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Developing decentralized protocols for secure identity management through key management abstraction, enhancing blockchain security, and establishing trustless, retroactively compatible infrastructure for user identity representation.

Robust open-source protocols that enable decentralized identity management through streamlined key management abstraction.

Private keys are the primary mean of identifying users within a blockchain system. However, they present a single point of failure. To overcome this issue, we introduce Key Management Abstraction (KMA) a chain-agnostic solution that aims to decentralize key backup-recovery, strengthen security, and enhance identity representation.

Technologies we've developed:

State-Observing Network: Providing simultaneously a decentralized and highly parallelizable representation of users' identity and a MixNet for secure secrets communications.

State-changing authentication schemes: Permission-less authentication procedure for any public-key infrastructure, completely compatible and further enhanced by Ethereum's account abstraction, multisignatures and threshold signatures.

Decentralization-driven security: Security layer with a security level on-par with traditional cryptographic security but only relying on the complexity of large-scale social coordination, information asymmetry, & slowness of trust.

State-change certificates: Renewable and chain-agnostic ZK-proofs for private key's that serves to sign transactions, provide proof-of-ownership and asset transfer.

Our approach seeks to produce a: Trustless, fully decentralized (and thus, non-custodial), retroactively-compatible infrastructure to represent user’s identity securely enough to not introduce vulnerabilities and flexibly enough to provide a session management layer for temporality and revocability.

Read more in our whitepaper:

https://docsend.com/view/dbk48wukd3ivd3ad

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