Systems and methods are provided for selecting one or more network-connected devices to provide device functions required by an event. A media guidance application may detect an event in which a user is currently engaged. The media guidance application may identify a set of device capabilities associated with the event. The media guidance application may search, within a plurality of network-connected devices of the user, to identify one or more devices that enable functions corresponding to the set of device capabilities to be perceptible to the user, and the media guidance application may instruct the identified one or more devices to provide the functions corresponding to the set of device capabilities associated with the event.

Systems and methods are provided for selecting one or more network-connected devices to provide device functions required by an event. A media guidance application may detect an event in which a user is currently engaged. The media guidance application may identify a set of device capabilities associated with the event. The media guidance application may search, within a plurality of network-connected devices of the user, to identify one or more devices that enable functions corresponding to the set of device capabilities to be perceptible to the user, and the media guidance application may instruct the identified one or more devices to provide the functions corresponding to the set of device capabilities associated with the event.

An information processing system, an information processing method, and a computer program capable of easily and reliably identifying a behavioral history of an infected person and extracting close contacts are provided.

According to an embodiment of the present disclosure, there is provided an information processing system including a first information processing device having a function of transmitting a signal, a second information processing device having a function of receiving the signal, and a server device capable of being connected to the second information processing device via the Internet, wherein the server device stores time information, intensity information, first identification information, and second identification information received from the second information processing device in association with each other and extracts one or more pieces of other first identification information stored in association with specific second identification information on the basis of the specific second identification information stored in association with specific first identification information when the designation of the specific first identification information of a specific first information processing device has been received.

Methods, systems, and apparatuses, including computer programs encoded on computer storage media, for intelligent dietary tracking are described. An example method includes obtaining a complete coverage of a user’s food intake activities using multiple tools. These tools are respectively designed to collect the user’s food intake activities through different venues. For example, the obtaining may include: obtaining first food intake events of the user collected by an Internet of Things (IoT) system installed as a foodservice establishment; obtaining second food intake events of the user collected by an electronic appliance placed at the user’s residence or office; and obtaining third food intake events of the user from a mobile application installed on a mobile device of the user. The complete coverage of the user’s food intake activities may be used for dietary behavioral analysis or other tracking purposes.

The present disclosure relates to a device which charges and cleans a personal wearable device. The device includes a wireless charging circuit disposed within the device, and an ultraviolet light source disposed within the device. Further disclosed is a system which includes a device and a personal wearable device. The device includes a charging unit including wireless charging circuitry, and a cleaning unit including at least one ultraviolet light source; and a personal wearable device.

A system allows a data to be automatically uploaded via a Bluetooth interface to an Android or Apple-based smartphone and then wirelessly sent to a secure blockchain powered global network, instantly making the test results available anywhere in the world. The IoT system presented here could become an essential tool for healthcare centers to tackle infectious disease outbreaks identified either by DNA or ribonucleic acid.

A system allows a data to be automatically uploaded via a Bluetooth interface to an Android or Apple-based smartphone and then wirelessly sent to a secure blockchain powered global network, instantly making the test results available anywhere in the world. The IoT system presented here could become an essential tool for healthcare centers to tackle infectious disease outbreaks identified either by DNA or ribonucleic acid.

A network architecture may receive situational data. The network architecture may acquire participant data associated with a participant. The network architecture may accept object data associated with an object. The network architecture may generate likelihood of infectiousness of the object based on the participant data and the object data. The network architecture may display the likelihood of infectiousness to one or more users.

A network architecture may receive situational data. The network architecture may acquire participant data associated with a participant. The network architecture may accept object data associated with an object. The network architecture may generate likelihood of infectiousness of the object based on the participant data and the object data. The network architecture may display the likelihood of infectiousness to one or more users.

Devices and methods for internet of things (IOT) discovery/auto discovery are described. A discovery packet is received from a device. The discovery packet includes a first stream identifier and a request to establish a second stream. A stream acceptance packet is sent to the device. The stream acceptance packet includes the first stream identifier and an input for generating a second stream identifier. A first association is added to the registration based on the request to establish the second stream. The first association is between the second stream identifier and a determined destination. A first data packet is received from the device, where the first data packet includes/utilizes the second stream identifier. The first data packet is sent to the destination based on the first association in the registration.