Some embodiments provide a non-transitory machine-readable medium that stores a program. The program receives a set of sensor data from a set of sensors. Each sensor in the set of sensors is configured to sense a physical quantity. Based on the set of sensor data, the program further determines that a particular event has occurred. Based on the determination that the particular event has occurred, the program also sends a set of notifications to a set of subscribers.

A method for aggregated storage of observational data on a blockchain includes: receiving, by a receiver of a processing server, a plurality of data entries, wherein the plurality of data entries includes (i) one or more data entries received from each of a plurality of different external devices, or (ii) multiple data entries received from one external device; canonicalize, by a processor of the processing server, the received plurality of data entries into a single data value; hashing, by the processor of the processing server, the single data value to generate a hashed data value; transmitting, by a transmitter of the processing server, the hashed data value to a blockchain node in a blockchain network; receiving, by the receiver of the processing server, a reference value from the blockchain node; and storing, in a memory of the processing server, the received reference value with the plurality of data entries.

Aspects of the present disclosure relate to an apparatus comprising: a substrate; communication circuitry deposited on said substrate; and ballot circuitry deposited on said substrate. The ballot circuitry comprises: a plurality of voting circuitry elements, each voting circuitry element being responsive to a voting operation to change a conductive state of that voting circuitry element; and logic circuitry communicatively coupled with each of the plurality of voting circuitry elements and with the communication circuitry. The logic circuitry is configured to: detect the conductive state of each of the plurality of voting circuitry elements; and transmit, via the communication circuitry and based on the conductive state of each of the plurality of voting circuitry elements, a voting result.

Aspects of the present disclosure relate to an apparatus comprising: a substrate; communication circuitry deposited on said substrate; and ballot circuitry deposited on said substrate. The ballot circuitry comprises: a plurality of voting circuitry elements, each voting circuitry element being responsive to a voting operation to change a conductive state of that voting circuitry element; and logic circuitry communicatively coupled with each of the plurality of voting circuitry elements and with the communication circuitry. The logic circuitry is configured to: detect the conductive state of each of the plurality of voting circuitry elements; and transmit, via the communication circuitry and based on the conductive state of each of the plurality of voting circuitry elements, a voting result.

Systems, methods, apparatuses, and computer-readable media for categorized text determination and organization are described. In one embodiment, an apparatus may include a processor and a memory storing instructions which when executed by the processor cause the processor to determine a plurality of contextual text elements in at least one text source, combine the plurality of contextual text elements, classify events associated with at least a portion of the plurality of contextual text elements, and determine text elements related to at least a portion of the contextual text elements. Other embodiments are described.

A tangible, non-transitory, computer-readable medium includes instructions. The instructions, when executed by processing circuitry, are configured to cause the processing circuitry to receive a plurality of sensory datasets associated with an industrial automation system from a plurality of sensors, categorize each sensory dataset of the plurality of sensory datasets into one or more sensory dataset categories of a plurality of sensory dataset categories, determine context information associated with the plurality of sensory datasets, the context information being representative of an environmental condition associated with an extended reality device, the industrial automation system, or both, determine a priority of each sensor dataset category of the plurality of sensory dataset categories based on the context information, determine output representative data to be presented by the extended reality device based on the plurality of sensory datasets and the priority, and instruct the extended reality device to present the output representative data.

There is provided herein a technical solution to the technical problem of being able to obtain proof-of-play and display timing data despite not being able to access or modify the display controller software of digital display devices of outdoor advertising networks which entails transmitting hypertext marked-up image display data files to digital displays which comprise client-side code and a resource locator. As such, when each display data file is displayed by the digital display the web-capable display controller thereof executes the client-side code to transmit proof-of-play tracking data to the resource locator and which may periodically transmit timing data until the instantiation of the client-side code is destroyed by the display controller. Aspects are also provided herein for being able to achieve sub second resolution and account for data transmission errors.

A system for generating emergency egress advisement for a building having at least one first computing device that determines a floormap and generates initial emergency egress advisement for the building and at least one second computing device that improves generation of initial emergency egress advisement. The second computing device can receive the initial emergency egress advisement, iteratively train a model for the building by correlating the initial emergency egress advisement to corresponding information about intended egress outcomes for different emergency situations in the building across one or more model layers using one or more machine learning algorithms, predict, based on real-time information about the emergency and historic user presence information, presence and location information of users in the building, generate egress routes that can be used by the users, and update, based on a trained model and the generated egress routes, the initial emergency egress advisement for the building.

The present invention relates to a method (10) for distributing surplus items from a plurality of items of the same type, which includes providing to unlimited number of users an electronic interaction platform (2a, 42) for submitting at least one request (2) for a surplus item and/or for submitting at least one offer (4) of a surplus item, wherein said electronic interactive platform is configured for correlation (9) of such request and such offer according to a predetermined first criterion (6). The invention further relates to a computer system (20), a computer program (30) and a data carrier (40).

A node associated with an individual and/or organization receives a storage identifier for new data associated with a consumer and/or business. A node and distributed data sources are used to share the new consumer and/or business data with a network of nodes. The node updates a node with the storage identifier for the new consumer and/or business data. The node receives, from a device associated with the individual and/or organization, a request for the new data. The node obtains the storage identifier for the new data from the node. The node obtains the new data by using the storage identifier to search the distributed data sources. The node provides the new consumer and/or business data to the device. The node performs actions to obtain additional new consumer and/or business data from the distributed data sources or provide the additional new consumer and/or business data to the distributed data sources.