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"This book offers a mathematical foundation for modern cryptography. It is primarily intended as an introduction for graduate students. Readers should have a basic knowledge of probability theory, but familiarity with computational complexity is not required. Starting from Shannon's classic result on secret key cryptography, fundamental topics of cryptography, such as the secret key agreement, authentication, secret sharing, and secure computation, are covered. Particular attention is drawn to how correlated randomness can be used to construct cryptographic primitives"--
Describes the principles of information theoretic secrecy generation by legitimate parties with public discussion in the presence of an eavesdropper. The focus is on secrecy generation in two settings: a multiterminal source model and a multiterminal channel model.
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