Aftab Ahmad
Wireless Mobile Data Networks
Aftab Ahmad
Wireless Mobile Data Networks
- Gebundenes Buch
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
Wireless and Mobile Data Networks provides a single point of knowledge about wireless data technologies, including: _ Comprehensive easy-to understand resource on wireless data technologies _ Includes wireless media, data transmission via cellular networks, and network security _ Provides a single point of knowledge about wireless data _ Focuses on wireless data networks, wireless channels, wireless local networks, wide area cellular networks and wireless network security
Andere Kunden interessierten sich auch für
- Axel SikoraWireless Personal and Local Area Networks160,99 €
- Ray E. Sheriff / Y. Fun Hu / Giacinto Losquadro / Paolo Conforto / Clementina Tocci (Hgg.)Space/Terrestrial Mobile Networks206,99 €
- James F. DeRoseThe Wireless Data Handbook251,99 €
- Ivan Stojmenovic (Hrsg.)Handbook of Wireless Networks and Mobile Computing258,99 €
- Paolo SantiTopology Control in Wireless AD Hoc and Sensor Networks140,99 €
- Benny BingWireless LANs146,99 €
- Gilbert HeldSecuring Wireless LANs136,99 €
-
-
-
Wireless and Mobile Data Networks provides a single point of knowledge about wireless data technologies, including:
_ Comprehensive easy-to understand resource on wireless data technologies
_ Includes wireless media, data transmission via cellular networks, and network security
_ Provides a single point of knowledge about wireless data
_ Focuses on wireless data networks, wireless channels, wireless local networks, wide area cellular networks and wireless network security
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
_ Comprehensive easy-to understand resource on wireless data technologies
_ Includes wireless media, data transmission via cellular networks, and network security
_ Provides a single point of knowledge about wireless data
_ Focuses on wireless data networks, wireless channels, wireless local networks, wide area cellular networks and wireless network security
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Wiley-Interscience
- Verlag: Wiley & Sons
- Artikelnr. des Verlages: 14667075000
- 1. Auflage
- Seitenzahl: 376
- Erscheinungstermin: 1. Juni 2005
- Englisch
- Abmessung: 240mm x 161mm x 25mm
- Gewicht: 640g
- ISBN-13: 9780471670759
- ISBN-10: 0471670758
- Artikelnr.: 12987332
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
- Wiley-Interscience
- Verlag: Wiley & Sons
- Artikelnr. des Verlages: 14667075000
- 1. Auflage
- Seitenzahl: 376
- Erscheinungstermin: 1. Juni 2005
- Englisch
- Abmessung: 240mm x 161mm x 25mm
- Gewicht: 640g
- ISBN-13: 9780471670759
- ISBN-10: 0471670758
- Artikelnr.: 12987332
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- 06621 890
AFTAB AHMAD received his DSc in communications from The George Washington University. Currently, he is Associate Professor of Computer Science at Norfolk State University. He has published a number of research papers and a book, Data Communication Principles: For Fixed and Wireless Networks. His current research involves ad hoc network routing, wireless network planning, Quality of Service (QoS)-based call control in IP radio access networks (IP-RAN), and QoS routing with IP.
PREFACE.
ACKNOWLEDGMENTS.
