and a computational server that stores the data is also disclosed.

A control method according to the present disclosure causes a computer of an information apparatus to: display on a display a display screen representing a floor plan including one or more rooms; and using at least one memory that associates first information indicating a type of each of one or more device icons representing one or more target devices with second information indicating an attribute of each of the one or more rooms, display a device icon having a room that corresponds to a type of a device icon among the one or more device icons in a region on the display screen corresponding to a room that corresponds to the device icon and display a device icon not having a room that corresponds to the type of the device icon among the one or more device icons in a prescribed region on the display screen.

An example of a building automation system utilizes intelligent system elements, some of which are lighting devices having light sources, and some of which are utility building control and automation elements. Some utility building control and automation elements include a controllable mechanism for use in control of some aspect of the building other than lighting. Another intelligent system element may include either a user interface component and be configured as a building controller, or include a detector and be configured as a sensor. Each intelligent system element includes a network communication interface, processor, memory and programming to configure the intelligent system element as a lighting device, utility building control and automation element, controller or sensor. At least one of the intelligent lighting devices is configured as a building control and automation system server. Several examples, however, implement the overall control using distributed processing.

A method for controlling a smart home using a smart watch is disclosed. The method includes: detecting whether the smart watch has entered a sensing range of the smart home; detecting, after the smart watch has entered the sensing range of the smart home, whether the smart watch has established a wireless connection with the smart home; turning on, after the smart watch has established the wireless connection with the smart home, a smart-home-control function of the smart watch; and while controlling the smart home using the smart-home-control function, recognizing hand gestures of the user using the smart watch and controlling the smart home through the wireless connection to switch current working state of the smart home based on the recognized hand gestures of the user.