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LightBEAT: Scalable Epochless Batched Threshold Encryption via Hierarchical Identity-Based Puncturing

Authors
Oh, DonghwanKim, JihyeOh, Hyunok
Issue Date
May-2026
Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
Keywords
Payloads; Broadcasting; Broadcast technology; Protocols; Communication systems; Radio access networks; Regional area networks; Management information base; Computer network management; Zero knowledge proof; Maximal extractable value (MEV); batched threshold encryption (BTE); threshold encryptionhierarchical identity-based encryption (HIBE); puncturable pseudorandom functions (PPRF); mempool privacy; pairing-based cryptography
Citation
IEEE ACCESS, v.14, pp 68054 - 68075
Pages
22
Indexed
SCIE
SCOPUS
Journal Title
IEEE ACCESS
Volume
14
Start Page
68054
End Page
68075
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/212926
DOI
10.1109/ACCESS.2026.3689882
ISSN
2169-3536
Abstract
Threshold-encrypted mempools protect users from maximal extractable value (MEV) by keeping transactions private until block inclusion. Batched threshold encryption (BTE) enables succinct decryption of a block-sized batch, but the state-of-the-art epochless protocol BEAT-MEV suffers a prohibitive O(N2) setup and storage overhead from its pairwise-key construction, where N denotes the identity universe. In sparse operating regimes with large identity universes and comparatively small active batches (B ≪ N), this quadratic bottleneck pushes deployments toward bucketing strategies that reintroduce succinctness pressure. In this work, we propose LightBEAT, an epochless BTE protocol that replaces the flat pairwise puncturable layer with HIDP (Hierarchical ID-based Puncturing), a hierarchical construction derived from hierarchical identity-based encryption (HIBE) delegation. This change reduces the setup complexity to O(N log2 N) and supports large sparse identity spaces without the same flat pairwise storage wall. Our analysis and evaluation show that LightBEAT preserves constant-size per-user ciphertext objects and constant-size per-member decryption shares, while leaving validator-side combine costs and deployment integration as explicit system-level concerns.
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