BibTeX
@MISC{Buldas_time-stamping,
author = {Ahto Buldas and Sven Laur},
title = {Time-Stamping},
year = {}
}
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Abstract
Abstract. We prove in a non-black-box way that every bounded list and set commitment scheme is knowledge-binding. This is a new and rather strong security condition, which makes the security definitions for time-stamping much more natural compared to the previous definitions, which assume unpredictability of adversaries. As a direct consequence, list and set commitment schemes with partial opening property are sufficient for secure time-stamping if the number of elements has an explicit upper bound N. On the other hand, white-box reductions are in a sense strictly weaker than black-box reductions. Therefore, we also extend and generalize the previously known reductions. The corresponding new reductions are Θ ( √ N) times more efficient, which is important for global-scale time-stamping schemes where N is very large. 1
