Resumen de: US2024321416A1
Healthcare transaction validation systems and methods are presented. Healthcare transactions associated with a stakeholder are compiled into a chain of healthcare transaction blocks. The chain can be considered a chronicle of person's healthcare path through life. When a transaction is conducted, the corresponding healthcare parameters (e.g., inputs, outputs, clinical evidence, outcomes, etc.) are sent to one or more validation devices. The devices establish a validity of the transaction and generate a new block via a proof-of-work principle. Once the new block has been calculated it can be appended to the stakeholder's health care blockchain.
Resumen de: US2024320624A1
Disclosed is a secure and distributed system for storing and consuming software bill of materials (SBOM). The system allows software publishers to create a software component and generate an SBOM that describes its dependencies. A web API then securely stores the SBOM on a distributed file system and publishes a hash of the SBOM to a public blockchain. When the software component is updated, a new SBOM is generated, and a signed hash of the new SBOM is stored in a new node on the blockchain. This preserves the history and auditability of the application's SBOMs. Third parties may query the web API to obtain the SBOM while ensuring the integrity and provenance of the information.
Resumen de: US2024323020A1
A method includes a computing device of a computing infrastructure identifying a non-fungible token (NFT) associated with a set of learning objects and establishing, with a user computing device, agreed licensing terms utilizing licensee information and based on available licensing terms of a smart contract for the set of learning objects. The method further includes generating a license smart contract for the set of learning objects to include the licensee information and the agreed licensing terms and causing generation of a license block affiliated with the NFT via a blockchain of the object distributed ledger.
Resumen de: US2024323012A1
Systems, methods, apparatuses, and computer-readable media for management of physical object authentication are described. For example, a system may include a physical object and an authentication device coupled to the physical object. The authentication device may include an antenna, a processor, a secure enclave comprising a private key uniquely associated with the physical object via a public key stored in a blockchain; and memory comprising instructions that, when executed by the processor, cause the processor to receive signals comprising a challenge element via the antenna, identify the challenge element as corresponding to a verification request, sign the challenge element with the private key to produce a verification token for authentication of the physical object, transmit signals comprising the verification token via the antennae, wherein the verification token enables authentication of the physical object via the public key stored in the blockchain. Other embodiments are described.
Resumen de: US2024323030A1
The present disclosure provides weight based slotted synchronous blockchain client network. Conventional blockchain consensus protocols heavily rely on synchrony assumptions of the underlying network. However, little attention has so far been given to similar assumptions on blockchain client networks. Such assumptions would be useful in deriving bounds on confirmation times of transactions through the blockchain protocol. To overcome the challenges of the conventional approaches, the present disclosure provides a weight based slotted synchronous blockchain client network. The blockchain client network of the present disclosure is slotted, wherein at most one transaction is submitted in each slot by one of the client nodes. Further, there exists a notion of synchrony in the peering between the client nodes and the blockchain nodes. In an embodiment, for each submitted transaction, there is an upper-bound on the number of slots on the reception of the said transaction at an arbitrary blockchain node.
Resumen de: US2024323038A1
A method of uploading and managing a single data set larger than a maximum block size on a blockchain includes making a request to upload any data to the blockchain through a blockchain service, determining whether the data requested to be uploaded is larger than the maximum block size, defining any abstract storage space as one blockchain when the data requested to be uploaded is large-scale data larger than the maximum block size, dividing the large-scale data into a plurality of separate data sets and storing the plurality of separate data sets separately in the abstract storage space, making a request to download the large-scale data stored in a divided manner in the abstract storage space through the blockchain service, downloading the plurality of separate data sets separately stored in the abstract storage space and restoring the large-scale data, and providing the restored large-scale data to a user terminal.
Resumen de: US2024323037A1
Provided in embodiments of the present disclosure are a blockchain-based method and system for SDP access control. An SDP connection accepting host transmits information of the SDP connection accepting host and a supported connection policy to a blockchain system node, performs blockchain node verification and consensus, and records in a blockchain ledger; an SDP connection initiating host submits an identity authentication request to the blockchain system node; the blockchain system node verifies information of the identity authentication request, and searches for a list of SDP connection accepting hosts accessible to the SDP connection initiating host, and returns to the SDP connection initiating host; the SDP connection initiating host initiates a connection request, the connection request comprising a signature of the blockchain system node with respect to the SDP connection accepting hosts; the SDP connection accepting host verifies the connection request initiated by the SDP connection initiating host and provides an access service upon successful verification. The embodiments of the present disclosure prevent an SDP controller from coming under a DDoS attack and prevent the SDP controller from implementing an incorrect authorization.
Resumen de: US2024320636A1
A network may receive a cheque script with a signature from a drawer and generate an unspent transaction output (UTXO) satisfied by the script and the signature from the drawer. The Network may also transfer crypto assets of the drawer to the UTXO and execute the cheque script to claim a portion of the crypto assets for a payee.
