Physical Principles of Wireless Communications, Second Edition
An Introduction to Modern Wireless Communications A Brief History of Wireless Communications Faraday, Maxwell, and Hertz: The Discovery of Electromagnetic Waves Guglielmo Marconi, Inventor of Wireless Communications Developments in the Vacuum Electronics Era (1906 to 1947) The Mo...
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| description | An Introduction to Modern Wireless Communications A Brief History of Wireless Communications Faraday, Maxwell, and Hertz: The Discovery of Electromagnetic Waves Guglielmo Marconi, Inventor of Wireless Communications Developments in the Vacuum Electronics Era (1906 to 1947) The Modern Era in Wireless Communications (1947 to the Present) Basic Concepts Information Capacity of a Communication Channel Antenna Fundamentals The Basic Layout of a Wireless Communications System Decibels and Link Budgets Characteristics of Some Modern Communication Systems Mobile Communications (Frequency Division Multiple Access, FDMA, and Trunking) Analog Cell Phone Systems Digital Cell Phone Systems (Time Division Multiple Access, TDMA, and Code Division Multiple Access, CDMA) Overview of Past, Present, and Future Cell Phone Systems Wireless Local Area Networks (WLANs) of Computers SATCOM Systems The Plan of This Book Problems BibliographyNoise in Wireless Communications Fundamental Noise Concepts Radiation Resistance and Antenna Efficiency Nyquist Noise Theorem, Antenna Temperature, and Receiver Noise Equivalent Circuit of Antenna and Receiver for Calculating Noise Contributions to Antenna Temperature Thermal Sources of Noise and Blackbody Radiation Cosmic Noise Atmospheric Noise Big Bang Noise (Cosmic Microwave Background Radiation) Noise Attenuation Noise in Specific Systems Noise in Pagers Noise in Cell Phones Noise in Millimeter-Wave SATCOM Problems BibliographyAntennas Brief Review of Electromagnetism Maxwell's Equations and Boundary Conditions Vector Potential, and the Inhomogeneous Helmholtz Equation Radiation from a Hertzian Dipole Solution of the Inhomogeneous Helmholtz Equation in the Vector Potential A Near Fields and
Far Fields of a Hertzian Dipole Basic Antenna Parameters Directive Gain, D(f,q); Directivity, D; and Gain, G Radiation Resistance of a Hertzian Dipole Antenna Electrically Short Dipole Antenna (Length Small Loop Antennas Receiving Antennas, Polarization, and Aperture Antennas Universal Relationship between Gain and Effective Area Friis Transmission Formula Polarization Mismatch A Brief Treatment of Aperture Antennas Thin-Wire Dipole Antennas General Analysis of Thin-Wire Dipole Antennas The Half-Wave Dipole Problems BibliographyAntenna Arrays Omnidirectional Rad |
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Far Fields of a Hertzian Dipole Basic Antenna Parameters Directive Gain, D(f,q); Directivity, D; and Gain, G Radiation Resistance of a Hertzian Dipole Antenna Electrically Short Dipole Antenna (Length Small Loop Antennas Receiving Antennas, Polarization, and Aperture Antennas Universal Relationship between Gain and Effective Area Friis Transmission Formula Polarization Mismatch A Brief Treatment of Aperture Antennas Thin-Wire Dipole Antennas General Analysis of Thin-Wire Dipole Antennas The Half-Wave Dipole Problems BibliographyAntenna Arrays Omnidirectional Radiation Pattern in the Horizontal Plane with Vertical Focusing Arrays of Half-Wave Dipoles Colinear Arrays Colinear arrays with Equal Incremental Phase Advance Elevation Control with a Phased Colinear Antenna Array Antennas Displaced in the Horizontal Plane Radiation Pattern of Two Horizontally Displaced Dipoles Broadside Arrays Endfire Arrays Smart Antenna Arrays Image Antennas The Principle of Images Quarter-Wave Monopole above a Conducting Plane Antennas for Handheld