This paper presents a novel approach to optimizing zk-SNARK proof generation and transmission specifically tailored for constrained IoT networks. By utilizing recursive proof composition and a custom transport layer, we demonstrate a 40% reduction in latency compared to standard Groth16 implementations. The research focuses on minimizing the on-wire footprint of validity proofs without compromising cryptographic security guarantees.
| TECHNICAL FOCUS | zk-SNARKs, Recursive Composition, IoT Networking |
| RESEARCH CATEGORY | Cryptography |
| PRIMARY OUTPUT |