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· 제목 : Fundamentals of Communications Systems (Hardcover) 
· 분류 : 외국도서 > 기술공학 > 기술공학 > 텔레커뮤니케이션
· ISBN : 9780071482806
· 쪽수 : 672쪽
· 분류 : 외국도서 > 기술공학 > 기술공학 > 텔레커뮤니케이션
· ISBN : 9780071482806
· 쪽수 : 672쪽
목차
Preface
Acknowledgments
Chapter 1: Introduction
Part 1: Mathematical Foundations
Chapter 2: Signals and Systems Review
Chapter 3: Review of Probability and Random Variables
Chapter 4: Complex Baseband Representation of Bandpass Signals
Part 2: Analog Communication
Chapter 5: Analog Communications Basic
Chapter 6: Amplitude Modulation
Chapter 7: Analog Angle Modulation
Chapter 8: More Topics in Analog Communications
Part 3: Noise in Communications Systems
Chapter 9: Random Processes
Chapter 10: Noise in Bandpass Communication Systems
Chapter 11: Fidelity in Analog Demodulation
Part 4: Fundamentals of Digital Communication
Chapter 12: Digital Communication Basics
Chapter 13: Optimal Single Bit Demodulation Structures
Chapter 14: Transmitting More Than One Bit
Chapter 15: Managing the Complexity of Optimum Demodulation
Chapter 16: Spectrality Efficient Data Transmission
Chapter 17: Orthogonal Modulations with Memory
Appendix A: Useful Formulas
Appendix B: Notation
Appendix C: Acronyms
Appendix D: Fourier Transforms: f versus w
Appendix E: Further Reading and Bibliography
Index
Chapter 1: Introduction
Part 1: Mathematical Foundations
Chapter 2: Signals and Systems Review
Chapter 3: Review of Probability and Random Variables
Chapter 4: Complex Baseband Representation of Bandpass Signals
Part 2: Analog Communication
Chapter 5: Analog Communications Basic
Chapter 6: Amplitude Modulation
Chapter 7: Analog Angle Modulation
Chapter 8: More Topics in Analog Communications
Part 3: Noise in Communications Systems
Chapter 9: Random Processes
Chapter 10: Noise in Bandpass Communication Systems
Chapter 11: Fidelity in Analog Demodulation
Part 4: Fundamentals of Digital Communication
Chapter 12: Digital Communication Basics
Chapter 13: Optimal Single Bit Demodulation Structures
Chapter 14: Transmitting More Than One Bit
Chapter 15: Managing the Complexity of Optimum Demodulation
Chapter 16: Spectrality Efficient Data Transmission
Chapter 17: Orthogonal Modulations with Memory
Appendix A: Useful Formulas
Appendix B: Notation
Appendix C: Acronyms
Appendix D: Fourier Transforms: f versus w
Appendix E: Further Reading and Bibliography
Index
Chapter 2: Signals and Systems Review
Chapter 3: Review of Probability and Random Variables
Chapter 4: Complex Baseband Representation of Bandpass Signals
Part 2: Analog Communication
Chapter 5: Analog Communications Basic
Chapter 6: Amplitude Modulation
Chapter 7: Analog Angle Modulation
Chapter 8: More Topics in Analog Communications
Part 3: Noise in Communications Systems
Chapter 9: Random Processes
Chapter 10: Noise in Bandpass Communication Systems
Chapter 11: Fidelity in Analog Demodulation
Part 4: Fundamentals of Digital Communication
Chapter 12: Digital Communication Basics
Chapter 13: Optimal Single Bit Demodulation Structures
Chapter 14: Transmitting More Than One Bit
Chapter 15: Managing the Complexity of Optimum Demodulation
Chapter 16: Spectrality Efficient Data Transmission
Chapter 17: Orthogonal Modulations with Memory
Appendix A: Useful Formulas
Appendix B: Notation
Appendix C: Acronyms
Appendix D: Fourier Transforms: f versus w
Appendix E: Further Reading and Bibliography
Index
Chapter 4: Complex Baseband Representation of Bandpass Signals
Part 2: Analog Communication
Chapter 5: Analog Communications Basic
Chapter 6: Amplitude Modulation
Chapter 7: Analog Angle Modulation
Chapter 8: More Topics in Analog Communications
Part 3: Noise in Communications Systems
Chapter 9: Random Processes
Chapter 10: Noise in Bandpass Communication Systems
Chapter 11: Fidelity in Analog Demodulation
Part 4: Fundamentals of Digital Communication
Chapter 12: Digital Communication Basics
Chapter 13: Optimal Single Bit Demodulation Structures
Chapter 14: Transmitting More Than One Bit
Chapter 15: Managing the Complexity of Optimum Demodulation
Chapter 16: Spectrality Efficient Data Transmission
Chapter 17: Orthogonal Modulations with Memory
Appendix A: Useful Formulas
Appendix B: Notation
Appendix C: Acronyms
Appendix D: Fourier Transforms: f versus w
Appendix E: Further Reading and Bibliography
Index
Chapter 5: Analog Communications Basic
Chapter 6: Amplitude Modulation
Chapter 7: Analog Angle Modulation
Chapter 8: More Topics in Analog Communications
