Home Network Basis: Transmission Environments and Wired/Wireless Protocols |
By Walter Y. Chen |
| |
Publisher | : Prentice Hall PTR |
Pub Date | : July 11, 2003 |
ISBN | : 0-13-016511-5 |
Pages | : 576 |
| | Copyright |
| | About Prentice Hall Professional Technical Reference |
| | Preface |
| | | References |
|
| | Acknowledgments |
| | Chapter 1. Introduction |
| | | Section 1.1. Home Environment |
| | | Section 1.2. Available Means of Transmission |
| | | Section 1.3. Chapter Summaries |
| | | Section 1.4. References |
|
| | Chapter 2. Twisted Pair |
| | | Section 2.1. Twisted Pair Cable |
| | | Section 2.2. Twisted Pair Cable Channel Model |
| | | Section 2.3. Noise Model |
| | | Section 2.4. Radio Frequency Interference |
| | | Section 2.5. Channel Capacity |
| | | Section 2.6. MATLAB Files |
| | | Section 2.7. References |
|
| | Chapter 3. Coaxial Cable |
| | | Section 3.1. In-House TV Wiring |
| | | Section 3.2. Coaxial Cable Model |
| | | Section 3.3. Splitters |
| | | Section 3.4. Tap |
| | | Section 3.5. Cable TV Channel Allocation Scheme |
| | | Section 3.6. Channel Model |
| | | Section 3.7. Noise Environment |
| | | Section 3.8. Channel Capacity |
| | | Section 3.9. MATLAB Files |
| | | Section 3.10. References |
|
| | Chapter 4. Electrical Wiring |
| | | Section 4.1. In-House Electrical Wiring Cable |
| | | Section 4.2. In-House Electrical Wiring Model |
| | | Section 4.3. Electromagnetic Emission and Power Spectrum Density |
| | | Section 4.4. Noise Environment |
| | | Section 4.5. Channel Capacity |
| | | Section 4.6. Matlab Files |
| | | Section 4.7. References |
|
| | Chapter 5. Radio Wave |
| | | Section 5.1. Available Radio Frequency Spectra |
| | | Section 5.2. Indoor Radio Environment |
| | | Section 5.3. Channel Attenuation Model |
| | | Section 5.4. Channel Impulse Response Model |
| | | Section 5.5. Noise Level |
| | | Section 5.6. Channel Capacity Calculation |
| | | Section 5.7. MATLAB/Simulink Models |
| | | Section 5.8. References |
|
| | Chapter 6. Ethernet |
| | | Section 6.1. Media Access and Control Protocol |
| | | Section 6.2. 10BaseT |
| | | Section 6.3. 100BaseT4 |
| | | Section 6.4. 100BaseTX |
| | | Section 6.5. 100BaseT2 |
| | | Section 6.6. Autonegotiation |
| | | Section 6.7. Media Independent Interface |
| | | Section 6.8. MATLAB Files |
| | | Section 6.9. References |
|
| | Chapter 7. HomePNA |
| | | Section 7.1. HomePNA 1.0 |
| | | Section 7.2. HomePNA 2.0 QAM |
| | | Section 7.3. MATLAB Files |
| | | Section 7.4. References |
|
| | Chapter 8. FireWire |
| | | Section 8.1. Arbitration Protocol |
| | | Section 8.2. 1394-1995 Cable Physical Layer Attributes |
| | | Section 8.3. Highlights of 1394b |
| | | Section 8.4. 1394b Twisted Cable Physical Layer Attributes |
| | | Section 8.5. MATLAB Files |
| | | Section 8.6. References |
|
| | Chapter 9. X-10, CEBus, HomePlug |
| | | Section 9.1. X-10 |
| | | Section 9.2. CEBus |
| | | Section 9.3. HomePlug |
| | | Section 9.4. MATLAB Files |
| | | Section 9.5. References |
|
| | Chapter 10. Wireless Ethernet |
| | | Section 10.1. Media Access Control Protocol |
| | | Section 10.2. Frequency-Hopping Spread Spectrum |
| | | Section 10.3. Direct Sequence Spread Spectrum |
| | | Section 10.4. Complementary Code Keying |
| | | Section 10.5. Orthogonal Frequency Division Multiplexing |
| | | Section 10.6. MATLAB Files |
| | | Section 10.7. References |
|
| | Chapter 11. HomeRF |
| | | Section 11.1. Media Access Control Basics |
| | | Section 11.2. HomeRF 1.0 Physical Layer Attributes |
| | | Section 11.3. Highlights of HomeRF 2.0 |
| | | Section 11.4. Reference |
|
| | Chapter 12. Home Networking Protocols |
| | | Section 12.1. Broadband Internet Access |
| | | Section 12.2. Peer-to-Peer Networking |
| | | Section 12.3. Network Address Translation |
| | | Section 12.4. MAC Bridging |
| | | Section 12.5. References |
|
| | About the Author |