Abstract: A method for conducting a conversation between a user and a virtual agent is disclosed. The method includes receiving, by an ASR sub-system, a plurality of utterances from the user, and converting, by the ASR sub-system, each utterance of the plurality of utterances into a text message. The method further includes determining, by a NLU sub-system, an intent, at least one entity associated to the intent, or a combination thereof from the text message.

Abstract: Methods and systems for improved indexing of non-standardized, custom smart contracts. The improved indexer identifies custom landmarks (e.g., portions of bytecode indicative of custom smart contract transactions or particular functions in those transactions) that are indicative of transactions involving custom smart contracts (as well as the various attributes of those custom smart contracts). The indexer does this by first collecting bytecode for a subset of known transactions involving the custom smart contracts. The indexer then compares the bytecode of the custom smart contracts in the subset to identify the landmarks or probabilities that portions of the bytecode correspond to landmarks. Once these landmarks are identified (or a probability of the landmark is above a certain threshold), the indexer may designate these as known landmarks. The indexer may then compare the portion of the bytecode corresponding to the known landmark to raw bytecode.

Abstract: Methods and systems for the use of multi-party computation (“MPC”) key systems that involve the use of multiple parties, each of which hold respective private data that may be used to evaluate a computation without ever revealing any of the private data held by each party to perform blockchain operations. Using the MPC key systems, the methods and systems generate secure, encrypted communications across distributed computer networks for authorizing use of cryptography-based digital repositories in order to perform blockchain operations in decentralized applications.

Abstract: Methods and systems for the use of multi-party computation (“MPC”) key systems that involve the use of multiple parties, each of which hold respective private data that may be used to evaluate a computation without ever revealing any of the private data held by each party to perform blockchain operations. Using the MPC key systems, the methods and systems generate secure, encrypted communications across distributed computer networks for authorizing use of cryptography-based digital repositories in order to perform blockchain operations in decentralized applications.

Abstract: Methods and systems for the use of multi-party computation (“MPC”) key systems that involve the use of multiple parties, each of which hold respective private data that may be used to evaluate a computation without ever revealing any of the private data held by each party to perform blockchain operations. Using the MPC key systems, the methods and systems generate secure, encrypted communications across distributed computer networks for authorizing use of cryptography-based digital repositories in order to perform blockchain operations in decentralized applications.

Abstract: Methods and systems for the use of multi-party computation (“MPC”) key systems that involve the use of multiple parties, each of which hold respective private data that may be used to evaluate a computation without ever revealing any of the private data held by each party to perform blockchain operations. Using the MPC key systems, the methods and systems generate secure, encrypted communications across distributed computer networks for authorizing use of cryptography-based digital repositories in order to perform blockchain operations in decentralized applications.

Abstract: The method 10 for mobile cryptocurrency wallet connectivity can include facilitating a blockchain transaction S100 and establishing an initial connection between a mobile client and a web client S200. The system 20 for mobile cryptocurrency wallet connectivity can include a browser 110, one or more websites 120, a web client 130, a mobile application 140, and a backend server 150.

Abstract: One or more aspects described herein provide methods and systems for authoritatively confirming that a recipient is an intended recipient to receive personal data, and to securely transmit the personal data to the intended recipient, when both the sender and receiver are operating in a trustless ecosystem such as that used with blockchain technology. A computing device may receive an indication of a blockchain address used, by a sender computing device and via a blockchain, to send one or more virtual assets. The computing device may store an association between the blockchain address and the recipient. The computing device may send, to the sender computing device and in response to a query comprising the blockchain address, an indication of the recipient. The indication may be configured to cause the sender computing device to send, to the recipient, personal data associated with an owner of the one or more virtual assets.

Abstract: Systems and methods for payment processing using cryptocurrency assets.

Abstract: In an embodiment, a method comprises performing a first synchronization operation for a blockchain node of a plurality of blockchain nodes of a blockchain network, the first synchronization operation comprising the blockchain node receiving blockchain history data from one or more blockchain nodes of the plurality of blockchain nodes of the blockchain network and storing the blockchain history data in one or more digital data repositories; determining that the blockchain history data satisfies one or more validation criteria; creating a new blockchain node of the blockchain network, the new blockchain node configured to retrieve the blockchain history data from the one or more digital data repositories and replicate the blockchain history data for the new blockchain node, the new blockchain node existing in an unsynchronized state; performing a second synchronization operation for the new blockchain node of the blockchain network, the second synchronization operation comprising the new blockchain node receivi

Abstract: A compliance determination and enforcement platform is described. A plurality of factors are stored in association with each of a plurality of accounts. A factor entering module enters factors from each user account into a compliance score model. The compliance score model determines a compliance score for each one of the accounts based on the respective factors associated with the respective account. A comparator compares the compliance score for each account with a compliance reference score to determine a subset of the accounts that fail compliance and a subset of the accounts that meet compliance. A flagging unit flags the user accounts that fail compliance to indicate non-compliant accounts. A corrective action system allows for determining, for each one of the accounts that is flagged as non-compliant, whether the account is bad or good, entering the determination into a feedback system and closing the account.

Abstract: A method for assisting transactions preferably includes a relayer wherein the relayer maintains an orderbook, and wherein the relayer is specified as the taker on all orders in the orderbook. The method incorporates matching buy and sell orders into a single, atomized batch order, price adjusting for spread, and passing the gain from the spread to the second order in the orderbook.

Abstract: System and method for digitally signing messages using multi-party computation.