Resumen de: US2024320634A1
An electronic consignment note management system for marine plastic debris based on blockchain technology, which belongs to the field of marine plastic debris management, and comprises a cloud management platform deployed at the central node of the blockchain and service sites deployed at other nodes, wherein the cloud management platform is used for supervising the handover process of marine debris among service sites, and verifying the electronic identity of a service site that issued an marine debris transshipment order request by a blacklist and whitelist mechanism, wherein for an electronic identity beyond the validity period, a credit evaluation model is used to update the status and validity period of the electronic identity, and the marine debris transshipment order request issued by the service site in a blacklist is rejected.
Resumen de: US2024320653A1
Various aspects of the subject technology relate to systems, methods, and machine-readable media for extending and customizing a blockchain wallet. Various aspects may include providing, to users of a blockchain platform, a blockchain wallet configured to provide standard services to the users, and, providing, to the users, a sandbox environment that only communicates with the blockchain wallet through a secure message gateway. Aspects may also include storing, in the sandbox environment, a plugin configured to provide add-on services, and executing the plugin within the sandbox environment to enable the plugin to provide, as an extension of the blockchain wallet through the secure message gateway, the add-on services to the plurality of users.
Resumen de: US2024320746A1
A non-transitory computer-readable recording medium stores an NFT uniqueness ensuring program causing a computer to perform a process of: storing information associated with a non-fungible token (NFT) already issued on a blockchain as existing NFT associated data in a memory; performing a first determination process of comparing data content of NFT associated data of a new NFT to be issued with data content of the existing NFT associated data at a time of issuance of the new NFT; and determining presence or absence of duplication between the NFT associated data of the new NFT and the existing NFT associated data.
Resumen de: US2024320739A1
The present invention discloses a system and method of trading derivatives of securities purchased on a blockchain within the traditional broker-dealer ecosystem. In these systems and methods, securities purchased on a blockchain are converted into derivatives of securities that can be traded within the traditional broker-dealer ecosystem by a user using their brokerage account. Users participate on a digital trading platform within the traditional broker-dealer ecosystem, where they take an action that comprises the placement of at least one of an order, bid or offer of the derivatives of securities, which derives their value, at least in part, on the underlying security asset purchased on the blockchain.
Resumen de: US2024320753A1
Methods and systems for building, utilizing, and/or maintaining an autonomous vehicle-related event distributed ledger or blockchain are provided. One or more processors may receive indications of autonomous vehicle events. The autonomous vehicle events may include information relating to technology usage and/or operational events. The autonomous vehicle events may be compiled into a log of recorded autonomous vehicle events. Based upon the autonomous vehicle events, an action to implement bay be determined. Additionally, the log may be distributed to a public or private network of distributed nodes. As a result, the distributed nodes may maintain an up-to-date record of the shared ledger of autonomous vehicle events.
Resumen de: US2024320735A1
A computing system for facilitating transactions includes a plurality of computing nodes participating in a distributed ledger on a blockchain that stores transaction blocks and smart contracts. One of the smart contracts is a lending pool smart contract. Each computing node is configured to store and maintain a respective copy of the distributed ledger. A transaction processor is connected to computing nodes and participates in the distributed ledger and transacts between a buyer self-custodial wallet on a buyer computing device and a supplier self-custodial wallet on a supplier computing device. The supplier self-custodial wallet generates and uploads invoices to the transaction processor, which mints the invoices as non-fungible tokens on the blockchain. The buyer self-custodial wallet pays the invoices to buy items via a loan provided by the lending pool smart contract.
Resumen de: US2024320683A1
A method of validating transactions for recordal in a blockchain comprises receiving one or more transactions at a node of a blockchain network. For each received transaction a protocol for validating the transaction is applied. The protocol is configured to allow a termination opcode to be included in an output script of the transaction. The termination opcode is configured to, upon being executed by the node, a) terminate execution of the output script, and b) not to invalidate the transaction based only on the inclusion of the termination opcode in the output script. The protocol is also configured to disallow any instance of the termination opcode from being included in an input script of the transaction, said disallowing comprising the node at least invalidating the transaction if any instance of the termination opcode is included in the input script.
Resumen de: US2024320681A1
The present disclosure relates to a computer implemented method for verifying a blockchain stored representation of a dataset. The method comprises the steps of obtaining a dataset reference to an on-chain dataset, the on-chain dataset being stored on the blockchain and comprising data carrying transactions, wherein each data carrying transaction comprises data indicative of an event stored in an off-chain dataset. The method includes traversing the on-chain dataset and for each data carrying transaction in the on-chain dataset: determining that the data indicative of an event in the off-chain data set is associated with an event in the off-chain dataset, and verifying that the on-chain dataset and the off-chain dataset correspond to each other.