Cell Phones Half-Wave Dipoles and Reflectors Rectangular Microstrip Patch Antennas The TM10 Microstrip Patch Cavity Duality in Maxwell's Equations and Radiation from a Slot Radiation from the Edges of a Microstrip Cavity Array of Microstrip Patch Antennas Problems BibliographyRadio Frequency (RF) Wave Propagation Some Simple Models of Path Loss in Radio Frequency (RF) Wave Propagation Free Space Propagation Laws of Reflection and Refraction at a Planar Boundary Effect of Surface Roughness Plane Earth Propagation Model Diffraction over Single and Multiple Obstructions Diffraction by a Single Knife Edge Deygout Method of Approximately Treating Multiple Diffracting
Edges The Causebrook Correction to the Deygout Method Wave Propagation in an Urban Environment The Delisle/Egli Empirical Expression for Path Loss The Flat-Edge Model for Path Loss from the Base Station to the Final Street Ikegami Model of Excess Path Loss in the Final Street The Walfisch-Bertoni Analysis of the Parametric Dependence of Path Loss Problems BibliographyStatistical Considerations In Designing Cell Phone Systems and Wireless Local Area Networks (WLANs)A Brief Review of Statistical Analysis Random Variables Random Processes Shadowing The Log-Normal Probability Distribution Function The Complementary Cumulative Normal Distribution Function (Q Function) Calculating Margin and Probability of Call Completion Probability of Call Completion Averaged over a Cell Additional Signal Loss from Propagating into Buildings Shadowing Autocorrelation (Serial Correlation) Shadowing Cross-Correlation Slow and Fast Fading Slow Fading Rayleigh Fading Margin to Allow for Both Shadowing and Rayleigh Fading Bit Error Rates in Digital Communications Ricean Fading Doppler Broadening Wireless Local Area Networks (WLANs) Propagation Losses Inside Buildings Standards for WLANs Sharing WLAN Resources Problem BibliographyTropospheric and Ionospheric Effects in Long-Range Communications Extending the Range Using Tropospheric Refraction Limit on Line-of-Sight Communications Bouger's Law for Refraction by Tropospheric Layers Increase in Range Due to Tropospheric Refraction Long-Range Communications by Ionospheric Reflection The Ionospheric Plasma Radio Frequency (RF) Wave Interaction with Plasma Sample Calculations of Maximum Usable Frequency and Maximum Range in a Communications System Based on Ionospheric
ReflectionPropagation through the Ionosphere Time Delay of a Wave Passing through the Ionosphere Dispersion of a Wave Passing through the Ionosphere Faraday Rotation of the Direction of Polarization in the Ionosphere Problems BibliographySatellite Communications (SATCOM) Satellite Fundamentals Geosynchronous Earth Orbit (GEO) Example of a GEO SATCOM System SATCOM Signal Attenuation Attenuation Due to Atmospheric Gases Attenuation Due to Rain The Rain Rate Used in SATCOM System Design Design of GEO SATCOM Systems Noise Calculations for SATCOM Design of GEO SATCOM System for Wideband Transmission Medium Earth Orbit (MEO) Satellites Global Positioning System (GPS) General Relativity, Special Relativity, and the Synchronization of ClocksLow Earth Orbit (LEO) Communication Satellites The Iridium LEO SATCOM System Path Loss in LEO SATCOM Doppler Shift in LEO SATCOM Problem Bibliography Appendix A Appendix B Appendix C Nomenclature English Alphabet Greek Alphabet Index.</description><edition>2nd ed.