Learn the key concepts and get hands-on experience with this step-by-step guide to constructing a fully functioning software receiver.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
C. Richard Johnson, Jr is the Geoffrey S. M. Hedrick Senior Professor of Engineering at Cornell University, where he has been on the faculty since 1981. He is a Fellow of the IEEE and co-author of Telecommunication Breakdown (2004, with William A. Sethares) and Theory and Design of Adaptive Filters (2001).
Inhaltsangabe
Part I. The Big Picture: 1. A digital radio Part II. The Basic Components: 2. A telecommunication system 3. The six elements Part III. The Idealized System: 4. Funny things 5. Analog (de)modulation 6. Sampling with automatic gain control 7. Digital filtering and the DFT 8. Bits to symbols to signals 9. Stuff happens Part IV. The Adaptive Components: 10. Carrier recovery 11. Pulse shaping and receive filtering 12. Timing recovery 13. Linear equalization 14. Coding Part V. Putting it All Together: 15. Make it so A. Transforms, identities, and formulas B. Simulating noise C. Envelope of a bandpass signal D. Relating the Fourier transform to the DFT E. Power spectral density F. The Z-transform: difference equations, frequency responses, open eyes, and loops G. Averages and averaging H. The B3IG transmitter.
Part I. The Big Picture: 1. A digital radio Part II. The Basic Components: 2. A telecommunication system 3. The six elements Part III. The Idealized System: 4. Funny things 5. Analog (de)modulation 6. Sampling with automatic gain control 7. Digital filtering and the DFT 8. Bits to symbols to signals 9. Stuff happens Part IV. The Adaptive Components: 10. Carrier recovery 11. Pulse shaping and receive filtering 12. Timing recovery 13. Linear equalization 14. Coding Part V. Putting it All Together: 15. Make it so A. Transforms, identities, and formulas B. Simulating noise C. Envelope of a bandpass signal D. Relating the Fourier transform to the DFT E. Power spectral density F. The Z-transform: difference equations, frequency responses, open eyes, and loops G. Averages and averaging H. The B3IG transmitter.
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