Efficient Pairing-Free Identity-Based Signcryption Scheme for Cloud-Assisted IoT
Author:
Affiliation:
1. National Institute of Technology, India & Institute for Development and Research in Banking Technology, India
2. Institute for Development and Research in Banking Technology, India
3. National Institute of Technology, India
Abstract
The Internet of Things (IoT) has become a part of our everyday life. Due to limited storage and computational capabilities, data collected by IoT devices outsource to cloud servers. Although cloud servers provide many benefits, confidentiality and authenticity are the major issues. Signcryption is a cryptographic technique to address the above issues. Several identity-based signcryption schemes are proposed; however, these schemes create heavy computation and communication overhead because of bilinear pairings. This paper proposes an Efficient Pairing-Free Identity-based Signcryption (EPFIBSC) scheme based on Elliptic Curve Cryptography (ECC), which reduces computation and communication overhead. The EPFIBSC scheme's security is proven under Elliptic Curve Discrete Logarithm Problem (ECDLP). The scheme also meets the security requirements such as confidentiality, authenticity, and unforgeability. In performance analysis, the authors compare the scheme with some of the existing schemes; the comparison shows that this scheme is more efficient in computation and communication costs.
Publisher
IGI Global
Subject
Computer Networks and Communications,Computer Science Applications,Human-Computer Interaction
Reference49 articles.
1. Pairing free identity based aggregate signcryption scheme
2. Encryption and Decryption Cloud Computing Data Based on XOR and Genetic Algorithm
3. Efficient and Provably-Secure Identity-Based Signatures and Signcryption from Bilinear Maps
4. Multipurpose Identity-Based Signcryption
5. A Practical Identity-based Signcryption Scheme.;H.Chen;International Journal of Network Security,2013
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