1. WIRELESS DATA-INTRODUCTION.
1.1. Wireless Voice.
1.2. Wireless Local Area Networks (WLANs).
1.3. Wide Area Cellular Networks.
1.4. Fixed Wireless Networks.
1.5. Personal Area Networks.
1.6. Satellite-Based Data Networks.
1.7. Mobile IP.
1.8. The Wireless Spectrum.
2. REFERENCE ARCHITECTURES FOR WIRELESS DATA NETWORKS.
2.1. Bluetooth.
2.2. IEEE 802.11.
2.3. HIPERLAN/2.
2.4. Broadband Wireless Access Networks.
2.5. Cellular Data Networks.
2.6. Summary.
3. COMPONENTS OF A WIRELESS LAN.
3.1. Local Area Networks (LANs).
3.2. Wireless LAN Components.
4. WLANs: THE PHYSICAL LAYER.
4.1. IEEE 802.11 Standards Suite.
4.2. Interference Rejection Using Barker Sequence, OFDM and CCK.
4.3. HIPERLAN PHY.
4.4. Summary.
5. WLANs: MEDIUM ACCESS CONTROL.
5.1. IEEE 802.11 Medium Access Control.
5.2. IEEE 802.11e factor.
5.3. Routing and Mobility Support.
5.4. MAC Layer Management.
5.5. MAC Frames.
5.6. Multicasting Capability.
5.7. HIPERLAN MAC.
5.8. HIPERLAN 2.
5.9. User and Data Privacy.
5.10. Power Management.
5.11. Multimedia Services.
5.12. Routing.
5.13. Mobility Support.
5.14. MAC Frame.
5.15. Teleconferencing Capability.
5.16. Data Link Control (DLC) Layer.
6. MOBILITY AND INTERNET PROTOCOLS.
6.1. Mobility in Internet Applications.
6.2. Internet Protocols for Mobility.
6.3. Session Initiation Protocol (SIP).
6.4. Mobile IP.
6.5. Mobility Management in an Access Network.
6.6. Cellular IP.
6.7. IPv6 and Mobility Management.
7. DATA COMMUNICATIONS IN CELLULAR NETWORKS: CDMA2000.
7.1. Business Wireless Data Networks.
7.2. Cellular Data Networks.
7.3. Release D for cdma2000 Based Access.
7.4. cdma2000 Standard.
7.5. cdma2000 Medium Access Control.
7.6. All-IP Architecture.
7.7. Summary.
8. DATA COMMUNICATIONS IN CELLULAR NETWORKS: W-CDMA.
8.1. Components of the UMTS Network.
8.2. UMTS Network Domains.
8.3. Strata.
8.4. Radio Access Network (RAN).
8.5. UMTS Services.
8.6. Improvements Over Release 99.
8.7. IMS System Concepts.
8.8. Session Layer Architecture.
8.9. Open Service Access (OSA).
8.10. Parlay.
8.11. IPv4/IPv6 Scenarios Towards All-IP Infrastructure.
8.12. 3GPP Release 6 Objectives.
8.13. Summary.
9. SECURITY IN WIRELESS DATA NETWORKS.
9.1. Ascribing Security to a Network.
9.2. Security Network Architecture.
9.3. Secure Operating System (SOS).
9.4. Components of Security System.
9.5. Wireline Equivalent Privacy (WEP).
9.6. Wi-Fi Protected Access (WPA).
9.7. IEEE 802.11i.
9.8. Security in Cellular Networks.
9.9. Final Word.
10. ROUTING IN WIRELESS LANs.
10.1. Routing in Infrastructure Networks.
10.2. Ad Hoc Wireless Networks.
10.3. Characteristics of a Good Routing Protocol.
10.4. Classifications of Routing Protocols.
10.5. Routing Phases.
10.6. Routing Mechanisms.
10.7. Performance Comparison.
10.8. Multicasting.
10.9. Dynamic Source Routing (DSR) Protocol.
10.10. Selecting the Best Route.
10.11. WLAN Routing Through Cellular Network Infrastructure.
10.12. Routing in Personal Area Networks.
10.13. Summary.
11. WIRELESS PERSONAL AREA NETWORKS AND ULTRAWIDE BAND COMMUNICATIONS.
11.1. Wireless Personal Area Networks (WPANs).
11.2. Terminology for WPANs.
11.3. IEEE 802.15.1 Standard.
11.4. Higher Data Rate PANs (IEEE 802.15.3).
11.5. Ultra Wideband (UWB) Spectrum.
11.6. Low Data Rate WPANs (LR-WPANs) and IEEE 802.15.4.
11.7. Summary.
12. BROADBAND WIRELESS ACCESS (BWA).
12.1. Line-of-Site (LoS) and Non-Line-of-Site (NLoS) Systems.7
12.2. Effect of Antenna Type.
12.3. BWA Spectrum.
12.4. BRAN versus WirelessMAN.
12.5. IEEE WirelessMAN.
12.6. IEEE 802.20 Mobile Broadband Wireless Access (MBWA).
12.7. Cellular and Satellite Networks as Wireless Local Loops (WLL)s.
APPENDIX: OVERVIEW AND GUIDE TO THE IEEE 802 LMSC.
