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.

Provided is a method for delegating a device ownership based on a blockchain. The blockchain-based device ownership delegating method may include: transferring a device ownership request of a first user to a blockchain; providing a smart contract based ownership request event generated by the blockchain to a second user; transferring a device ownership change request of the second user to the blockchain; providing a smart contract based ownership change event generated by the blockchain to a device decentralized application (DApp); changing a device ownership; and recording a change history of the device ownership in the blockchain.

There are provided systems and methods for identifying transaction processing retry attempts based on machine learning models for transaction success. A service provider, such as an electronic transaction processor for digital transactions, may detect a failure of data processing for a transaction when processed with a separate data processing system, such as a card processing system for payment cards. In order to minimize cost and wasted resources for retrying transactions that are likely to further fail, a machine learning model may be implements that generates a predictive score for whether a failed transaction is likely to be successful if retried with the data processing system. The predictive score may be used to predict a probability of success, which may then be used with a cost function to determine a cost to retry the failed transaction and a cost to stop a retry of the failed transaction.

A method, a computer device, and a non-transitory computer-readable recording medium for preventing an erroneous deposit of cryptocurrency are provided. A method of preventing an erroneous deposit of cryptocurrency includes providing an interface for inputting transaction request information including a target coin and a wallet address; verifying at least one of the target coin and the wallet address using a trading environment of a target exchange corresponding to the transaction request information; and processing a transaction according to the transaction request information based on a verification result.

Systems, methods, and apparatus are provided for secure transaction execution at an assistive device. Assistive devices include technologies that support people with disabilities in daily tasks, such as mobility aids or vision aids. An assistive device may be preregistered with a financial institution. The financial institution may generate a first hash incorporating a customer identifier and a device identifier. At the time of transaction, an active session may be initiated with the assistive device at a POS terminal, self-service kiosk, or financial institution. The assistive device may use short range wireless communication such as NFC or UWB to transmit the customer identifier and device identifier. A second hash may be generated and compared to the first hash to authenticate the device. Following authentication, the transaction may be completed at the assistive device via user inputs to the assistive device.

A system, method, and apparatus for decentralized e-commerce and related transactions are provided. A computing system is configured to generate buyer and seller digital wallets on a distributed ledger, receive listings for products sales from a seller electronic device, display listings for sale, and receive requests to purchase any of the listings from a buyer electronic device. A computing system is configured to chain a new block of data to a previous block of related data each time an inquiry, transaction, or other interaction with data contained with a digital wallet, such as currency or product or service listings, are received. The computing system is further operative to authenticate, display, and even translate communications transmitted and received by and between buyer/seller user electronic devices.

A computer-implemented method, non-transitory, computer-readable medium, and computer-implemented system are provided for deploying a smart contract in a blockchain network. The computer-implemented method includes: receiving, by a blockchain node in a blockchain network, a transaction for creating a smart contract, wherein the transaction comprises machine codes of the smart contract, and the machine codes of the smart contract are obtained by a compilation service provider performing Ahead of Time (AoT) compilation on bytecodes of the smart contract; determining, by the blockchain node, that the machine codes of the smart contract are obtained by a trusted compilation service provider; and in response to determining that the machine codes of the smart contract are obtained by the trusted compilation service provider, completing, by the blockchain node, a deployment of the smart contract.

An integration system for a system of platforms includes an orchestration platform, a blockchain transactional platform, a digital transactional platform, a merchant system, a user trust platform, and one or more user devices connected to each other and a distributed ledger and/or a secondary mesh network via one or more networks. The blockchain transactional platform performs accesses and performs actions on the distributed ledger and/or the secondary mesh network. The digital transactional platform maintains transactional data indicative of an amount of first-domain value correlated to a user. The blockchain transactional platform maintains blockchain transactional data indicative of an amount of second-domain value correlated to the user. The orchestration platform manages data exchange, synthesis, fusion, analysis, and transformation between the components of the system, including for the orchestration of transactions.

A non-fungible token (NFT) representing a computer game asset can be purchased for a limited time by a gamer or a spectator and in some cases extended up to a maximum period, after which time the NFT is placed back on the market.

The present disclosure presents blockchain-based cyber security management systems and related methods. One such method comprises obtaining cyber intelligence input data from a cyber defender computing device, wherein the cyber defender computing device manages network security of a network, wherein the cyber intelligence input data identifies a cyber attacker or a victim of a cyber attack on the network; executing one or more Cyber Security Management (CSM) functions with the cyber intelligence input data received from the cyber defender computing device and cyber data stored in the blockchain ledger, wherein the cyber data stored in the blockchain ledger provides details on a cyber attack on a network that is managed by another cyber defender computing device; and outputting an alert to the cyber defender computing device with a potential cyber attacker or potential victim of the cyber attack on the network managed by the cyber defender computing device.