'Compared to other books, Wave Theory of Information takes a different approach to information theory. It does so by presenting the relationship between information theory and the physics of wave propagation, using electromagnetic waves to describe the representation and communication of information … a textbook for a graduate course in communication and information theory, [it] is intended for PhD students and researchers in electrical engineering.' Edward S. Krebes, The Leading Edge

1. Introduction; 2. Signals; 3. Functional approximation; 4. Electromagnetic propagation; 5. Deterministic representations; 6. Stochastic representations; 7. Communication technologies; 8. The space-wave number domain; 9. The time-frequency domain; 10. Multiple scattering theory; 11. Noise processes; 12. Information-theoretic quantities; 13. Universal information bounds; Appendix A. Elements of functional analysis; Appendix B. Vector calculus; Appendix C. Methods for the asymptotic evaluation of integrals; Appendix D. Stochastic integration; Appendix E. Special functions; Appendix F. Electromagnetic spectrum; References; Index.