政大機構典藏-National Chengchi University Institutional Repository(NCCUR):Item 140.119/152771

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政大機構典藏 > 資訊學院 > 資訊科學系碩士在職專班 > 學位論文 > Item 140.119/152771

Please use this identifier to cite or link to this item: https://nccur.lib.nccu.edu.tw/handle/140.119/152771

Title:	基於ECDH 和短簽名的群組密鑰機制之分析與改良 Analysis and Improvement of Group Key Mechanism Based on ECDH and Short Signatures
Authors:	蕭銘彰 HSIAO, MING-CHANG
Contributors:	左瑞麟 Tso, Ray-lin 蕭銘彰 HSIAO, MING-CHANG
Keywords:	群組通信群組金鑰協議橢圓曲線 Diffie- Hellman 短簽名 Group communication Group key agreement protocol Elliptic Curve Diffie-Hellman Short signature
Date:	2024
Issue Date:	2024-08-05 13:56:34 (UTC+8)
Abstract:	現在製造型企業為了能夠提高生產效能與效益，因而工業物聯網(IIOT)、智慧工廠發展盛行，在企業工廠內部的製造生產設備、檢測儀器、和其他製造所用之設備等，都有提供網路連線之功能。雖然這些設備都能夠快速獲取即時製造資訊，並連上網路傳送資料，但這些設備之間的相互通訊與資料的保護，目前是一個具有挑戰的問題之一。鑑於這些 IIOT 的設備不管是運算能力或者資源都是有受限且較為薄弱。在設備能力與資源有限情況下，群組金鑰交換協議(Group Key Agreement protocol，GKAP)就是一個不錯的解決方案之一。在眾多的群組金鑰協議中，Yang等人於 2023年提出了一個 Group Key Agreement Protocol Based on ECDH and Short Signature(GKA-SS)結合了橢圓曲線 Diffie-Hellman (ECDH)金鑰交換協議以及短簽名的方式來生成群組金鑰協議，並驗證成員的身份方式。此方法概念創新並具實務性，但效能上仍有提升的空間。本文就是針對此協議架構再更近一步改善其效能，針對通訊的訊息的認證與減少組成員的身份驗證時間的優化。 In order to enhance production efficiency and effectiveness, manufacturing enterprises are increasingly adopting Industrial Internet of Things (IIOT) and smart factory initiatives. Within the factory premises, manufacturing production equipment, inspection instruments, and other devices used in manufacturing are equipped with networking capabilities. While these devices can rapidly access real-time manufacturing information and connect to the internet to transmit data, one of the current challenges lies in the communication between these devices and the protection of data.Given that these IIOT devices are often constrained in computational capability and resources, Group Key Agreement Protocol (GKAP) emerges as a viable solution. Among various group key agreement protocols, Yang et al.proposed a Group Key Agreement Protocol Based on ECDH and Short Signature (GKA-SS) in 2023, which combines Elliptic Curve Diffie-Hellman (ECDH) key exchange protocol with Short Signature (BLS) for generating group key agreements and validating member identities. While this approach is innovative and practical, there is still room for improvement in terms of performance.This paper aims to further enhance the efficiency of this protocol framework, focusing on optimizing message authentication and reducing the time required for member identity verification during communication.
Reference:	[1] Zeyu Yang, Ziqing Wang, Fei Qiu, and Fagen Li. A group key agreement protocol based on ecdh and short signature. Journal of Information Security and Applications, 72:103388, 2023. [2] Whitfield Diffie and Martin Hellman. New directions in cryptography. 1976. [3] Ingemar Ingemarsson, Donald Tang, and C Wong. A conference key distribution system. IEEE Transactions on Information theory, 28(5):714–720, 1982. [4] Michael Steiner, Gene Tsudik, and Michael Waidner. Cliques: A new approach to group key agreement. In Proceedings. 18th International Conference on Distributed Computing Systems (Cat. No. 98CB36183), pages 380–387. IEEE, 1998. [5] Vankamamidi S Naresh and Nistala VES Murthy. Provably secure group key agreement protocol based on ecdh with integrated signature. Security and Communication Networks, 9(10):1085–1102, 2016. [6] VS Janani and MSK Manikandan. Enhanced security using cluster based certificate management and ecc-crt key agreement schemes in mobile ad hoc networks. Wireless Personal Communications, 97:6131–6150, 2017. [7] Jung-Wen Lo, Chun-Yueh Wu, and Shu-Fen Chiou. A lightweight authentication and key agreement scheme for telecare medicine information system. Journal of Internet Technology, 21(1):263–272, 2020. [8] Qikun Zhang, Liang Zhu, Yongjiao Li, Zhaorui Ma, Junling Yuan, Jun Zheng, and Shan Ai. A group key agreement protocol for intelligent internet of things system. International Journal of Intelligent Systems, 37(1):699–722, 2022. [9] Manoj Kumar Mishra, Varun Shukla, Atul Chaturvedi, Pronaya Bhattacharya, and Sudeep Tanwar. A secure authenticated key agreement protocol using polynomials. In Proceedings of International Conference on Recent Innovations in Computing: ICRIC 2022, Volume 1, pages 585–595. Springer, 2023.
Description:	碩士國立政治大學資訊科學系碩士在職專班 111971020
Source URI:	http://thesis.lib.nccu.edu.tw/record/#G0111971020
Data Type:	thesis
Appears in Collections:	[資訊科學系碩士在職專班] 學位論文

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