INDEX.
ACKNOWLEDGMENTS.
1. WIRELESS DATA-INTRODUCTION.
1.1. Wireless Voice.
1.2. Wireless Local Area Networks (WLANs).
1.3. Wide Area Cellular Networks.
1.4. Fixed Wireless Networks.
1.5. Personal Area Networks.
1.6. Satellite-Based Data Networks.
1.7. Mobile IP.
1.8. The Wireless Spectrum.
2. REFERENCE ARCHITECTURES FOR WIRELESS DATA NETWORKS.
2.1. Bluetooth.
2.2. IEEE 802.11.
2.3. HIPERLAN/2.
2.4. Broadband Wireless Access Networks.
2.5. Cellular Data Networks.
2.6. Summary.
3. COMPONENTS OF A WIRELESS LAN.
3.1. Local Area Networks (LANs).
3.2. Wireless LAN Components.
4. WLANs: THE PHYSICAL LAYER.
4.1. IEEE 802.11 Standards Suite.
4.2. Interference Rejection Using Barker Sequence, OFDM and CCK.
4.3. HIPERLAN PHY.
4.4. Summary.
5. WLANs: MEDIUM ACCESS CONTROL.
5.1. IEEE 802.11 Medium Access Control.
5.2. IEEE 802.11e factor.
5.3. Routing and Mobility Support.
5.4. MAC Layer Management.
5.5. MAC Frames.
5.6. Multicasting Capability.
5.7. HIPERLAN MAC.
5.8. HIPERLAN 2.
5.9. User and Data Privacy.
5.10. Power Management.
5.11. Multimedia Services.
5.12. Routing.
5.13. Mobility Support.
5.14. MAC Frame.
5.15. Teleconferencing Capability.
5.16. Data Link Control (DLC) Layer.
6. MOBILITY AND INTERNET PROTOCOLS.
6.1. Mobility in Internet Applications.
6.2. Internet Protocols for Mobility.
6.3. Session Initiation Protocol (SIP).
6.4. Mobile IP.
6.5. Mobility Management in an Access Network.
6.6. Cellular IP.
6.7. IPv6 and Mobility Management.
7. DATA COMMUNICATIONS IN CELLULAR NETWORKS: CDMA2000.
7.1. Business Wireless Data Networks.
7.2. Cellular Data Networks.
7.3. Release D for cdma2000 Based Access.
7.4. cdma2000 Standard.
7.5. cdma2000 Medium Access Control.
7.6. All-IP Architecture.
7.7. Summary.
8. DATA COMMUNICATIONS IN CELLULAR NETWORKS: W-CDMA.
8.1. Components of the UMTS Network.
8.2. UMTS Network Domains.
8.3. Strata.
8.4. Radio Access Network (RAN).
8.5. UMTS Services.
8.6. Improvements Over Release 99.
8.7. IMS System Concepts.
8.8. Session Layer Architecture.
8.9. Open Service Access (OSA).
8.10. Parlay.
8.11. IPv4/IPv6 Scenarios Towards All-IP Infrastructure.
8.12. 3GPP Release 6 Objectives.