Part 3: Noise in Communications Systems
Chapter 9: Random Processes
Chapter 10: Noise in Bandpass Communication Systems
Chapter 11: Fidelity in Analog Demodulation
Part 4: Fundamentals of Digital Communication
Chapter 12: Digital Communication Basics
Chapter 13: Optimal Single Bit Demodulation Structures
Chapter 14: Transmitting More Than One Bit
Chapter 15: Managing the Complexity of Optimum Demodulation
Chapter 16: Spectrality Efficient Data Transmission
Chapter 17: Orthogonal Modulations with Memory
Appendix A: Useful Formulas
Appendix B: Notation
Appendix C: Acronyms
Appendix D: Fourier Transforms: f versus w
Appendix E: Further Reading and Bibliography
Index
Chapter 7: Analog Angle Modulation
Chapter 8: More Topics in Analog Communications
Part 3: Noise in Communications Systems
Chapter 9: Random Processes
Chapter 10: Noise in Bandpass Communication Systems
Chapter 11: Fidelity in Analog Demodulation
Part 4: Fundamentals of Digital Communication
Chapter 12: Digital Communication Basics
Chapter 13: Optimal Single Bit Demodulation Structures
Chapter 14: Transmitting More Than One Bit
Chapter 15: Managing the Complexity of Optimum Demodulation
Chapter 16: Spectrality Efficient Data Transmission
Chapter 17: Orthogonal Modulations with Memory
Appendix A: Useful Formulas
Appendix B: Notation
Appendix C: Acronyms
Appendix D: Fourier Transforms: f versus w
Appendix E: Further Reading and Bibliography
Index
Part 3: Noise in Communications Systems
Chapter 9: Random Processes
Chapter 10: Noise in Bandpass Communication Systems
Chapter 11: Fidelity in Analog Demodulation
Part 4: Fundamentals of Digital Communication
Chapter 12: Digital Communication Basics
Chapter 13: Optimal Single Bit Demodulation Structures
Chapter 14: Transmitting More Than One Bit
Chapter 15: Managing the Complexity of Optimum Demodulation
Chapter 16: Spectrality Efficient Data Transmission
Chapter 17: Orthogonal Modulations with Memory
Appendix A: Useful Formulas
Appendix B: Notation
Appendix C: Acronyms
Appendix D: Fourier Transforms: f versus w
Appendix E: Further Reading and Bibliography
Index
Chapter 10: Noise in Bandpass Communication Systems
Chapter 11: Fidelity in Analog Demodulation
Part 4: Fundamentals of Digital Communication
Chapter 12: Digital Communication Basics
Chapter 13: Optimal Single Bit Demodulation Structures
Chapter 14: Transmitting More Than One Bit
Chapter 15: Managing the Complexity of Optimum Demodulation
Chapter 16: Spectrality Efficient Data Transmission
Chapter 17: Orthogonal Modulations with Memory
Appendix A: Useful Formulas
Appendix B: Notation
Appendix C: Acronyms
Appendix D: Fourier Transforms: f versus w
Appendix E: Further Reading and Bibliography
Index
Part 4: Fundamentals of Digital Communication
Chapter 12: Digital Communication Basics
Chapter 13: Optimal Single Bit Demodulation Structures
Chapter 14: Transmitting More Than One Bit
Chapter 15: Managing the Complexity of Optimum Demodulation
Chapter 16: Spectrality Efficient Data Transmission
Chapter 17: Orthogonal Modulations with Memory
Appendix A: Useful Formulas
Appendix B: Notation
Appendix C: Acronyms
Appendix D: Fourier Transforms: f versus w
Appendix E: Further Reading and Bibliography
Index
Chapter 13: Optimal Single Bit Demodulation Structures
Chapter 14: Transmitting More Than One Bit
Chapter 15: Managing the Complexity of Optimum Demodulation
Chapter 16: Spectrality Efficient Data Transmission
Chapter 17: Orthogonal Modulations with Memory
Appendix A: Useful Formulas
Appendix B: Notation
Appendix C: Acronyms
Appendix D: Fourier Transforms: f versus w
Appendix E: Further Reading and Bibliography
Index
Chapter 15: Managing the Complexity of Optimum Demodulation
Chapter 16: Spectrality Efficient Data Transmission
Chapter 17: Orthogonal Modulations with Memory
Appendix A: Useful Formulas
Appendix B: Notation
Appendix C: Acronyms
Appendix D: Fourier Transforms: f versus w
Appendix E: Further Reading and Bibliography
Index
Chapter 17: Orthogonal Modulations with Memory
Appendix A: Useful Formulas
Appendix B: Notation
Appendix C: Acronyms
Appendix D: Fourier Transforms: f versus w
Appendix E: Further Reading and Bibliography
Index
Appendix B: Notation
Appendix C: Acronyms
Appendix D: Fourier Transforms: f versus w
Appendix E: Further Reading and Bibliography
Index
Appendix D: Fourier Transforms: f versus w
Appendix E: Further Reading and Bibliography
Index
Index
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