</edition><identifier>ISBN: 9781439878972</identifier><identifier>ISBN: 1439878978</identifier><identifier>ISBN: 9781439879009</identifier><identifier>ISBN: 1439879001</identifier><identifier>EISBN: 9781439879009</identifier><identifier>EISBN: 1439879001</identifier><identifier>EISBN: 1466502282</identifier><identifier>EISBN: 9781466502284</identifier><identifier>OCLC: 858926086</identifier><identifier>LCCallNum: TK5103.2 .G74 2012eb</identifier><language>eng</language><publisher>Bosa Roca: CRC Press LLC</publisher><subject>Wireless communication systems</subject><creationdate>2012</creationdate><tpages>305</tpages><format>305</format><woscitedreferencessubscribed>false</woscitedreferencessubscribed></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>306,780,784,786,24760</link.rule.ids></links><search><creatorcontrib>Granatstein, Victor L</creatorcontrib><title>Physical Principles of Wireless Communications, Second Edition</title><description>An Introduction to Modern Wireless Communications A Brief History of Wireless Communications Faraday, Maxwell, and Hertz: The Discovery of Electromagnetic Waves Guglielmo Marconi, Inventor of Wireless Communications Developments in the Vacuum Electronics Era (1906 to 1947) The Modern Era in Wireless Communications (1947 to the Present) Basic Concepts Information Capacity of a Communication Channel Antenna Fundamentals The Basic Layout of a Wireless Communications System Decibels and Link Budgets Characteristics of Some Modern Communication Systems Mobile Communications (Frequency Division Multiple Access, FDMA, and Trunking) Analog Cell Phone Systems Digital Cell Phone Systems (Time Division Multiple Access, TDMA, and Code Division Multiple Access, CDMA) Overview of Past, Present, and Future Cell Phone Systems Wireless Local Area Networks (WLANs) of Computers SATCOM Systems The Plan of This Book Problems BibliographyNoise in Wireless Communications Fundamental Noise Concepts Radiation Resistance and Antenna Efficiency Nyquist Noise Theorem, Antenna Temperature, and Receiver Noise Equivalent Circuit of Antenna and Receiver for Calculating Noise Contributions to Antenna Temperature Thermal Sources of Noise and Blackbody Radiation Cosmic Noise Atmospheric Noise Big Bang Noise (Cosmic Microwave Background Radiation) Noise Attenuation Noise in Specific Systems Noise in Pagers Noise in Cell Phones Noise in Millimeter-Wave SATCOM Problems BibliographyAntennas Brief Review of Electromagnetism Maxwell's Equations and Boundary Conditions Vector Potential, and the Inhomogeneous Helmholtz Equation Radiation from a Hertzian Dipole Solution of the Inhomogeneous Helmholtz Equation in the Vector Potential A Near Fields and
Far Fields of a Hertzian Dipole Basic Antenna Parameters Directive Gain, D(f,q); Directivity, D; and Gain, G Radiation Resistance of a Hertzian Dipole Antenna Electrically Short Dipole Antenna (Length Small Loop Antennas Receiving Antennas, Polarization, and Aperture Antennas Universal Relationship between Gain and Effective Area Friis Transmission Formula Polarization Mismatch A Brief Treatment of Aperture Antennas Thin-Wire Dipole Antennas General Analysis of Thin-Wire Dipole Antennas The Half-Wave Dipole Problems BibliographyAntenna Arrays Omnidirectional Radiation Pattern in the Horizontal Plane with Vertical Focusing Arrays of Half-Wave Dipoles Colinear Arrays Colinear arrays with Equal Incremental Phase Advance Elevation Control with a Phased Colinear Antenna Array Antennas Displaced in the Horizontal Plane Radiation Pattern of Two Horizontally Displaced Dipoles Broadside Arrays Endfire Arrays Smart Antenna Arrays Image Antennas The Principle of Images Quarter-Wave Monopole above a Conducting Plane Antennas for Handheld Cell Phones Half-Wave Dipoles and Reflectors Rectangular Microstrip Patch Antennas The TM10 Microstrip Patch Cavity Duality in Maxwell's Equations and Radiation from a Slot Radiation from the Edges of a Microstrip Cavity Array of Microstrip Patch Antennas Problems BibliographyRadio Frequency (RF) Wave Propagation Some Simple Models of Path Loss in Radio Frequency (RF) Wave Propagation Free Space Propagation Laws of Reflection and Refraction at a Planar Boundary Effect of Surface Roughness Plane Earth Propagation Model Diffraction over Single and Multiple Obstructions Diffraction by a Single Knife Edge Deygout Method of Approximately Treating Multiple Diffracting