8.13. Summary.
9. SECURITY IN WIRELESS DATA NETWORKS.
9.1. Ascribing Security to a Network.
9.2. Security Network Architecture.
9.3. Secure Operating System (SOS).
9.4. Components of Security System.
9.5. Wireline Equivalent Privacy (WEP).
9.6. Wi-Fi Protected Access (WPA).
9.7. IEEE 802.11i.
9.8. Security in Cellular Networks.
9.9. Final Word.
10. ROUTING IN WIRELESS LANs.
10.1. Routing in Infrastructure Networks.
10.2. Ad Hoc Wireless Networks.
10.3. Characteristics of a Good Routing Protocol.
10.4. Classifications of Routing Protocols.
10.5. Routing Phases.
10.6. Routing Mechanisms.
10.7. Performance Comparison.
10.8. Multicasting.
10.9. Dynamic Source Routing (DSR) Protocol.
10.10. Selecting the Best Route.
10.11. WLAN Routing Through Cellular Network Infrastructure.
10.12. Routing in Personal Area Networks.
10.13. Summary.
11. WIRELESS PERSONAL AREA NETWORKS AND ULTRAWIDE BAND COMMUNICATIONS.
11.1. Wireless Personal Area Networks (WPANs).
11.2. Terminology for WPANs.
11.3. IEEE 802.15.1 Standard.
11.4. Higher Data Rate PANs (IEEE 802.15.3).
11.5. Ultra Wideband (UWB) Spectrum.
11.6. Low Data Rate WPANs (LR-WPANs) and IEEE 802.15.4.
11.7. Summary.
12. BROADBAND WIRELESS ACCESS (BWA).
12.1. Line-of-Site (LoS) and Non-Line-of-Site (NLoS) Systems.7
12.2. Effect of Antenna Type.
12.3. BWA Spectrum.
12.4. BRAN versus WirelessMAN.
12.5. IEEE WirelessMAN.
12.6. IEEE 802.20 Mobile Broadband Wireless Access (MBWA).
12.7. Cellular and Satellite Networks as Wireless Local Loops (WLL)s.
APPENDIX: OVERVIEW AND GUIDE TO THE IEEE 802 LMSC.
INDEX.
PREFACE.
ACKNOWLEDGMENTS.
1. WIRELESS DATA-INTRODUCTION.
1.1. Wireless Voice.
1.2. Wireless Local Area Networks (WLANs).
1.3. Wide Area Cellular Networks.
1.4. Fixed Wireless Networks.
1.5. Personal Area Networks.
1.6. Satellite-Based Data Networks.
1.7. Mobile IP.
1.8. The Wireless Spectrum.
2. REFERENCE ARCHITECTURES FOR WIRELESS DATA NETWORKS.
2.1. Bluetooth.
2.2. IEEE 802.11.
2.3. HIPERLAN/2.
2.4. Broadband Wireless Access Networks.
2.5. Cellular Data Networks.
2.6. Summary.
3. COMPONENTS OF A WIRELESS LAN.
3.1. Local Area Networks (LANs).
3.2. Wireless LAN Components.
4. WLANs: THE PHYSICAL LAYER.
4.1. IEEE 802.11 Standards Suite.
4.2. Interference Rejection Using Barker Sequence, OFDM and CCK.
4.3. HIPERLAN PHY.
4.4. Summary.
5. WLANs: MEDIUM ACCESS CONTROL.
5.1. IEEE 802.11 Medium Access Control.
5.2. IEEE 802.11e factor.
5.3. Routing and Mobility Support.
5.4. MAC Layer Management.
5.5. MAC Frames.
5.6. Multicasting Capability.
5.7. HIPERLAN MAC.
5.8. HIPERLAN 2.
5.9. User and Data Privacy.
5.10. Power Management.
5.11. Multimedia Services.
5.12. Routing.
5.13. Mobility Support.
5.14. MAC Frame.
5.15. Teleconferencing Capability.
5.16. Data Link Control (DLC) Layer.
6. MOBILITY AND INTERNET PROTOCOLS.
6.1. Mobility in Internet Applications.
6.2. Internet Protocols for Mobility.
6.3. Session Initiation Protocol (SIP).
6.4. Mobile IP.
6.5. Mobility Management in an Access Network.
6.6. Cellular IP.
6.7. IPv6 and Mobility Management.
7. DATA COMMUNICATIONS IN CELLULAR NETWORKS: CDMA2000.
7.1. Business Wireless Data Networks.
7.2. Cellular Data Networks.
7.3. Release D for cdma2000 Based Access.
7.4. cdma2000 Standard.
7.5. cdma2000 Medium Access Control.
7.6. All-IP Architecture.
7.7. Summary.
8. DATA COMMUNICATIONS IN CELLULAR NETWORKS: W-CDMA.
8.1. Components of the UMTS Network.
8.2. UMTS Network Domains.
8.3. Strata.
8.4. Radio Access Network (RAN).
8.5. UMTS Services.
8.6. Improvements Over Release 99.
8.7. IMS System Concepts.
8.8. Session Layer Architecture.
8.9. Open Service Access (OSA).
8.10. Parlay.
8.11. IPv4/IPv6 Scenarios Towards All-IP Infrastructure.
8.12. 3GPP Release 6 Objectives.
