According to one or more aspects of the present disclosure, operations may include obtaining a token transaction request of a token transaction that includes a transfer of assignment of a crypto-token of a crypto-medium from a first entity to a second entity. The token transaction request may be a request to initiate the token transaction. The operations may further include generating a transaction signature in response to obtaining the token transaction request. The operations may include validating the token transaction using the digital signature and blocks of a private blockchain that includes a blockchain record of all transactions of the crypto-medium. In these or other embodiments, the operations may include generating a new block for the private blockchain, the new block including an update to the blockchain record that indicates the token transaction details. The generating of the new block may be triggered by the token transaction being validated.

An exemplary method comprises: generating, by at least one first computing node in the enterprise network or the reconciliation network, a first digital facilitator, wherein the first digital facilitator provides one or more parameters for accessing or distributing data on a distributed ledger in the enterprise network, wherein a private key is used for performing a computing operation, based on the data, in the enterprise network; 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; and transmitting, via the reconciliation network, reconciliation data associated with the one or more distribution ledger-based computing operations, wherein the reconciliation data is extracted based on one or parameters for accessing or distributing the data in the enterprise network or the reconciliation network.

A method for use in a hybrid network ecosystem comprising an enterprise network and a reconciliation network is presented. The method comprises generating, by at least one first computing node in the enterprise network or the reconciliation network, a first digital facilitator, wherein the first digital facilitator provides one or more parameters for accessing or distributing data on a distributed ledger in the enterprise network, and wherein a private key is used for performing a computing operation, based on the data, in the enterprise 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, a second digital facilitator, wherein the second digital facilitator provides the one or more parameters for accessing or distributing the data in the reconciliation network.

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.

A method for use in a hybrid network ecosystem comprising an enterprise network and a reconciliation network, the method comprising generating, by at least one first computing node in the enterprise network or the reconciliation network, a first digital facilitator, wherein the first digital facilitator enables a first device to use a private key to access data associated with a distributed ledger operation. The method also comprises transmitting, via the reconciliation network, the data from the first computing device to a second computing device, wherein the first computing device and the second computing device are connected via the reconciliation network.

A computer implemented method for creating and matching implied inter-commodity spread orders where a spread ratio between legs of the inter-commodity spread is endogenous. The implied spread price is determined with a multi-step calculation including determining the price ratio between the underlying products and balancing the quantity of contracts required of each leg product.

A method of a reporting node including: storing a distributed blockchain ledger including a plurality of data records associated with respective processed transactions; receiving a first data packet corresponding to a first transaction, the first data packet including first customer identification data, a first transaction amount and a first transaction date and time; posting the first transaction to the ledger; receiving a second data packet corresponding to a second transaction, the second data packet including second customer identification data, a second transaction amount, and a second transaction date and time; posting the second transaction to the ledger; and responsive to determining that the first and second customer identification data correspond to a same customer and that the first and second transaction date and times are within a predetermined period of time, reporting the first and second transactions to a supervisor server.

A blockchain network for tracking device as a service operation is disclosed. The blockchain network includes a plurality of peer nodes and each peer nodes further include a processor and a memory includes a smart contract that includes processor instructions that cause the processor to verify digital identity of users accessing the blockchain network and validate data shared by each user accessing the blockchain network. Processor instructions further cause the processor to automatically process an order associated with the request initiated by the initiator node for the device as a service and create a unique transaction ID associated with the order. Processor instructions cause the processor to update an order status associated with the order based on the unique ID, reconciliate fulfillment claims with an invoice associated with the order, and process payments associated with the order in response to the reconciliating.

A computer-implemented method includes: determining assets held by a remitter, the assets to be spent in a remittance transaction between the remitter and one or more payees, in which each asset corresponds to a respective asset identifier, a respective asset amount, and a respective asset commitment value; determining a remitter pseudo public key and a remitter pseudo private key; determining a cover party pseudo public key, in which the cover party pseudo public key is obtained based on asset commitment values of assets held by the cover party; and generating a linkable ring signature for the remittance transaction.

Electronic network include multiple users. Each user operates Wallet software application on his/her endpoint devices (special purpose, computer or smartphone). Each Wallet integrates with Cloud-based Identification-as-a-Service(s) (IDaaS) In context of present inventionIDaaS provides real-time, multi-factor, malware-resilient, context-sensitive Strong Identification-as-a-Service of the user and enables Cryptographic Keys Management of the Wallet. Each Wallet provides various Cryptographic functionalities. Each Wallet may be connected with multiple centralized Marketplace software applications, thus allowing these Cryptographic functionalities to interact with specific Marketplace software application. Each Wallet may be connected with multiple decentralized peer-to-peer software applications, thus allowing these Cryptographic functionalities to interact with specific peer-to-peer software application. These software applications may include Information Technology, Financial, Manufacturing, Retail, Insurance, Government, Healthcare and other verticals of Global Economy. The present invention prevents Bad Actors from using or attacking these applications. The present invention also enables Identification of participants of transactions recorded on Blockchain.