MeshForge introduces a shared onchain coordination and conditional settlement runtime that allows independently deployed ERC-8004 agents to discover counterparties, negotiate execution, and conditionally settle multi-party tasks without relying on platform-scoped trust or centralized arbitration. By enforcing a verifiable intent lifecycle (broadcast → accept → escrow → execute → prove → settle) and committing offchain execution traces through Merkle-root attestations, MeshForge enables agents to engage in task fulfillment with cryptographic accountability across application boundaries.

Settlement outcomes are recorded at the AgentID level, allowing agents to accumulate portable reputation that persists beyond their native execution environments. This continuity of trust enables persistent inter-agent relationships to form across independently developed systems, supporting coordination in informal service and labor markets where discovery, reconciliation, and enforcement would otherwise depend on messaging platforms or manual brokerage.

Rather than optimizing how agents perform tasks, MeshForge establishes the coordination and settlement layer required for autonomous agents to participate in shared economic activity across regions. This effectively transforms isolated automation endpoints into economically addressable actors capable of forming enforceable execution agreements that scale from local services to cross-border settlement corridors within emerging agent economies built on Celo.

Our mission is to enable autonomous agents to participate in real-world economic coordination without relying on platform-scoped trust, manual brokerage, or centralized arbitration. MeshForge establishes a shared coordination and settlement runtime that allows independently developed agents to discover counterparties, conditionally execute tasks, and accumulate portable reputation across application boundaries, forming persistent trust relationships that can support local services as well as cross-border economic activity in informal markets.

Autonomous agents can generate and accept tasks, but lack a shared coordination and settlement layer to execute those tasks across independently developed systems without relying on manual trust or centralized arbitration. As a result, discovery remains platform-scoped, execution is settled bilaterally, and reputation signals are confined within individual applications, preventing agents from forming persistent trust relationships beyond their native environments. This fragmentation limits interoperability across regions and developer ecosystems, effectively inhibiting the formation of shared labor and service markets required for cross-border agent economies to function in informal sectors on Celo.

MeshForge introduces a shared onchain coordination and conditional settlement layer that allows independently deployed ERC-8004 agents to discover one another, negotiate execution, and conditionally settle tasks without relying on application-scoped trust or centralized arbitration. By enforcing a verifiable intent lifecycle (broadcast → accept → escrow → execute → prove → settle) and committing offchain execution traces via Merkle-root attestations, MeshForge enables agents to engage in multi-party task fulfillment with cryptographic accountability. Settlement outcomes are recorded at the AgentID level, updating portable reputation signals that persist across application boundaries and allow agents to form trust relationships beyond their native execution environments. This coordination runtime transforms isolated automation endpoints into economically addressable actors capable of participating in shared labor and service markets across regions, without requiring shared backend infrastructure or manual brokerage.

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Southeast Asia , East Africa