The present disclosure involves systems, software, and computer implemented methods for providing rapid approval of blockchain-based transactions. This includes approval of transactions prior to the transaction being written to the blockchain. A transaction system can register with a transaction manager, such as a cloud-based or cloud transaction manager, which can maintain a queue of pending transactions and provide approval for transactions in real-time or near real-time, while later verifying the pending transactions are written into the blockchain as expected. This allows the transaction system to securely confirm the transaction is approved prior to the transaction being written in the blockchain, based on a real-time or near real-time analysis of each customer's corresponding account and transactions.

Techniques are disclosed utilizing cognitive computing to improve commercial communications from vendors to users. A user's financial account(s) and location may be monitored to determine when a user is within a threshold distance of a vendor. If the user is within the threshold distance the methods and systems disclosed may determine which targeted commercial communications to transmit to the user based upon a shopping profile for the user. The shopping profile may include a dataset indicative of the shopping habits of the user.

Systems, methods, and non-transitory computer readable media for visualizing user spending data in an altered reality are provided. Spending data includes items purchased, budgets for specific rooms or categories, prices paid, dates of purchase, and amounts spent. The user may interact within the altered reality to manage spending and move budgets between rooms or categories.

A method for facilitating a transaction with a one-time number includes: receiving a first transaction request, wherein the first transaction request includes a plurality of data elements including at least a first data element configured to store a zero transaction amount and a second data element configured to store a primary account number; parsing the primary account number stored in the second data element included in the received first transaction request; generating a one-time value, wherein the one-time value includes a predetermined number of digits and a subset of the predetermined number of digits is a reference to the processing server; storing a data entry comprised of at least the parsed primary account number and the generated one-time value; and transmitting the generated one-time value in response to the received first transaction request.

A system and method for adding a virtual credit account to a mobile device is disclosed. The system receives a contact information for a customer at a store's electronic device, the contact information comprising: at least one of a device identifier (ID) and a user ID, the contact information being part of a request for a pre-existing credit account to be added to the customer's mobile device. An access to an account lookup/verification for the pre-existing credit account is provided to the customer's mobile device, the access generate an out-of-band verification. the request for the pre-existing credit account to be added to the customer's mobile device in conjunction with the out-of-band verification is provided by the customer's mobile device. The pre-existing credit account is then added to the customer's mobile device in a digital format allowing the customer to make a purchase.

A method for periodic aggregation of blockchain transactions for reduced processing times and bandwidths includes: storing at least a cryptographic key pair comprising a private key and a public key and a plurality of unspent blockchain transactions, each unspent blockchain transaction including at least an output address and transaction amount; generating a digital signature using the private key; generating a recipient address using the public key; generating a new blockchain transaction after satisfaction of a trigger condition, the new blockchain transaction including each of the plurality of unspent blockchain transactions as inputs, the digital signature, the recipient address, and a transfer amount based on a summation of the transaction amount for each of the unspent blockchain transactions; and transmitting the new blockchain transaction to a node in a blockchain network.

A system and method are provided for managing loyalty program accounts. The method is executed by a device and includes providing, from the device, access to a loyalty wallet application. The method also includes storing loyalty account information for a plurality of loyalty accounts in the loyalty wallet application and integrating a loyalty tracking application, operable from the device, with at least one transaction channel accessed via the device. The method also includes receiving transaction data from the at least one transaction channel; detecting, from the transaction data, that a transaction yet to be executed is eligible for a loyalty reward associated with one or more of the plurality of loyalty accounts; and modifying the transaction to use corresponding loyalty account information to obtain the loyalty reward. The method also includes enabling the modified transaction to be completed to obtain the loyalty reward.

Disclosed embodiments provide systems, methods, and apparatuses for facilitating transfers between user commerce accounts associated with a merchant of a commerce platform within a computing environment supported by a processor and a memory to execute such functionality. An exemplary system may include a means for creating a merchant account platform at the payment system; creating a single charge from a customer at the merchant account platform; creating multiple transfers from the merchant account platform to different connected accounts, wherein the multiple transfers are to each transfer a sub-portion of proceeds associated with the single charge from the customer to each of the different connected accounts; performing the single charge from the customer to the merchant account platform; and performing each of the multiple transfers from the merchant account platform to the different connected accounts. Other embodiments are also disclosed.

Described herein are a system and techniques for updating balance information for a disbursement module on a portable device using a transaction module on that same portable device. In some embodiments, each of the transaction module and the disbursement module may be associated with a different transaction processing system. A client device may be used to interact with the transaction module of the portable device via a communication element. In some embodiments, the client device may be configured to receive an account identifier from the transaction module, generate and transmit an authorization request message to an authorization entity, and upon receiving authorization from the authorization entity, cause the transaction module on the portable device to update a balance associated with the disbursement module.

Systems, methods, and computer-readable storage media configured to facilitate execution of transactions via a money transfer network are disclosed. During execution of the transactions, tokenized identity information may be utilized when exchanging transaction data between geographically distributed nodes of the money transfer network and the transactions are recorded to a distributed ledger maintained by the nodes. Smart contracts may be utilized to digitally sign transactions at various stages of transaction processing, such as at different stages of regulatory compliance validation and to authenticate the validity of the requested transaction (e.g., prevent double-spends). Utilizing tokenized identity information may reduce the likelihood that personally identifiable information (PII data) is obtained by or inadvertently provided to unauthorized third parties or systems. Additionally, the distributed ledger may record information in immutable records, thereby increasing the reliability and trustworthiness (e.g., for auditing purposes) of the data stored on the distributed ledger.