Edges The Causebrook Correction to the Deygout Method Wave Propagation in an Urban Environment The Delisle/Egli Empirical Expression for Path Loss The Flat-Edge Model for Path Loss from the Base Station to the Final Street Ikegami Model of Excess Path Loss in the Final Street The Walfisch-Bertoni Analysis of the Parametric Dependence of Path Loss Problems BibliographyStatistical Considerations In Designing Cell Phone Systems and Wireless Local Area Networks (WLANs)A Brief Review of Statistical Analysis Random Variables Random Processes Shadowing The Log-Normal Probability Distribution Function The Complementary Cumulative Normal Distribution Function (Q Function) Calculating Margin and Probability of Call Completion Probability of Call Completion Averaged over a Cell Additional Signal Loss from Propagating into Buildings Shadowing Autocorrelation (Serial Correlation) Shadowing Cross-Correlation Slow and Fast Fading Slow Fading Rayleigh Fading Margin to Allow for Both Shadowing and Rayleigh Fading Bit Error Rates in Digital Communications Ricean Fading Doppler Broadening Wireless Local Area Networks (WLANs) Propagation Losses Inside Buildings Standards for WLANs Sharing WLAN Resources Problem BibliographyTropospheric and Ionospheric Effects in Long-Range Communications Extending the Range Using Tropospheric Refraction Limit on Line-of-Sight Communications Bouger's Law for Refraction by Tropospheric Layers Increase in Range Due to Tropospheric Refraction Long-Range Communications by Ionospheric Reflection The Ionospheric Plasma Radio Frequency (RF) Wave Interaction with Plasma Sample Calculations of Maximum Usable Frequency and Maximum Range in a Communications System Based on Ionospheric
ReflectionPropagation through the Ionosphere Time Delay of a Wave Passing through the Ionosphere Dispersion of a Wave Passing through the Ionosphere Faraday Rotation of the Direction of Polarization in the Ionosphere Problems BibliographySatellite Communications (SATCOM) Satellite Fundamentals Geosynchronous Earth Orbit (GEO) Example of a GEO SATCOM System SATCOM Signal Attenuation Attenuation Due to Atmospheric Gases Attenuation Due to Rain The Rain Rate Used in SATCOM System Design Design of GEO SATCOM Systems Noise Calculations for SATCOM Design of GEO SATCOM System for Wideband Transmission Medium Earth Orbit (MEO) Satellites Global Positioning System (GPS) General Relativity, Special Relativity, and the Synchronization of ClocksLow Earth Orbit (LEO) Communication Satellites The Iridium LEO SATCOM System Path Loss in LEO SATCOM Doppler Shift in LEO SATCOM Problem Bibliography Appendix A Appendix B Appendix C Nomenclature English Alphabet Greek Alphabet Index.</description><subject>Wireless communication systems</subject><isbn>9781439878972</isbn><isbn>1439878978</isbn><isbn>9781439879009</isbn><isbn>1439879001</isbn><isbn>9781439879009</isbn><isbn>1439879001</isbn><isbn>1466502282</isbn><isbn>9781466502284</isbn><fulltext>true</fulltext><rsrctype>book</rsrctype><creationdate>2012</creationdate><recordtype>book</recordtype><sourceid>OODEK</sourceid><recordid>eNpVkEtLAzEUhSOiKLX_YRaiGwuZvLMRdKgPKFhQcTlkkhuMM53UyVT035vSLnR1zz3348I5B2iqpSoZ1UpqjPXhn11pSY7RqeJKE4GVOEHTlD4wxiVm2cSn6Hr5_pOCNV2xHEJvw7qDVERfvIUBskxFFVerTZ-JMcQ-XRXPYGPvirkLW-MMHXnTJZju5wS93s1fqofZ4un-sbpZzNqSajwDDcIpqrgXxPBGcsqEZRprkg9EOwYlWCO2mlJPnRPWc03AUu6dazydoIvd39SGrkvRj3UTY5sI-5Z100KOxMucNoPne9B4M4QdVX-R-l9HGbvcYeshfm4gjTVsSQv9OJiunt9WJWMSS0x_ASFBY5E</recordid><startdate>2012</startdate><enddate>2012</enddate><creator>Granatstein, Victor L</creator><general>CRC Press LLC</general><general>CRC