An apparatus for provisioning embedded Internet of Things Universal IDs (IoT UIDs) in Brownfield devices. The apparatus includes a display circuit, a requestor circuit, a request provisioning circuit, an IoT UID processing circuit, and an IoT UID provisioning circuit. The display circuit generates a graphical user interface (GUI) configured to receive one or more user input command values corresponding to device property data for one or more Brownfield devices. The requestor circuit generates a registration request that includes the device property data. The request provisioning circuit transmits the registration request to an IoT device registrar server. The IoT UID processing circuit interprets one or more IoT UIDs generated by the IoT device registrar server in response to the registration request. The IoT UID provisioning circuit at least one of: transmits the one or more IoT UIDs, or displays the one or more IoT UIDs on an electronic display.

A system and method for reducing wireless traffic among a plurality of IoT devices and an access point is disclosed. The method and system may establish communication among a plurality of Internet of Things (IOT) devices and establish a set of similar IoT devices from among the plurality of IoT devices. One of the similar IoT devices may be designated as a managing IoT device and the remaining IoT devices in set of similar IoT devices may be designated as controlled IoT devices. Wireless traffic from the access point may be transmitted through the managing IoT device to controlled IoT devices. Wireless traffic from the controlled IoT devices may be transmitted to the access point through the managing IoT device. Thus, wireless traffic between the access point and controlled IoT devices is reduced.

A system and method for reducing wireless traffic among a plurality of IoT devices and an access point is disclosed. The method and system may establish communication among a plurality of Internet of Things (IOT) devices and establish a set of similar IoT devices from among the plurality of IoT devices. One of the similar IoT devices may be designated as a managing IoT device and the remaining IoT devices in set of similar IoT devices may be designated as controlled IoT devices. Wireless traffic from the access point may be transmitted through the managing IoT device to controlled IoT devices. Wireless traffic from the controlled IoT devices may be transmitted to the access point through the managing IoT device. Thus, wireless traffic between the access point and controlled IoT devices is reduced.

A process for tagging incident data captured by non-public-safety agency controlled cameras. In operation, an electronic computing device detects an occurrence of an incident and obtains an incident identifier associated with the incident. The electronic computing device determines that a non-public-safety agency controlled camera is available for capturing incident data corresponding to the incident. The electronic computing device then controls a public-safety agency controlled internet-of-things (IoT) infrastructure deployed at an incident location to emit a signal including one of an audible signal, visible signal, or a combination of audible and visible signals to enable the non-public-safety agency controlled camera to tag incident data using the emitted signal. The electronic computing device links a unique tag representing the emitted signal to the incident identifier. The electronic computing device then searches the incident data captured by the non-public-safety agency controlled camera using the unique tag representing the emitted signal.

A process for tagging incident data captured by non-public-safety agency controlled cameras. In operation, an electronic computing device detects an occurrence of an incident and obtains an incident identifier associated with the incident. The electronic computing device determines that a non-public-safety agency controlled camera is available for capturing incident data corresponding to the incident. The electronic computing device then controls a public-safety agency controlled internet-of-things (IoT) infrastructure deployed at an incident location to emit a signal including one of an audible signal, visible signal, or a combination of audible and visible signals to enable the non-public-safety agency controlled camera to tag incident data using the emitted signal. The electronic computing device links a unique tag representing the emitted signal to the incident identifier. The electronic computing device then searches the incident data captured by the non-public-safety agency controlled camera using the unique tag representing the emitted signal.

An autonomous futures contract orchestration platform includes processors programmed with non-transitory computer-readable instructions to collectively execute receiving, from a data source, an indication associated with a product that relates to an entity that at least one of purchases or sells the product. The instructions include predicting a baseline cost of at least one of purchasing or selling the product at a future point in time based on the indication. The instructions include retrieving a futures cost, at a current point in time, of a futures contract for the product. The instructions include generating a risk threshold based on a specified risk tolerance of the entity indicating a difference between the baseline cost and the futures cost. The instructions include executing a smart contract for the futures contract based on the baseline cost, the futures cost, and the risk threshold.

Systems and methods described herein provide for generating behavior profiles for a plurality of end devices associated with an end user; receiving, from the end user, a request for an over-the-air (OTA) update for the plurality of end devices; generating an OTA update campaign plan based on the behavior profiles responsive to the request; providing the OTA update campaign plan to the end user; receiving, from the end user, a modified request for the OTA update; and generating an OTA update campaign schedule responsive to the modified request.

Systems and methods described herein provide for generating behavior profiles for a plurality of end devices associated with an end user; receiving, from the end user, a request for an over-the-air (OTA) update for the plurality of end devices; generating an OTA update campaign plan based on the behavior profiles responsive to the request; providing the OTA update campaign plan to the end user; receiving, from the end user, a modified request for the OTA update; and generating an OTA update campaign schedule responsive to the modified request.

An architecture for dynamically selecting and routing traffic from Internet of things (IoT) devices and sensors to the nearest or most proximate IoT hub device. A method can comprise receiving a connection request from a user device; retrieving address data representing a network device of a group of network devices; and sending the address data to the user device.

An architecture for dynamically selecting and routing traffic from Internet of things (IoT) devices and sensors to the nearest or most proximate IoT hub device. A method can comprise receiving a connection request from a user device; retrieving address data representing a network device of a group of network devices; and sending the address data to the user device.