[1] REN J, YU G, HE Y, et al. Collaborative cloud and edge computing for latency minimization[J]. IEEE Trans on Vehicular Technology, 2019, 68(5): 5031-5044.
[2] 李波, 侯鹏, 牛力, 等. 基于软件定义网络的云边协同架构研究综述[J]. 计算机工程与科学, 2021, 43(2): 242-257.
LI B, HOU P, NIU L, et al. Survey of cloud-edge collaborative architecture research based on software defined network[J]. Computer Engineering and Science, 2021, 43(2): 242-257.
[3] 李艺昕, 张应辉, 胡凌云, 等. 在线问诊环境下细粒度双边访问控制方案[J]. 计算机工程与应用, 2022, 58(17): 139-147.
LI Y X, ZHANG Y H, HU L Y, et al. Fine-grained bilateral access control scheme in online consultation environment[J]. Computer Engineering and Applications, 2022, 58(17): 139-147.
[4] YUCE M R, NG S W P, MYO N L, et al. Wireless body sensor network using medical implant band[J]. Journal of Medical Systems, 2007, 31(6): 467-474.
[5] LIU J, CAO H, LI Q, et al. A large-scale concurrent data anonymous batch verification scheme for mobile healthcare crowd sensing[J]. IEEE Internet of Things Journal, 2018, 6(2): 1321-1330.
[6] BONEH D, GENTRY C, LYNN B, et al. Aggregate and verifiably encrypted signatures from bilinear maps[C]//International Conference on the Theory and Applications of Cryptographic Techniques. Berlin, Heidelberg: Springer, 2003: 416-432.
[7] SHEN L, MA J, LIU X, et al. A secure and efficient ID-based aggregate signature scheme for wireless sensor networks[J]. IEEE Internet of Things Journal, 2016, 4(2): 546-554.
[8] XIONG H, GUAN Z, CHEN Z, et al. An efficient certificateless aggregate signature with constant pairing computations[J]. Information Sciences, 2013, 219: 225-235.
[9] TU H, HE D, HUANG B. Reattack of a certificateless aggregate signature scheme with constant pairing computations[J]. The Scientific World Journal, 2014: 343715.
[10] CHENG L, WEN Q, JIN Z, et al. Cryptanalysis and improvement of a certificateless aggregate signature scheme[J]. Information Sciences, 2015, 295: 337-346.
[11] 王竹, 杨思琦, 李凤华, 等. 高效可证明安全的无证书有序聚合签名方案[J]. 通信学报, 2022, 43(5): 58-67.
WANG Z, YANG S Q, LI F H, et al. Efficient and provably-secure certificateless sequential aggregate signature scheme[J]. Journal on Communications, 2022, 43(5): 58-67.
[12] KUMAR P, SHARMA V. On the security of certificateless aggregate signature scheme in vehicular ad hoc networks[M]//Soft computing: theories and applications. Singapore: Springer, 2018: 715-722.
[13] WU L, XU Z, HE D, et al. New certificateless aggregate signature scheme for healthcare multimedia social network on cloud environment[J]. Security and Communication Networks, 2018: 2595273.
[14] ZHAN Y, WANG B. Cryptanalysis of a certificateless aggregate signature scheme for healthcare wireless sensor network[J]. Security and Communication Networks, 2019: 6059834.
[15] XIE Y, LI X, ZHANG S, et al. iCLAS: an improved certificateless aggregate signature scheme for healthcare wireless sensor networks[J]. IEEE Access, 2019, 7: 15170-15182.
[16] GAYATHRI N B, THUMBUR G, KUMAR P R, et al. Efficient and secure pairing-free certificateless aggregate signature scheme for healthcare wireless medical sensor networks[J]. IEEE Internet of Things Journal, 2019, 6(5): 9064-9075.
[17] LIU J, WANG L, YU Y. Improved security of a pairing-free certificateless aggregate signature in healthcare wireless medical sensor networks[J]. IEEE Internet of Things Journal, 2020, 7(6): 5256-5266.
[18] HASHIMOTO K, OGATA W. Unrestricted and compact certificateless aggregate signature scheme[J]. Information Sciences, 2019, 487: 97-114.
[19] SHIM K A. Forgery attacks on two provably secure certificateless signature schemes[J]. Information Sciences, 2020, 521: 81-87.
[20] YE X, XU G, CHENG X, et al. Certificateless-based anonymous authentication and aggregate signature scheme for vehicular ad hoc networks[J]. Wireless Communications and Mobile Computing, 2021: 6677137.
[21] WANG H, WANG L, ZHANG K, et al. A conditional privacy-preserving certificateless aggregate signature scheme in the standard model for VANETs[J]. IEEE Access, 2022, 10: 15605-15618.
[22] YANG W, WANG S, MU Y. An enhanced certificateless aggregate signature without pairings for E-Healthcare system[J]. IEEE Internet of Things Journal, 2020, 8(6): 5000-5008.
[23] WU G, ZHANG F, SHEN L, et al. Certificateless aggregate signature scheme secure against fully chosen-key attacks[J]. Information Sciences, 2020, 514: 288-301.
[24] DODIS Y, KATZ J, XU S, et al. Key-insulated public key cryptosystems[C]//International Conference on the Theory and Applications of Cryptographic Techniques. Berlin, Heidelberg: Springer, 2002: 65-82.
[25] DODIS Y, KATZ J, XU S, et al. Strong key-insulated signature schemes[C]//International Workshop on Public Key Cryptography. Berlin, Heidelberg: Springer, 2003: 130-144.
[26] WAN Z, LAI X, WENG J, et al. Certificateless key-insulated signature without random oracles[J]. Journal of Zhejiang University-Science A, 2009, 10(12): 1790-1800.
[27] REDDY P V, BABU A R, GAYATHRI N B. Pairing-based strong key-insulated signature scheme[J]. International Journal of Information and Computer Security, 2022, 18(1/2): 148-164.
[28] HANAOKA G, HANAOKA Y, IMAI H. Parallel key-insulated public key encryption[C]//International Workshop on Public Key Cryptography. Berlin, Heidelberg: Springer, 2006: 105-122.
[29] HOU Y, XIONG H, HUANG X, et al. Certificate-based parallel key-insulated aggregate signature against fully chosen key attacks for industrial internet of things[J]. IEEE Internet of Things Journal, 2021, 8(11): 8935-8948. |