Press</general><scope>OHILO</scope><scope>OODEK</scope></search><sort><creationdate>2012</creationdate><title>Physical Principles of Wireless Communications, Second Edition</title><author>Granatstein, Victor L</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-k1390-e9e6d8385f62a5b75346c490929e629d4e1eca6e62933f3dd6cf592ec35fddbf3</frbrgroupid><rsrctype>books</rsrctype><prefilter>books</prefilter><language>eng</language><creationdate>2012</creationdate><topic>Wireless communication systems</topic><toplevel>online_resources</toplevel><creatorcontrib>Granatstein, Victor L</creatorcontrib><collection>O'Reilly Online Learning: Corporate Edition</collection><collection>O'Reilly Online Learning: Academic/Public Library Edition</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Granatstein, Victor L</au><format>book</format><genre>book</genre><ristype>BOOK</ristype><btitle>Physical Principles of Wireless Communications, Second Edition</btitle><date>2012</date><risdate>2012</risdate><isbn>9781439878972</isbn><isbn>1439878978</isbn><isbn>9781439879009</isbn><isbn>1439879001</isbn><eisbn>9781439879009</eisbn><eisbn>1439879001</eisbn><eisbn>1466502282</eisbn><eisbn>9781466502284</eisbn><abstract>An Introduction to Modern Wireless Communications A Brief History of Wireless Communications Faraday, Maxwell, and Hertz: The Discovery of Electromagnetic Waves Guglielmo Marconi, Inventor of Wireless Communications Developments in the Vacuum Electronics Era (1906 to 1947) The Modern Era in Wireless Communications (1947 to the Present) Basic Concepts Information Capacity of a Communication Channel Antenna Fundamentals The Basic Layout of a Wireless Communications System Decibels and Link Budgets Characteristics of Some Modern Communication Systems Mobile Communications (Frequency Division Multiple Access, FDMA, and Trunking) Analog Cell Phone Systems Digital Cell Phone Systems (Time Division Multiple Access, TDMA, and Code Division Multiple Access, CDMA) Overview of Past, Present, and Future Cell Phone Systems Wireless Local Area Networks (WLANs) of Computers SATCOM Systems The Plan of This Book Problems BibliographyNoise in Wireless Communications Fundamental Noise Concepts Radiation Resistance and Antenna Efficiency Nyquist Noise Theorem, Antenna Temperature, and Receiver Noise Equivalent Circuit of Antenna and Receiver for Calculating Noise Contributions to Antenna Temperature Thermal Sources of Noise and Blackbody Radiation Cosmic Noise Atmospheric Noise Big Bang Noise (Cosmic Microwave Background Radiation) Noise Attenuation Noise in Specific Systems Noise in Pagers Noise in Cell Phones Noise in Millimeter-Wave SATCOM Problems BibliographyAntennas Brief Review of Electromagnetism Maxwell's Equations and Boundary Conditions Vector Potential, and the Inhomogeneous Helmholtz Equation Radiation from a Hertzian Dipole Solution of the Inhomogeneous Helmholtz Equation in the Vector Potential A Near Fields and
Far Fields of a Hertzian Dipole Basic Antenna Parameters Directive Gain, D(f,q); Directivity, D; and Gain, G Radiation Resistance of a Hertzian Dipole Antenna Electrically Short Dipole Antenna (Length Small Loop Antennas Receiving Antennas, Polarization, and Aperture Antennas Universal Relationship between Gain and Effective Area Friis Transmission Formula Polarization Mismatch A Brief Treatment of Aperture Antennas Thin-Wire Dipole Antennas General Analysis of Thin-Wire Dipole Antennas The Half-Wave Dipole Problems BibliographyAntenna Arrays Omnidirectional Radiation Pattern in the Horizontal Plane with Vertical Focusing Arrays of Half-Wave Dipoles Colinear Arrays Colinear arrays with Equal Incremental Phase Advance Elevation Control with a Phased Colinear Antenna Array Antennas Displaced in the Horizontal Plane Radiation Pattern of Two Horizontally Displaced Dipoles Broadside Arrays Endfire Arrays