First sensor data can be received from a first set of IoT devices. Sensor data collection rates can be determined for a first artificial intelligence model by analyzing the first sensor data using a second artificial intelligence model. Based on the sensor data collection rates, sensor control commands can be communicated to a second set of Internet of Things devices. The sensor control commands can specify, to the second set of Internet of Things devices, sensor data communication rates that respective ones of the second set of Internet of Things devices are to implement for communicating, to the first artificial intelligence model, second sensor data generated by sensors of the respective ones of the second set of Internet of Things devices.

First sensor data can be received from a first set of IoT devices. Sensor data collection rates can be determined for a first artificial intelligence model by analyzing the first sensor data using a second artificial intelligence model. Based on the sensor data collection rates, sensor control commands can be communicated to a second set of Internet of Things devices. The sensor control commands can specify, to the second set of Internet of Things devices, sensor data communication rates that respective ones of the second set of Internet of Things devices are to implement for communicating, to the first artificial intelligence model, second sensor data generated by sensors of the respective ones of the second set of Internet of Things devices.

A method, a media device, and a non-transitory computer readable medium for creating a theatrical effect. The method includes receiving, on a media device, a theatrical track; parsing, by the media device, the theatrical track to retrieve Internet of Things metadata; generating, by the media device, Internet of Things instructions from the Internet of Things metadata; and publishing, by the media device, the Internet of Things instructions with presentation timestamps for one or more Internet of Things devices.

A user device is configured to receive a request to connect an Internet of Things (IoT) device to the user device. In response, the user device connects to the IoT device. The user device detects that the user device performed a first transaction related to the IoT device and records the first data transaction as a behavior. Based on the recorded behavior, the user device determines a second data transaction that can be performed relating to the IoT device and a schedule to perform the second data transaction. The user device performs the second data transaction according to the schedule after obtaining approval.

A processor may identify an action of a first device of the IoT devices. The processor may initiate a transfer from the first device to one or more other devices of the IoT devices. The processor may pause each thread being executed by the first device and the one or more other devices. The processor may transfer a unit from the first device to the one or more other devices.

A processor may identify an action of a first device of the IoT devices. The processor may initiate a transfer from the first device to one or more other devices of the IoT devices. The processor may pause each thread being executed by the first device and the one or more other devices. The processor may transfer a unit from the first device to the one or more other devices.

A system and method are provided for controlling operations of devices in an IoT environment based on a correlation between devices. The controlled operations include identifying a first device in response to a user pointing the electronic device toward the first device, determining at least one second device contextually related to the first device, and recommending at least one suggestion to control at least one operation of at least one of the first device or the at least one second device, based on a correlation between capabilities of the first device and a current operating context of the at least one second device.

A system and method are provided for controlling operations of devices in an IoT environment based on a correlation between devices. The controlled operations include identifying a first device in response to a user pointing the electronic device toward the first device, determining at least one second device contextually related to the first device, and recommending at least one suggestion to control at least one operation of at least one of the first device or the at least one second device, based on a correlation between capabilities of the first device and a current operating context of the at least one second device.

A control method and device for a smart seated toilet. The method comprises: by acquiring function usage limitation information of a pre-set function provided by the smart seated toilet, judging whether the function usage limitation information satisfies conditions for allowing a user to use; if so, unlocking the pre-set function; and if not, then locking the pre-set function. By verifying the usage of a smart seated toilet, usage limitations of different functions of the smart seated toilet are realized, and convenience for users is improved.

A building management system (BMS) of a building for controlling a healthcare facility. The BMS including one or more processing circuits comprising one or more memory devices configured to store instructions thereon that, when executed by one or more processors, cause the one or more processors to: receive a signal indicating a code blue event in a room for a patient; and adjust at least one of a temperature, a pressure, a humidity level, a lighting system, or an air composition in the room automatically in response to the received signal.