SYMA - Semantic System
A unified framework for semantic identity, trust, and data.
Overview
SYMA is a semantic substrate and identity framework designed to unify data, trust, and identity in decentralized networks. It leverages semantic web principles, decentralized identifiers (DIDs), and Proof of Resonance (PoR) to create interoperable, trusted digital entities.
Architecture
At its core, SYMA is built on:
- Atomic Tree: A hierarchical semantic graph storing nodes and their metadata atomically.
- P.U.D. (Platform for Unified Digital Identity): Manages decentralized identity and trust for each node.
- SDNS/SDNA: Protocol and architecture for semantic domain naming and resolution.
- vMesh & libp2p: Peer-to-peer networking layers for decentralized communication and federation.
Use Cases
- Decentralized Identity: Manage trusted, privacy-preserving identities across networks.
- Semantic Applications: Build apps that understand data meaning and provenance.
- Federated Networks: Enable secure peer-to-peer data sync and collaboration.
- Trust Scoring: Use Proof of Resonance to assess and propagate trust.