Resumen de: US2024320671A1
Described herein are various embodiments of methods and systems for distributing temporary control of an asset. For example, a method can include receiving an indication of an execution of a transfer of temporary control between a granting entity and a receiving entity of a unit of an asset comprising a plurality of units. Transaction data comprising a duration of the temporary control of the unit can be received and recorded in a distributed ledger of a blockchain network. Logic and rules corresponding to conditions of transfer of the temporary control of the unit of the asset can be identified. The method can include receiving a granting entity authentication key and determining whether the transaction data meet the logic and the rules of the conditions of transfer.
Resumen de: US2024320677A1
A system and method to investigate threat actors in cryptocurrency transactions is provided. The system includes a receiving module to acquire a plurality of blockchain transactions, personally identifiable information from a plurality of data sources and data of one or more known threat actors with corresponding wallet addresses. The system includes a correlation engine to map the blockchain transactions with the personally identifiable information. Further, the system includes a vision module to display one or more graphical representations depicting the plurality of blockchain transactions and the one or more known threat actors with the corresponding walled addresses. Furthermore, the system includes a record module to deliver a plurality of user stories and check for a change in at least one of the personally identifiable information and blockchain transactions thereby identifying a potential threat actor.
Resumen de: US2024320664A1
A system includes a memory and a processor configured to execute computer instructions stored in the memory that when executed cause the system to perform operations. The operations include receiving transaction data associated with a transaction via a transaction component. The operations include incorporating at least a portion of the transaction data into a security process associated with challenge-response authentication of a data block for the transaction data. The data block includes cryptographic hash data for another data block in a blockchain associated with the data block. The operations include validating the data block associated with the blockchain based on the security process.
Resumen de: US2024320676A1
Systems and methods for securing a cryptocurrency asset transfer via a cross-blockchain bridge. Methods may include detecting a request to transfer the asset between blockchains and extracting a set of features such as smart contract bytecode from event logs associated with the blockchains and a blockchain bridge. Methods may include using a photonic quantum processor to use i) a long short-term neural network and ii) a neural network to generate machine learning models based on the extracted features to output i) a security risk threshold and ii) a security risk percentage, respectively. When the security risk percentage is below the security risk threshold, the method may permit the execution of a smart contract to allow transfer of the cryptocurrency asset over the blockchain bridge. When the security risk percentage is above the security risk threshold, the method may involve blocking an execution of a smart contract on the blockchain bridge.
Resumen de: US2024320658A1
An enhanced federated custodian system is described. One embodiment is directed to a computer system executing instructions to: receive, from one or more members of a federated blockchain on a network of computing devices, an approval for a transaction associated with an authentication capsule; generate, via a first trusted execution environment, a first machine readable code in response to receiving the approval for the transaction; transmit to a cold interaction system, the first machine readable code; and the cold interaction system comprising one or more processors and one or more memories, the one or more memories comprising instructions executable by the one or more processors to: receive the first machine readable code comprising the encrypted information and the approval; decrypt the encrypted information for the transaction and the approval; and generate a private key that corresponds to a public key for the transaction.
Resumen de: US2024320668A1
A transaction processing method includes, when receiving a transaction request sent by a blockchain, sending a corresponding transaction pre-processing request to an off-chain payment system, so that the off-chain payment system performs a corresponding transaction pre-processing operation, to obtain a transaction pre-processing outcome; receiving the transaction pre-processing outcome sent by the off-chain payment system, and sending the transaction pre-processing outcome to the blockchain; and when it is detected that the blockchain has generated an on-chain transaction outcome corresponding to the transaction request, sending a transaction instruction note to the off-chain payment system, where the transaction instruction note is used to instruct the off-chain payment system to perform a corresponding off-chain processing operation to obtain an off-chain transaction outcome corresponding to the transaction request. The on-chain transaction outcome is obtained by the blockchain that performs an on-chain processing operation corresponding to the transaction request based on the transaction pre-processing outcome.
Resumen de: US2024320667A1
A computer-implemented method of constructing a candidate block of a blockchain, wherein the method comprises: obtaining an ordered sequence of blockchain transactions; obtaining a transaction representation by hashing a data object, wherein the data object comprises the ordered sequence of blockchain transactions; and constructing the candidate block, wherein the candidate block comprises the transaction representation.
Resumen de: US2024320614A1
A system, platform, and methods for incentivizing adequacy communication between buyers and suppliers, track supply chain events via electromagnetic signature detection and sensor feedback, secure recordation of supply chain events via blockchain technology, and determine and diagnose supply chain failures using neural networks.
Nº publicación: US2024320663A1 26/09/2024
Solicitante:
RADIAN GROUP INC [US]
Radian Group Inc
Resumen de: US2024320663A1
A blockchain system secures transaction workflows. The blockchain system includes a first node associated with a first party to a transaction and a second node associated with a second party to the transaction. The first node receives transaction data for the transaction. The first node generates a block for the transaction. The block includes the transaction data, a hash generated using the transaction data, and a hash of a prior block in a node data store of the first node. The first node sends the block to the second node and receives an indication that the second node has verified the block. The first node stores the verified block in the node data store. The first node may enable execution of the transaction after the block has been verified by all nodes involved in the transaction.