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OverviewFull Product DetailsAuthor: Robert G. UnderwoodPublisher: Springer Nature Switzerland AG Imprint: Springer Nature Switzerland AG Edition: 1st ed. 2022 Weight: 0.625kg ISBN: 9783030979041ISBN 10: 3030979040 Pages: 319 Publication Date: 16 July 2022 Audience: Professional and scholarly , Professional & Vocational Format: Paperback Publisher's Status: Active Availability: Manufactured on demand We will order this item for you from a manufactured on demand supplier. Table of ContentsReviewsOne of the strengths of the book is the exercises. ... The exercises not only test the student's knowledge of the material in the chapter, but are fun to work on. ... Cryptography for Secure Encryption is an interesting theoretical book for mathematics and computer science students with solid backgrounds in mathematics. The exercises make the book very appealing. (Margaret B. Cozzens, MAA Reviews, January 29, 2023) “Each chapter contains a set of exercises of various degrees of difficulty that help summarize and review the main ideas of the chapter. The author finds that cryptographic algorithms and protocols provide good programming problems. In most of the places in the text, the author includes the GAP code for a better understanding of the subject in practical use. This book is self-contained and valuable to all audiences interested in cyber security subject.” (Manish Kumar, zbMATH 1502.94004, 2023) “One of the strengths of the book is the exercises. … The exercises not only test the student’s knowledge of the material in the chapter, but are fun to work on. … Cryptography for Secure Encryption is an interesting theoretical book for mathematics and computer science students with solid backgrounds in mathematics. The exercises make the book very appealing.” (Margaret B. Cozzens, MAA Reviews, January 29, 2023) Author Information"Robert G. Underwood is a Professor in both the Department of Mathematics and the Department of Computer Science in the College of Sciences at Auburn University at Montgomery. His research in mathematics involves the classification of Hopf orders in group rings and the application of Hopf orders to Galois module theory. His interests in Computer Science include cryptography and automata theory, specifically, algebraic generalizations of the Myhill-Nerode theorem. Professor Underwood is the author of “Fundamentals of Hopf Algebras” and “An Introduction to Hopf Algebras."" " Tab Content 6Author Website:Countries AvailableAll regions |