Smart Antenna Arrays Image Antennas The Principle of Images Quarter-Wave Monopole above a Conducting Plane Antennas for Handheld Cell Phones Half-Wave Dipoles and Reflectors Rectangular Microstrip Patch Antennas The TM10 Microstrip Patch Cavity Duality in Maxwell's Equations and Radiation from a Slot Radiation from the Edges of a Microstrip Cavity Array of Microstrip Patch Antennas Problems BibliographyRadio Frequency (RF) Wave Propagation Some Simple Models of Path Loss in Radio Frequency (RF) Wave Propagation Free Space Propagation Laws of Reflection and Refraction at a Planar Boundary Effect of Surface Roughness Plane Earth Propagation Model Diffraction over Single and Multiple Obstructions Diffraction by a Single Knife Edge Deygout Method of Approximately Treating Multiple Diffracting
Edges The Causebrook Correction to the Deygout Method Wave Propagation in an Urban Environment The Delisle/Egli Empirical Expression for Path Loss The Flat-Edge Model for Path Loss from the Base Station to the Final Street Ikegami Model of Excess Path Loss in the Final Street The Walfisch-Bertoni Analysis of the Parametric Dependence of Path Loss Problems BibliographyStatistical Considerations In Designing Cell Phone Systems and Wireless Local Area Networks (WLANs)A Brief Review of Statistical Analysis Random Variables Random Processes Shadowing The Log-Normal Probability Distribution Function The Complementary Cumulative Normal Distribution Function (Q Function) Calculating Margin and Probability of Call Completion Probability of Call Completion Averaged over a Cell Additional Signal Loss from Propagating into Buildings Shadowing Autocorrelation (Serial Correlation) Shadowing Cross-Correlation Slow and Fast Fading Slow Fading Rayleigh Fading Margin to Allow for Both Shadowing and Rayleigh Fading Bit Error Rates in Digital Communications Ricean Fading Doppler Broadening Wireless Local Area Networks (WLANs) Propagation Losses Inside Buildings Standards for WLANs Sharing WLAN Resources Problem BibliographyTropospheric and Ionospheric Effects in Long-Range Communications Extending the Range Using Tropospheric Refraction Limit on Line-of-Sight Communications Bouger's Law for Refraction by Tropospheric Layers Increase in Range Due to Tropospheric Refraction Long-Range Communications by Ionospheric Reflection The Ionospheric Plasma Radio Frequency (RF) Wave Interaction with Plasma Sample Calculations of Maximum Usable Frequency and Maximum Range in a Communications System Based on Ionospheric
ReflectionPropagation through the Ionosphere Time Delay of a Wave Passing through the Ionosphere Dispersion of a Wave Passing through the Ionosphere Faraday Rotation of the Direction of Polarization in the Ionosphere Problems BibliographySatellite Communications (SATCOM) Satellite Fundamentals Geosynchronous Earth Orbit (GEO) Example of a GEO SATCOM System SATCOM Signal Attenuation Attenuation Due to Atmospheric Gases Attenuation Due to Rain The Rain Rate Used in SATCOM System Design Design of GEO SATCOM Systems Noise Calculations for SATCOM Design of GEO SATCOM System for Wideband Transmission Medium Earth Orbit (MEO) Satellites Global Positioning System (GPS) General Relativity, Special Relativity, and the Synchronization of ClocksLow Earth Orbit (LEO) Communication Satellites The Iridium LEO SATCOM System Path Loss in LEO SATCOM Doppler Shift in LEO SATCOM Problem Bibliography Appendix A Appendix B Appendix C Nomenclature English Alphabet Greek Alphabet Index.</abstract><cop>Bosa Roca</cop><pub>CRC Press LLC</pub><oclcid>858926086</oclcid><tpages>305</tpages><edition>2nd ed.</edition></addata></record> |
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| title | Physical Principles of Wireless Communications, Second Edition |
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