Software Implementation of Elliptic Curve Digital Signature Algorithm

Software Implementation of Elliptic Curve Digital Signature Algorithm

EnglishPaperback / softback
Sanda, Pankaj Kumar
LAP Lambert Academic Publishing
EAN: 9786206148111
On order
Delivery on Monday, 13. of January 2025
CZK 1,162
Common price CZK 1,291
Discount 10%
pc
Do you want this product today?
Oxford Bookshop Praha Korunní
not available
Librairie Francophone Praha Štěpánská
not available
Oxford Bookshop Ostrava
not available
Oxford Bookshop Olomouc
not available
Oxford Bookshop Plzeň
not available
Oxford Bookshop Brno
not available
Oxford Bookshop Hradec Králové
not available
Oxford Bookshop České Budějovice
not available
Oxford Bookshop Liberec
not available

Detailed information

The Elliptic Curve Digital Signature Algorithm (ECDSA) consists of two modules: one is the signing algorithm used by a signer and the second one is the verification algorithm used by public to verify the signer's identity. A person who wants to sign a message digitally uses the signing algorithm, which first makes a message digest (hash) of the message using a suitable hash function (SHA-1) and then the message digest is encrypted using the signer's private key. The encrypted message digest is the "Digital Signature" of the sender on that message. Anyone can verify whether that "Digital Signature" is authentic or not by using verification algorithm. At first a message digest of the signer's message is created using the identical hash function (SHA-1). The verifier then decrypts the ciphered hash output using the signer's public key. If the ciphered hash output and the message digest created by the verifier are found to be identical, the signer's authenticity is proved. During the period of project duration, a java application program has been written in which the ECDSA functionality of both signing and verification is provided.
EAN 9786206148111
ISBN 6206148114
Binding Paperback / softback
Publisher LAP Lambert Academic Publishing
Publication date March 1, 2023
Pages 80
Language English
Dimensions 229 x 152 x 5
Authors Mukherjee, Debasis; Sanda, Pankaj Kumar