Identity-based Multi-Recipient Public Key Encryption Scheme and Its Application in IoT

Jing Li; Xiangyan Tang; Zhijun Wei; Yu Wang; Wenbin Chen; Yu an Tan

doi:10.1007/s11036-019-01490-6

Identity-based Multi-Recipient Public Key Encryption Scheme and Its Application in IoT

Jing Li, Xiangyan Tang, Zhijun Wei, Yu Wang, Wenbin Chen^*, Yu an Tan

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

10 Citations (Scopus)

Abstract

The Internet of Things (IoT) has become a research hotspot in recent years. With the increase of smart devices which are connected in IoT, the privacy of IoT has become an important problem. Multi-recipient public key encryption (MRPKE) system plays an important role in protecting the privacy of those smart devices in IoT. At present, the existing ID-MRPKE schemes can only achieve the security in the random oracle model. To enhance the security level, a new ID-MRPKE is constructed by using the programmable hash function from multilinear maps. The security of the novel scheme can be proven in the standard model, instead of the random oracle. Furthermore, based on the k-level Multilinear-maps Decisional Deffie-Hellman (MDDH) assumption, we prove that the proposed scheme has the indistinguishability under the selective multi-identity attack and chosen plaintext attack (IND-sMID-CPA).

Original language	English
Pages (from-to)	1543-1550
Number of pages	8
Journal	Mobile Networks and Applications
Volume	26
Issue number	4
DOIs	https://doi.org/10.1007/s11036-019-01490-6
Publication status	Published - Aug 2021

Keywords

IoT
Multi-recipient public key encryption
Multilinear maps
Programmable hash function
Standard model

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10.1007/s11036-019-01490-6

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title = "Identity-based Multi-Recipient Public Key Encryption Scheme and Its Application in IoT",

abstract = "The Internet of Things (IoT) has become a research hotspot in recent years. With the increase of smart devices which are connected in IoT, the privacy of IoT has become an important problem. Multi-recipient public key encryption (MRPKE) system plays an important role in protecting the privacy of those smart devices in IoT. At present, the existing ID-MRPKE schemes can only achieve the security in the random oracle model. To enhance the security level, a new ID-MRPKE is constructed by using the programmable hash function from multilinear maps. The security of the novel scheme can be proven in the standard model, instead of the random oracle. Furthermore, based on the k-level Multilinear-maps Decisional Deffie-Hellman (MDDH) assumption, we prove that the proposed scheme has the indistinguishability under the selective multi-identity attack and chosen plaintext attack (IND-sMID-CPA).",

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author = "Jing Li and Xiangyan Tang and Zhijun Wei and Yu Wang and Wenbin Chen and Tan, {Yu an}",

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AU - Tang, Xiangyan

AU - Wei, Zhijun

AU - Wang, Yu

AU - Chen, Wenbin

AU - Tan, Yu an

PY - 2021/8

Y1 - 2021/8

N2 - The Internet of Things (IoT) has become a research hotspot in recent years. With the increase of smart devices which are connected in IoT, the privacy of IoT has become an important problem. Multi-recipient public key encryption (MRPKE) system plays an important role in protecting the privacy of those smart devices in IoT. At present, the existing ID-MRPKE schemes can only achieve the security in the random oracle model. To enhance the security level, a new ID-MRPKE is constructed by using the programmable hash function from multilinear maps. The security of the novel scheme can be proven in the standard model, instead of the random oracle. Furthermore, based on the k-level Multilinear-maps Decisional Deffie-Hellman (MDDH) assumption, we prove that the proposed scheme has the indistinguishability under the selective multi-identity attack and chosen plaintext attack (IND-sMID-CPA).

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KW - IoT

KW - Multi-recipient public key encryption

KW - Multilinear maps

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Identity-based Multi-Recipient Public Key Encryption Scheme and Its Application in IoT

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Keywords

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