A vehicle control system includes a controller that is configured to include a memory, a verification module, and a software control module. The memory includes a software version repository to store a public address and one or more software hashes associated with the public address. The verification module is configured to verify a software upload request that a recommended software program to be uploaded. The verification module is configured to determine whether a contingent software hash that is indicative of the recommended software program matches a current software hash. The software control module is configured to acquire the recommended software program in response to the contingent software hash matching the current software hash.

A system, method, and computer program product for authenticating a user for a transaction; generate an electronic wallet key pair including an electronic wallet public key and a corresponding electronic wallet secret key, the electronic wallet key pair associated with an electronic wallet transaction processing system; receive a payment gateway public key corresponding to a payment gateway secret key, the payment gateway public key and the payment gateway secret key associated with a payment gateway system; generate a public re-encryption key based on the payment gateway public key; communicate, to the payment gateway system, the public re-encryption key; receive or determine encrypted transaction data associated with a transaction, the encrypted transaction data including an account identifier encrypted with the electronic wallet public key; re-encrypt the encrypted transaction data with the public re-encryption key; and communicate, to the payment gateway system, the re-encrypted transaction data.

Autonomous devices and systems, methods, and program products for authorizing and performing autonomous devices transactions are disclosed. The device can generate and transmit to the transaction computer system a first signed electronic transaction request comprising first transaction data comprising a sending account identifier associated with the autonomous device, a destination account identifier, a transaction amount, and a timestamp. The device can digitally sign the transaction request using a private key of an asymmetric key pair.

Systems and methods are provided for use in tokenizing credentials for users. One exemplary computer-implemented method includes receiving a tokenization request including a first biometric template for a user, deriving a zero-knowledge proof (ZKP) parameter based on the first biometric template and an identifier associated with the user, and storing the ZKP parameter in a ledger data structure. The method then includes receiving an authentication request for a transaction by the user at a merchant, where the authentication request includes the identifier, generating a subsequent ZKP based on a second biometric template associated with the user and the identifier included in the authentication request, checking the subsequent ZKP against the ZKP parameter stored in the ledger data structure, and transmitting a verified identifier for the user to an authorization network when the check of the subsequent ZKP is successful.

A system and method for utilizing the processing power of computing devices such as smart devices are provided. The system includes one or more distributed smart devices and a management server that communicates with the smart devices in order to determine whether they are idle and whether viable compute tasks are present that can be performed on the smart devices based on the smart device's status, configuration, utility and network parameters, and availability. Some tasks may be performed in low power mode to save energy.

A system and method for utilizing the processing power of computing devices such as smart devices are provided. The system includes one or more distributed smart devices and a management server that communicates with the smart devices in order to determine whether they are idle and whether viable compute tasks are present that can be performed on the smart devices based on the smart device's status, configuration, utility and network parameters, and availability. Some tasks may be performed in low power mode to save energy.

The disclosed computer-implemented method for managing a money market of digital assets may include collecting a pool of assets from a plurality of users and maintaining a ledger of asset ownership for the assets and the plurality of users. The method may include calculating, in response to initiation of a transaction, a transaction rate based on the ledger and applying the transaction rate to perform the transaction. The method may also include adding a transaction record for the transaction to the ledger. Various other methods, systems, and computer-readable media are also disclosed.

Systems, computer program products, and methods are described herein for machine learning based system for authorization of autonomous resource transfers between distributed IoT components. The present invention is configured to receive, from a first autonomous IoT device, a transaction authorization request to execute a transaction with a second autonomous IoT device; receive information associated with the first autonomous IoT device, information associated with the second autonomous IoT device, and information associated with the transaction; initiate an execution of one or more machine learning algorithms; determine that the first autonomous IoT device is authorized to execute the transaction with the second autonomous IoT device; transmit a transaction authorization to the first autonomous IoT device to execute the transaction; and receive, from the first autonomous IoT device, an indication that the transaction has been executed.

A distributed computer architecture with a settlement mechanism to enable traceability of credit tokenization, disbursement, and repayment. A distributed ledger platform tokenizes credit for a project by recording one or more cryptographic tokens representing the credit on a ledger. A centralized business logic platform receives and stores account information for plural participants and associates a subset of the participants as designated participants for a project. A user interface allows the designated participants to transfer the cryptographic tokens on the distributed ledger platform to other designated participants in a peer-to-peer multi-level manner. For example, a grant can be distributed amongst many parties by distribution of the tokens. After receipt of the tokens, the various participants can request sign-off and redemption of the tokens to receive value, such as fiat currency for the tokens. Each transaction can be tracked on the ledger to provide traceability of grant funds.

A method for use in a hybrid network ecosystem comprising an enterprise network and a reconciliation network is presented. The method comprises generating a private key for a user or device in the enterprise network or the reconciliation network and associating identification information associated with the private key or associated with a custodian of the private key, wherein the identification information enables initiation or execution of one or more distributed ledger-based computing operations in the enterprise network or the reconciliation network. The method also comprises generating, by the at least one first computing node in the enterprise network or the reconciliation network or at least one second computing node in the enterprise network or the reconciliation network, an issuance digital facilitator, wherein parametric information associated with the issuance digital facilitator is applied to the one or more distributed ledger-based computing operations in the enterprise network or the reconciliation network.