Cryptology Transmitted Message Protection
From Deterministic Chaos up to Optical Vortices
Nonfiction, Computers, Advanced Computing, Theory, Science & Nature, Technology, Telecommunications, General Computing
| Author: | Igor Izmailov, Boris Poizner, Ilia Romanov, Sergey Smolskiy | ISBN: | 9783319301259 |
| Publisher: | Springer International Publishing | Publication: | June 24, 2016 |
| Imprint: | Springer | Language: | English |
| Author: | Igor Izmailov, Boris Poizner, Ilia Romanov, Sergey Smolskiy |
| ISBN: | 9783319301259 |
| Publisher: | Springer International Publishing |
| Publication: | June 24, 2016 |
| Imprint: | Springer |
| Language: | English |
This book presents methods to improve information security for protected communication. It combines and applies interdisciplinary scientific engineering concepts, including cryptography, chaos theory, nonlinear and singular optics, radio-electronics and self-changing artificial systems. It also introduces additional ways to improve information security using optical vortices as information carriers and self-controlled nonlinearity, with nonlinearity playing a key "evolving" role. The proposed solutions allow the universal phenomenon of deterministic chaos to be discussed in the context of information security problems on the basis of examples of both electronic and optical systems. Further, the book presents the vortex detector and communication systems and describes mathematical models of the chaos oscillator as a coder in the synchronous chaotic communication and appropriate decoders, demonstrating their efficiency both analytically and experimentally. Lastly it discusses the cryptologic features of analyzed systems and suggests a series of new structures for confident communication.
This book presents methods to improve information security for protected communication. It combines and applies interdisciplinary scientific engineering concepts, including cryptography, chaos theory, nonlinear and singular optics, radio-electronics and self-changing artificial systems. It also introduces additional ways to improve information security using optical vortices as information carriers and self-controlled nonlinearity, with nonlinearity playing a key "evolving" role. The proposed solutions allow the universal phenomenon of deterministic chaos to be discussed in the context of information security problems on the basis of examples of both electronic and optical systems. Further, the book presents the vortex detector and communication systems and describes mathematical models of the chaos oscillator as a coder in the synchronous chaotic communication and appropriate decoders, demonstrating their efficiency both analytically and experimentally. Lastly it discusses the cryptologic features of analyzed systems and suggests a series of new structures for confident communication.
