Efficient Arbitrated Quantum Digital Signature with Multi‐Receiver Verification

Quantum digital signature is used to authenticate the identity of the signer with information theoretical security while providing non‐forgery and non‐repudiation services. In traditional multi‐receiver quantum digital signature schemes without an arbitrator, the transferability of one‐to‐one signat...

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Veröffentlicht in:	Advanced quantum technologies (Online) 2024-11, Vol.7 (11), p.n/a
Hauptverfasser:	Xiong, Siyu, Tang, Bangying, Han, Hui, Huang, Jinquan, Bai, Mingqiang, Li, Fangzhao, Yu, Wanrong, Mo, Zhiwen, Liu, Bo
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Sprache:	eng
Schlagworte:	arbitrated quantum signature CW‐pumped quantum key distribution quantum digital signature quantum network
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container_title	Advanced quantum technologies (Online)
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creator	Xiong, Siyu Tang, Bangying Han, Hui Huang, Jinquan Bai, Mingqiang Li, Fangzhao Yu, Wanrong Mo, Zhiwen Liu, Bo
description	Quantum digital signature is used to authenticate the identity of the signer with information theoretical security while providing non‐forgery and non‐repudiation services. In traditional multi‐receiver quantum digital signature schemes without an arbitrator, the transferability of one‐to‐one signature is always required to achieve unforgeability, with complicated implementation and heavy key consumption. In this article, an arbitrated quantum digital signature scheme is proposed, in which the signature can be verified by multiple receivers simultaneously, and meanwhile, the transferability of the signature is still kept. This scheme can be simplified performed to various quantum secure networks, due to the proposed efficient signature calculation procedure with low secure key consumption and low computation complexity, by employing one‐time universal hashing algorithm and a one‐time pad encryption scheme. The evaluation results show that this scheme uses at least two orders of magnitude less key than existing signature schemes with transferability when signing files of the same length with the same number of receivers and security parameter settings. An arbitrated quantum digital signature scheme is proposed, in which the signature can be verified by multiple receivers simultaneously, and meanwhile, the transferability of the signature is still kept. This scheme can be simplified performed to various quantum secure networks, due to the proposed efficient signature calculation procedure with low secure key consumption and low computation complexity, by employing a one‐time universal hashing algorithm and one‐time pad encryption scheme.
doi_str_mv	10.1002/qute.202400110
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In traditional multi‐receiver quantum digital signature schemes without an arbitrator, the transferability of one‐to‐one signature is always required to achieve unforgeability, with complicated implementation and heavy key consumption. In this article, an arbitrated quantum digital signature scheme is proposed, in which the signature can be verified by multiple receivers simultaneously, and meanwhile, the transferability of the signature is still kept. This scheme can be simplified performed to various quantum secure networks, due to the proposed efficient signature calculation procedure with low secure key consumption and low computation complexity, by employing one‐time universal hashing algorithm and a one‐time pad encryption scheme. The evaluation results show that this scheme uses at least two orders of magnitude less key than existing signature schemes with transferability when signing files of the same length with the same number of receivers and security parameter settings. An arbitrated quantum digital signature scheme is proposed, in which the signature can be verified by multiple receivers simultaneously, and meanwhile, the transferability of the signature is still kept. 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An arbitrated quantum digital signature scheme is proposed, in which the signature can be verified by multiple receivers simultaneously, and meanwhile, the transferability of the signature is still kept. This scheme can be simplified performed to various quantum secure networks, due to the proposed efficient signature calculation procedure with low secure key consumption and low computation complexity, by employing a one‐time universal hashing algorithm and one‐time pad encryption scheme.</abstract><doi>10.1002/qute.202400110</doi><tpages>12</tpages><orcidid>https://orcid.org/0000-0001-8140-2279</orcidid><orcidid>https://orcid.org/0000-0002-0020-9918</orcidid><oa>free_for_read</oa></addata></record>
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subjects	arbitrated quantum signature CW‐pumped quantum key distribution quantum digital signature quantum network
title	Efficient Arbitrated Quantum Digital Signature with Multi‐Receiver Verification
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