Open Access Open Access  Restricted Access Subscription Access

A New Pairing-Free Certificateless Signcryption Scheme


Affiliations
1 Department of Engineering Mathematics, Andhra University, Visakhapatnam, 530 003, India
2 Department of Engineering Mathematics, Anil Neerukonda Institute of Technology and Science, Visakhapatnam 531 163, India
3 Department of Electronics and Communication Engineering, GITAM University, Visakhapatnam 530 045, India
 

Signcryption is a cryptographic primitive which provides unforgeability and confidentiality for digital communications. Many signcryption schemes have been constructed in the literature for secure communication between smart objects. But, many of these existing schemes are not secure and inefficient for resource constrained applications like WSNs, Mobile computing, VANETs and IoT applications. To enrich the security and efficiency issues, in this paper, we propose a new signcryption scheme in certificateless based framework and prove its security under the CDHP and ECDLP assumptions. The efficiency analysis indicates that our scheme is more efficient than other existing signcryption schemes and is well suitable for resource-constrained applications.

Keywords

Authentication and Confidentiality, Certificateless Based Cryptography, EUF-CLSC-CMA, IND-CLSC-CCA, IoT Applications.
User
Notifications
Font Size

  • Noor M B M & Hassan W H, Current research on internet of things (IoT) security: a survey. J Comp Net 148 (2019) 283–294.
  • Samalia M G, Neto M, Fernandes D B, Freire M & Inacio P M, Challenges of securing internet of things devices: a survey, J Secu Priv 01(02) (2018) 1–32.
  • Ugnaya G, Radhika & Vijayaraj N, A survey on internet of things: applications, recent issues, attacks and security mechanisms, J Circuits system and comp 30(05) (2021) 1–45.
  • Won, J, Seo S H & Berti E, A secure communication protocol for drones and smart objects, Proc. ASIA Comp Comm Sec (2015) 249–260.
  • Zheng Y, Digital signcryption or how to achieve cost (signature and encryption = cost (Signature) + cost (encryption), Proc. Crypto, California (1997) 165–179.
  • Jung H Y, Lee D H, Lim J I & Chang K S, Signcryption schemes with forward secrecy, Proc. Info Secu Appl (2001) 403–475.
  • Baek J, Steinfeld R & Zheng Y, Formal proofs for the security of signcryption, J Cryptology, 20(2) (2007) 203–235.
  • Malone-Lee J, Identity based signcryption, Cryptology e-Print Archive Report, IACR, (2002).
  • Libert B & Quisquater J J, A new identity based signcryption scheme from pairings, Proc. IEEE Info Theory Works (2003) 155–158.
  • Swapna G & Vasudeva Reddy P, Efficient identity based aggregate signcryption scheme using bilinear pairings over elliptic curves, Proc. IOP conf series, J Phys 1344 (2019).
  • Yu Y, Yang B, Sun Y & Zhu S, Identity based signcryption scheme without random oracles, J Comp stand interf 31 (2009) 56–62.
  • Hussain S, Ullah S S, Uddin M, Iqbal J & Chen C L, A comprehensive survey on signcryption security mechanisms in wireless body area networks, Sensors, 22(3) (2022) 1072. doi: 10.3390/s22031072.
  • Al-Riyami S S& Paterson K G, Certificateless public key cryptography, Proc Int Conf Theory Appl Cryptol Info Sec, (2003) 452–473.
  • Gowri Thumbur, Srinivasa Rao G, Vasudeva Reddy P, Gayathri N B & Rama Koti Reddy D V, Efficient pairingfree certificateless signature scheme for secure communication in resource-constrained devices, J Commu Lett IEEE, 24(8) (2020), 1641–1645.
  • Cao L & Ge W, Analysis of certificateless signcryption schemes and construction of a secure and efficient pairing free one based on ECC, KSII Trans Internet Info Sys, 12(9) (2018) 4527–4547.
  • Cui L, Yun B, Lin S & Wenhua B, A new certificateless signcryption scheme without bilinear pairing, Proc. 13th Int Conf Comp Sci Edu (ICCSE), (2018) 1–5. doi: 10.1109/ICCSE.2018.8468859.
  • Zhou C, An improved lightweight certificateless generalized signcryption scheme for mobile-health system, Int J Distrib Sensor Netw, 15(1) (2009) 1–16.
  • Ullah I, Alkhalifah A, Rehman S U, Kumar N & Khan M A, An anonymous certificateless signcryption scheme for internet of health things, IEEE Access, 9 (2021) 101207–101216. doi: 10.1109/ACCESS.2021.3097403.
  • Kim T H, Kumar G, Saha R, Buchanan W J, Devgun T & Thomas R, LiSP-XK: Extended light-weight signcryption for iot in resource-constrained environments, IEEE Access, 9 (2021) 100972–100980.
  • Kasyoka P N, Kimwele M &Mbandu S A, Efficient certificateless signcryption scheme for wireless sensor networks in ubiquitous healthcare systems, J Wirel Pers Commu 18 (2021) 3349–3366. https://doi.org/10.1007/s11277-021-08183-y.
  • Ali U, Yamani Idna Idris Md,. Frnda Jaroslav, Bin Ayub, Mohamad Nizam, Alroobaea, Roobaea, Almansour F, Shagari N M, Ullah I & Ihsan Ali, Hyper elliptic curve based certificateless signcryption scheme for secure IIoT communications, J Compu Materi Continua, 71(2) (2022), 2515–2532. http://doi:10.32604/ cmc.2022.019800.
  • Abdullah A M, Ullah I, Khan M A, Alsharif M H, Mostafa S M & Wu J M, An efficient multi-document blind signcryption scheme for smart grid-enabled industrial internet of things, J Wirel Commu Mob Compu (2022). http://dx.doi.org/10.1155/2022/7779152.
  • Yang Y, Zhang L, Zhao Y, Choo K K R & Zhang Y, Privacy preserving aggregation authentication scheme for safety warning system in fog-cloud based VANET, IEEE Trans Info Forensics Secu 17 (2022)317-331. http://doi: 10.1109/TIFS.2022.3140657.
  • Du H, Wen Q, Zhang S & Mingchu Gao, A pairing free certificateless signcryption scheme for vehicular ad hoc networks, Chinese J Electro 30(5) (2021) 947–955. https://doi.org/10.1049/cje.2021.07.006.
  • MIRACL Library: http//certivox.com/miracl/2018 (12th May 2018).

