Aspects of the subject disclosure may include, for example, a vehicle system including vehicle sensors that collect vehicle data corresponding to a condition in proximity to a vehicle of a user and a geographical location associated with the condition. A processor is configured to perform operations including generating a vehicle report based on the vehicle data; generating in accordance with a cryptocurrency protocol, a digital currency record that is unique to the vehicle report, wherein the digital currency record indicates a digital currency value associated with the vehicle report. The digital currency record is stored in a memory and communicated in conjunction with a purchase of goods or services by the user, wherein the digital currency value is credited to a purchase price of the goods or services. Other embodiments are disclosed.

A method includes generating a media object; associating the media object with a trigger action; monitoring user activity of a user to detect an occurrence of the trigger action by the user; in response to detection of the occurrence of the trigger action by the user, modifying the media object to generate a modified media object; minting the modified media object as a non-fungible token (NFT) on a blockchain network; associating a dynamic value with the NFT, the dynamic value configured to change as a function of at least time according to an algorithm; providing the NFT to the user; in response to the user initiating redemption of the NFT in connection with an electronic payment transaction having a transaction amount, determining the dynamic value of the NFT based on the algorithm; and processing the electronic payment transaction by applying the dynamic value to the transaction amount.

A computer may generate a temporary digital wallet containing one or more anonymous payment tokens and transmit the temporary digital wallet to a user device of a user. When the user provides an anonymous payment token of the one or more anonymous payment tokens to a point of sale (POS) system, the computer may receive from the POS system or other systems connected thereto, a request to authorize payment for the anonymous payment token. The request to authorize payment may also include an amount to be paid by the user to the POS system. Using the anonymous payment token, the computer may retrieve a user account and determine that the user account has sufficient funds for the transaction. Based upon the determination that the user account has sufficient funds, the computer may transmit an authorization confirmation back to the POS system or any other system that the authorization request originated from.

In some embodiments, a computer-implemented method of dynamically updating a rendering of a dynamic item is provided. A computing system receives a request to render a dynamic item. The computing system determines a difference between an initiating condition associated with a non-fungible token (NFT) for the dynamic item and a present state. The computing system generates a rendering of the dynamic item based on the difference between the initiating condition and the present state. The computing system causes the rendering to be presented.

A method includes obtaining, by a digital asset-based interaction computing entity, pre-authorization hold first computing entity information and pre-authorization hold second computing entity information regarding initiation of a pre-authorization hold digital asset-based interaction between a first and second computing entity. The pre-authorization hold first computing entity information includes an indication of a digital asset the first computing entity intends to use. The method further includes obtaining external data pertaining to the digital asset, analyzing one or more of: the external data, a pre-authorization hold time period, and a pre-authorization hold amount to determine a pre-authorization hold procedure. The method further includes locking an amount of system digital asset and an amount of the digital asset in accordance with the pre-authorization hold procedure and sending a confirmation to the second computing entity that the pre-authorization hold digital asset-based interaction is successful.

A method includes initiating a reoccurring digital asset-based interaction between a first and second computing entity of a digital asset-based interaction system, providing, by the first computing entity, first computing entity information to the second computing entity, and storing, by the second computing entity, the first computing entity information. When the reoccurring digital asset-based interaction occurs, the method further includes sending, by the second computing entity, at least a portion of the first computing entity information and second computing entity information to a digital asset-based interaction computing entity, obtaining, by the digital asset-based interaction computing entity, the amount of the digital asset from the first computing entity, locking an amount of system digital asset to back the reoccurring digital asset-based interaction, and sending a confirmation to the second computing entity that the reoccurring digital asset-based interaction is successful.

Implementations for concurrent rebalancing can include determining a set of actual ratios for chain networks, each actual ratio representing a relative number of tokens of a cryptocurrency within a respective chain network, comparing actual ratios to respective target ratios in a set of target ratios to provide a set of differences, determining that a rebalance job is to be executed for a first chain network in the set of chain networks in response to the set of differences, and in response, defining a rebalance job for the first chain network, the rebalance job including a first transaction to be executed on the first chain network and a second transaction to be executed on a second chain network, performing a set of checks based on the rebalance job and at least one on-going rebalance job, and selectively executing the rebalance job.

A terminal according to one aspect includes: at least one memory configured to store an instruction; and at least one processor configured to perform the instruction, wherein the processor performs the instruction, and thus provides, to another terminal, an authentication request related to data being an authentication target, authentication information about an own terminal, and credit information about the own terminal, acquires, from the another terminal, an authentication result of the another terminal for the authentication request, and reclaims the credit information from the another terminal or an authentication server after the another terminal accesses the authentication server and thus validity of the authentication information is authenticated.

A network-based computing system can implement a transaction service in which digital wallets of client transaction entities are dynamically monitored to maintain a balance within a liquidity tranche unique to each transaction entity. The computing system can further execute a smart liquidity model that parses transaction requests into smaller clips and execution timing intervals such that risk of transaction failure is minimized or eliminated.