Abstract
Certificateless-based signcryption overcomes inherent shortcomings in traditional Public Key Infrastructure (PKI) and Key Escrow problem. It imparts efficient methods to design PKIs with public verifiability and cipher text authenticity with minimum dependency. As a classic primitive in public key cryptography, signcryption performs validity of cipher text without decryption by combining authentication, confidentiality, public verifiability and cipher text authenticity much more efficiently than the traditional approach. In this paper, we first define a security model for certificateless-based signcryption called, Complex Conjugate Differential Integrated Factor (CC-DIF) scheme by introducing complex conjugates through introduction of the security parameter and improving secured message distribution rate. However, both partial private key and secret value changes with respect to time. To overcome this weakness, a new certificateless-based signcryption scheme is proposed by setting the private key through Differential (Diff) Equation using an Integration Factor (DiffEIF), minimizing computational cost and communication overhead. The scheme is therefore said to be proven secure (i.e. improving the secured message distributing rate) against certificateless access control and signcryption-based scheme. In addition, compared with the three other existing schemes, the CC-DIF scheme has the least computational cost and communication overhead for secured message communication in mobile network.
Highlights
With therapid progress in mobile communication networks, certificateless-based signcryption are under research and development stage
By applying Complex Conjugate Differential Integrated Factor (CC-DIF) scheme, the message distribution rate is found to be improved by 4% compared to Certificate Less Sign Cryption (CLSC), 11% compared to Elliptic Curve Cryptography-based (ECC)-based Multimedia Internet KEYing (MIKEY) and 16% compared to Certificateless online/offline signcryption (COOSC)
Certificateless-based Signcryption is an indispensable operation in mobile networksto guarantee secured message communication, reduce computation overhead and computation cost
Summary
With therapid progress in mobile communication networks, certificateless-based signcryption are under research and development stage. An access control scheme was designed in [1] using ceritificateless signcryption, achieving confidentiality, integrity and authentication. Another novel light weight ECC based key distribution model as designed in [2] measured the energy consumption and execution time with respect to each operation for resource constrained devices. Correct decisions regarding secure communications remained unaddressed To solve this issue, in [4], a Certificateless Multi Recipient Encryption Scheme (CL-MRES) was designed. The scheme collected data from hundreds of small sensors via dual channel strategy Another formal security model for certificateless signcryption scheme was presented in [5]
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