Digital Signatures are viewed as the foundation of the online exchanges of the computerized world. They guarantee non repudiation for the activities of the sender and furthermore ensure security. Over some undefined time frame the digital signatures have developed and numerous enhancements have been finished by scientists to the standard plans. This paper develops an understanding of variants in accordance to their computational costs and response to attacks. The authors present a scheme which withstands the drawbacks of its predecessor the Jhong's digital signature, implements the solution and proves it to be sturdy with regard to computational costs as compared to other methods and also taking care of the attacks. The results depict the proposed scheme to be worthy either at signature generation, signature verification in terms of its computational costs or its ability to stand the attacks. Overall, the proposed scheme stands tall in all aspects.
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