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| 1. Main Page |
| 2. Table of content |
| 3. Copyright | Copyright Dedication |
| 4. About Prentice Hall Professional Technical Reference | About Prentice Hall Professional Technical Reference |
| 5. Preface | Preface |
| 6. References | References |
| 7. Acknowledgments | Acknowledgments |
| 8. Chapter 1. Introduction | Chapter 1. Introduction |
| 9. 1.1 Home Environment | 1.1 Home Environment |
| 10. 1.2 Available Means of Transmission | 1.2 Available Means of Transmission |
| 11. 1.3 Chapter Summaries | 1.3 Chapter Summaries |
| 12. 1.4 References | 1.4 References |
| 13. Chapter 2. Twisted Pair | Chapter 2. Twisted Pair |
| 14. 2.1 Twisted Pair Cable | 2.1 Twisted Pair Cable |
| 15. 2.2 Twisted Pair Cable Channel Model | what is the height of a house that is 41 ft.by40ft. twisted piar physical transmission channel energy transfer matrix equivalent impedance |
| 16. 2.3 Noise Model | 2.3 Noise Model |
| 17. 2.4 Radio Frequency Interference | 2.4 Radio Frequency Interference |
| 18. 2.5 Channel Capacity | 2.5 Channel Capacity |
| 19. 2.6 MATLAB Files | 2.6 MATLAB Files |
| 20. 2.7 References | 2.7 References |
| 21. Chapter 3. Coaxial Cable | Chapter 3. Coaxial Cable |
| 22. 3.1 In-House TV Wiring | 3.1 In-House TV Wiring |
| 23. 3.2 Coaxial Cable Model | 3.2 Coaxial Cable Model |
| 24. 3.3 Splitters | 3.3 Splitters |
| 25. 3.4 Tap | 3.4 Tap |
| 26. 3.5 Cable TV Channel Allocation Scheme | 3.5 Cable TV Channel Allocation Scheme |
| 27. 3.6 Channel Model | 3.6 Channel Model |
| 28. 3.7 Noise Environment | 3.7 Noise Environment |
| 29. 3.8 Channel Capacity | 3.8 Channel Capacity |
| 30. 3.9 MATLAB Files | 3.9 MATLAB Files |
| 31. 3.10 References | 3.10 References |
| 32. Chapter 4. Electrical Wiring | Chapter 4. Electrical Wiring |
| 33. 4.1 In-House Electrical Wiring Cable | 4.1 In-House Electrical Wiring Cable |
| 34. 4.2 In-House Electrical Wiring Model | 4.2 In-House Electrical Wiring Model |
| 35. 4.3 Electromagnetic Emission and Power Spectrum Density | 4.3 Electromagnetic Emission and Power Spectrum Density |
| 36. 4.4 Noise Environment | 4.4 Noise Environment |
| 37. 4.5 Channel Capacity | 4.5 Channel Capacity |
| 38. 4.6 Matlab Files | 4.6 Matlab Files |
| 39. 4.7 References | 4.7 References |
| 40. Chapter 5. Radio Wave | Chapter 5. Radio Wave |
| 41. 5.1 Available Radio Frequency Spectra | 5.1 Available Radio Frequency Spectra |
| 42. 5.2 Indoor Radio Environment | 5.2 Indoor Radio Environment |
| 43. 5.3 Channel Attenuation Model | 5.3 Channel Attenuation Model |
| 44. 5.4 Channel Impulse Response Model | 5.4 Channel Impulse Response Model |
| 45. 5.5 Noise Level | 5.5 Noise Level |
| 46. 5.6 Channel Capacity Calculation | 5.6 Channel Capacity Calculation |
| 47. 5.7 MATLABSimulink Models | 5.7 MATLABSimulink Models |
| 48. 5.8 References | 5.8 References |
| 49. Chapter 6. Ethernet | Chapter 6. Ethernet |
| 50. 6.1 Media Access and Control Protocol | 6.1 Media Access and Control Protocol |
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Authors: Chen W. Y. ISBN: 0130165115 Current page: 1 from 97 This Read books online free are presented on flylib.comOur library present to you materials from book Home Network Basis(c) Transmission Environments and Wired/Wireless Protocols. Warning! The page Table of content from this book is informational only! Do not print out this page! Do NOT SUBMIT this page as part of your website or work without confirmation from the authors. You can read the contents of the book, but we strongly recommend that you purchase. or example, you can Buy this book on Amazon.com |