Transaction-enabled systems and methods for royalty apportionment and stacking are disclosed. An example system may include a plurality of royalty generating elements (a royalty stack) each related to a corresponding one or more of a plurality of intellectual property (IP) assets (an aggregate stack of IP). The system may further include a royalty apportionment wrapper to interpret IP licensing terms and apportion royalties to a plurality of owning entities corresponding to the aggregate stack of IP in response to the IP licensing terms and a smart contract wrapper. The smart contract wrapper is configured to access a distributed ledger, interpret an IP description value and IP addition request, to add an IP asset to the aggregate stack of IP, and to adjust the royalty stack.

The present disclosure describes transaction-enabling systems and methods. A system can include a facility including a core task including a customer relevant output and a controller. The controller may include a facility description circuit to interpret a plurality of historical facility parameter values and corresponding facility outcome values and a facility prediction circuit to operate an adaptive learning system, wherein the adaptive learning system is configured to train a facility production predictor in response to the historical facility parameter values and the corresponding outcome values. The facility description circuit also interprets a plurality of present state facility parameter values, wherein the trained facility production predictor determines a customer contact indicator in response to the plurality of present state facility parameter values and a customer notification circuit provides a notification to a customer in response.

The present disclosure describes transaction-enabling systems and methods. A system can include a controller and a fleet of machines, each having at least one of a compute task requirement, a networking task requirement, and an energy consumption task requirement. The controller may include a resource requirement circuit to determine an amount of a resource for each of the machines to service the task requirement for each machine, a forward resource market circuit to access a forward resource market, and a resource distribution circuit to execute an aggregated transaction of the resource on the forward resource market.

A method, performable by a data broker, of securely transferring data without passwords may include registering an entity using a FIDO authentication process. The method may include associating, based on a receipt of first access token generated by a data provider using a first OIDC authorization process, the data provider with the entity. The method may include generating a second access token, using a second OIDC authorization process, associated with a data recipient. The method may include receiving a request to transfer requested data from the data provider to the data recipient. The request may include the second access token. The method may include transmitting the first long-lived token to the data provider for receiving the requested data. The method may include transmitting the requested data to the data recipient.

In methods and systems for communicating medical image data that were generated for a patient between computing entities of a hospital network, a cloud-based data store and a patient's mobile device, a QR code serves to code a data package containing a user identification and a public key, which has been generated on the patient's mobile device, to a hospital server, in order to process personal data so that the personal data may be downloaded from the data store directly to the patient's mobile device in an encrypted form, and may be visualized there in clear text by means of applying a private key stored locally on the patient's mobile device. The method and system are web based and need no special requirements on the part of the patient's mobile device.

An apparatus for charging fees to a renter of equipment based upon wear to an item of equipment is disclosed herein. The apparatus can include a communications device proximal to the equipment that charges the renter, via a connected blockchain network, based off of the amount of vibration, pressure, flow rate, or temperature that the item of equipment is subjected to.

Disclosed herein are systems and methods for generating and delivering extended reality content, such as augmented reality, mixed reality, and virtual reality, to physical, electronic, and audio media using deep learning algorithms, dynamic differential programming, and application programming interfaces. Such media can include, for example, printed books, electronic books, and audiobooks that can be prompted from a physical electronic device for immersive recyclable digital media utilization.

This application relates to re-provisioning of credentials, such as payment credentials, on a second electronic device from one or more credentials previously provisioned on a first electronic device. The one or more previously provisioned credentials may be stored on an external storage system and may be retrieved by the second electronic device for re-provisioning. The second electronic device may re-provision an instance of the one or more retrieved credentials for use in electronic transactions on the second electronic device using a secure element linked to the second electronic device and information that is unique to the one or more credentials being re-provisioned to the second electronic device.

Method for online advertising auction on a peer-to-peer network includes: deploying a smart contract to publish a need from a consumer; receiving encrypted ad bids by the smart contract; storing the received ad bids in a hash function; reducing a number of ads that can be displayed by the consumer; transmitting the ad price to the consumer via the peer-to-peer computer network, when the hashed verification code is received from the consumer verifying that the consumer has viewed the ad content within an ad-viewing period of time; transmitting a difference between the advance payment and the ad price to the advertiser, by the smart contract via the peer-to-peer network; and ending the online advertising auction.

An approach is provided for providing a privacy-preserving yet targeted delivery of location-based content. The approach involves, for example, initiating a first transmission of content consumer public key(s) associated with content consumer(s) to a content provider. The approach also involves, in response to the transmission, receiving encrypted content encrypted with the content consumer public key(s). The encrypted content is cryptographically signed with a content provider private key associated with the content provider. The approach further involves initiating a second transmission of the encrypted content to a consumer device. A content provider public key for decrypting the encrypted content is made available based on (1) the consumer device scanning the content provider public key at a location designated by the content provider, or (2) detecting that the consumer device is located within a threshold proximity of the location.