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Complex Conjugated certificateless-based signcryption with differential integrated factor for secured message

Sumithra Alagarsamy1, S P Rajagopalan2

  • 1Part Time Research Scholar, Department of Information and Communication Engineering, Anna University, Guindy, Chennai, Tamilnadu, India.

Plos One
|October 18, 2017
PubMed
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Certificateless signcryption enhances security by combining authentication and confidentiality efficiently. A new DiffEIF scheme minimizes computational costs and communication overhead for secure mobile networks.

Area of Science:

  • Cryptography and Network Security
  • Information Security

Background:

  • Traditional Public Key Infrastructure (PKI) faces challenges like key escrow.
  • Signcryption offers efficient combined authentication and confidentiality.
  • Certificateless cryptography aims to mitigate PKI limitations.

Purpose of the Study:

  • To introduce a novel certificateless signcryption scheme.
  • To address time-varying private key and secret value issues.
  • To enhance security and efficiency in digital communication.

Main Methods:

  • Defined a security model: Complex Conjugate Differential Integrated Factor (CC-DIF) scheme.
  • Proposed a new scheme, Differential Equation Integration Factor (DiffEIF), using differential equations.
  • Analyzed security against certificateless access control and signcryption schemes.

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Main Results:

  • The CC-DIF scheme improves secured message distribution rate.
  • The DiffEIF scheme minimizes computational cost and communication overhead.
  • Proven secure against existing certificateless schemes.

Conclusions:

  • The DiffEIF scheme offers superior efficiency compared to existing methods.
  • This approach is highly suitable for secure message communication in mobile networks.
  • Certificateless signcryption provides a robust alternative to traditional PKI.