Abstract Views: 142

PDF Views: 89




  • A New Pairing-Free Certificateless Signcryption Scheme

Abstract Views: 142  |  PDF Views: 89

Authors

Srinivasa Rao Gopisetti
Department of Engineering Mathematics, Andhra University, Visakhapatnam, 530 003, India
Ramesh Babu Amarapu
Department of Engineering Mathematics, Anil Neerukonda Institute of Technology and Science, Visakhapatnam 531 163, India
Gowri Thumbur
Department of Electronics and Communication Engineering, GITAM University, Visakhapatnam 530 045, India
Vasudeva P Reddy
Department of Engineering Mathematics, Andhra University, Visakhapatnam, 530 003, India

Abstract


Signcryption is a cryptographic primitive which provides unforgeability and confidentiality for digital communications. Many signcryption schemes have been constructed in the literature for secure communication between smart objects. But, many of these existing schemes are not secure and inefficient for resource constrained applications like WSNs, Mobile computing, VANETs and IoT applications. To enrich the security and efficiency issues, in this paper, we propose a new signcryption scheme in certificateless based framework and prove its security under the CDHP and ECDLP assumptions. The efficiency analysis indicates that our scheme is more efficient than other existing signcryption schemes and is well suitable for resource-constrained applications.

Keywords


Authentication and Confidentiality, Certificateless Based Cryptography, EUF-CLSC-CMA, IND-CLSC-CCA, IoT Applications.

References