Round and Computational Efficiency of Multi-Party Protocols
暫譯: 多方協議的回合與計算效率

Name: Round and Computational Efficiency of Multi-Party Protocols
Price: 8142 TWD
Availability: OnlineOnly
Author: Ciampi, Michele, Siniscalchi, Luisa
ISBN: 3031923731

Ciampi, Michele, Siniscalchi, Luisa

出版商: Springer
出版日期: 2025-08-22
售價: $8,570
貴賓價: 9.5 折 $8,142
語言: 英文
頁數: 295
裝訂: Hardcover - also called cloth, retail trade, or trade
ISBN: 3031923731
ISBN-13: 9783031923739
相關分類: Computer-Science

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商品描述

Cryptographic protocols are the backbone of secure digital interactions, but achieving both security and efficiency is a challenging balancing act. The challenge is how to minimize computational costs and reduce interaction while maintaining provable security. This book explores cutting-edge techniques to optimize cryptographic protocols under well-established assumptions.

The monograph focuses on secure multi-party computation, non-malleable commitments, and proof systems, presenting new constructions based on general and standard cryptographic assumptions.

Topics and features:

First optimal-round two-party computation protocol: introduces the first secure, two-party computation protocol (and multi-party protocol for coin-tossing) with black-box simulation under standard assumptions, achieving optimal round complexity in the simultaneous message exchange model
Breakthrough in non-malleable commitments: develops the first four-round, concurrent, non-malleable commitment scheme based on one-way functions and a three-round variant under stronger (still general and standard) assumptions
Advances in zero-knowledge proofs: non-interactive, Zero-Knowledge proof systems that improve both efficiency and generality, enhancing practical applicability in cryptographic protocols
Efficient witness-indistinguishable proof systems: three-round, witness-indistinguishable proof systems with a novel delayed-input property, with application to interactive zero-knowledge

This work is primarily intended for researchers, academics, and graduate students in cryptography, theoretical computer science, and cybersecurity who are interested in designing cryptographic protocols from standard and general assumptions--in particular in the setting where no setup is available.

商品描述(中文翻譯)

加密協議是安全數位互動的基石，但在實現安全性與效率之間取得平衡是一項具有挑戰性的任務。挑戰在於如何在保持可證明安全性的同時，最小化計算成本並減少互動。本書探討了在已建立的假設下優化加密協議的尖端技術。

本專著專注於安全的多方計算、不可篡改的承諾以及證明系統，提出基於一般和標準加密假設的新建構。

主題與特點：
- 首個最佳回合的雙方計算協議：介紹首個安全的雙方計算協議（以及用於擲硬幣的多方協議），在標準假設下具有黑箱模擬，實現了在同時消息交換模型中的最佳回合複雜度。
- 在不可篡改承諾方面的突破：開發了首個基於單向函數的四回合並行不可篡改承諾方案，以及在更強（仍然是一般和標準）假設下的三回合變體。
- 零知識證明的進展：非互動的零知識證明系統，提高了效率和通用性，增強了在加密協議中的實際應用性。
- 高效的見證不可區分證明系統：具有新穎延遲輸入特性的三回合見證不可區分證明系統，應用於互動零知識。

本著作主要針對對加密協議設計感興趣的研究人員、學者和研究生，特別是在沒有可用設置的情況下，專注於從標準和一般假設出發的加密協議設計。

作者簡介

Michele Ciampi received his PhD from the University of Salerno. His supervisor was Giuseppe Persiano, the externals were Michel Abdalla and Berry Schoenmakers. He has since worked in the groups of Ivan Visconti, Rafail Ostrovsky, Ivan Damgaard and Claudio Orlandi. He is a researcher in the School of Informatics of the University of Edinburgh.
Luisa Siniscalchi received her PhD from the University of Salerno. Her PhD supervisor was Ivan Visconti, the externals were Sanjam Garg and Yuval Ishai. She has since worked in the groups of Ivan Visconti, Rafail Ostrovsky, Ivan Damgaard and Claudio Orlandi. She now works in the Concordium Blockchain Research Center in Aarhus.

作者簡介(中文翻譯)

Michele Ciampi 於薩萊諾大學獲得博士學位。他的指導教授是 Giuseppe Persiano，外部評審為 Michel Abdalla 和 Berry Schoenmakers。此後，他曾在 Ivan Visconti、Rafail Ostrovsky、Ivan Damgaard 和 Claudio Orlandi 的研究小組中工作。他目前是愛丁堡大學資訊學院的研究員。
Luisa Siniscalchi 於薩萊諾大學獲得博士學位。她的博士指導教授是 Ivan Visconti，外部評審為 Sanjam Garg 和 Yuval Ishai。此後，她曾在 Ivan Visconti、Rafail Ostrovsky、Ivan Damgaard 和 Claudio Orlandi 的研究小組中工作。她目前在奧胡斯的 Concordium 區塊鏈研究中心工作。