Abstract
Certificateless Public Key Cryptography (CL-PKC) scheme is a new standard that combines Identity (ID)-based cryptography and tradi- tional PKC. It yields better security than the ID-based cryptography scheme without requiring digital certificates. In the CL-PKC scheme, as the Key Generation Center (KGC) generates a public key using a partial secret key, the need for authenticating the public key by a trusted third party is avoided. Due to the lack of authentication, the public key associated with the private key of a user may be replaced by anyone. Therefore, the ciphertext cannot be decrypted accurately. To mitigate this issue, an Enhanced Certificateless Proxy Signature (E-CLPS) is proposed to offer high security guarantee and requires minimum computational cost. In this work, the Hackman tool is used for detecting the dictionary attacks in the cloud. From the experimental analysis, it is observed that the proposed E-CLPS scheme yields better Attack Detection Rate, True Positive Rate, True Negative Rate and Minimum False Positives and False Negatives than the existing schemes.
Highlights
PKC is used in a wide range of security applications by providing convenient key exchange services and digital signature based authentication services
The Hackman tool is used for detecting the dictionary attacks in the cloud
The Extended Lexical Analyzer (ELA) reads and converts the word document into a code in the type of Pre-Compiled Header (PCH) file stored in Block Cipher Cryptographic Class (BCCC)
Summary
PKC is used in a wide range of security applications by providing convenient key exchange services and digital signature based authentication services. Many digital certificates have to be verified in a trust chain to obtain an authentic and valid public key This results in the increase in the communication and computational overheads. CL-PKC cryptographic scheme removes the key escrow issues This scheme requires high computational cost as it depends on the bilinear pairing scheme. In our previous research work, a new SE-CLPS scheme is proposed It solves the data security issues in the existing CLPS scheme by resisting the public key replacement and malicious KGC attacks. It offers high data security and requires minimum computational cost [11].
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