8.13. Summary.
9. SECURITY IN WIRELESS DATA NETWORKS.
9.1. Ascribing Security to a Network.
9.2. Security Network Architecture.
9.3. Secure Operating System (SOS).
9.4. Components of Security System.
9.5. Wireline Equivalent Privacy (WEP).
9.6. Wi-Fi Protected Access (WPA).
9.7. IEEE 802.11i.
9.8. Security in Cellular Networks.
9.9. Final Word.
10. ROUTING IN WIRELESS LANs.
10.1. Routing in Infrastructure Networks.
10.2. Ad Hoc Wireless Networks.
10.3. Characteristics of a Good Routing Protocol.
10.4. Classifications of Routing Protocols.
10.5. Routing Phases.
10.6. Routing Mechanisms.
10.7. Performance Comparison.
10.8. Multicasting.
10.9. Dynamic Source Routing (DSR) Protocol.
10.10. Selecting the Best Route.
10.11. WLAN Routing Through Cellular Network Infrastructure.
10.12. Routing in Personal Area Networks.
10.13. Summary.
11. WIRELESS PERSONAL AREA NETWORKS AND ULTRAWIDE BAND COMMUNICATIONS.
11.1. Wireless Personal Area Networks (WPANs).
11.2. Terminology for WPANs.
11.3. IEEE 802.15.1 Standard.
11.4. Higher Data Rate PANs (IEEE 802.15.3).
11.5. Ultra Wideband (UWB) Spectrum.
11.6. Low Data Rate WPANs (LR-WPANs) and IEEE 802.15.4.
11.7. Summary.
12. BROADBAND WIRELESS ACCESS (BWA).
12.1. Line-of-Site (LoS) and Non-Line-of-Site (NLoS) Systems.7
12.2. Effect of Antenna Type.
12.3. BWA Spectrum.
12.4. BRAN versus WirelessMAN.
12.5. IEEE WirelessMAN.
12.6. IEEE 802.20 Mobile Broadband Wireless Access (MBWA).
12.7. Cellular and Satellite Networks as Wireless Local Loops (WLL)s.
APPENDIX: OVERVIEW AND GUIDE TO THE IEEE 802 LMSC.
INDEX.
ACKNOWLEDGMENTS.
1. WIRELESS DATA-INTRODUCTION.
1.1. Wireless Voice.
1.2. Wireless Local Area Networks (WLANs).
1.3. Wide Area Cellular Networks.
1.4. Fixed Wireless Networks.
1.5. Personal Area Networks.
1.6. Satellite-Based Data Networks.
1.7. Mobile IP.
1.8. The Wireless Spectrum.
2. REFERENCE ARCHITECTURES FOR WIRELESS DATA NETWORKS.
2.1. Bluetooth.
2.2. IEEE 802.11.
2.3. HIPERLAN/2.
2.4. Broadband Wireless Access Networks.
2.5. Cellular Data Networks.
2.6. Summary.
3. COMPONENTS OF A WIRELESS LAN.
3.1. Local Area Networks (LANs).
3.2. Wireless LAN Components.
4. WLANs: THE PHYSICAL LAYER.
4.1. IEEE 802.11 Standards Suite.
4.2. Interference Rejection Using Barker Sequence, OFDM and CCK.
4.3. HIPERLAN PHY.
4.4. Summary.
5. WLANs: MEDIUM ACCESS CONTROL.
5.1. IEEE 802.11 Medium Access Control.
5.2. IEEE 802.11e factor.
5.3. Routing and Mobility Support.
5.4. MAC Layer Management.
5.5. MAC Frames.
5.6. Multicasting Capability.
5.7. HIPERLAN MAC.
5.8. HIPERLAN 2.
5.9. User and Data Privacy.
5.10. Power Management.
5.11. Multimedia Services.
5.12. Routing.
5.13. Mobility Support.
5.14. MAC Frame.
5.15. Teleconferencing Capability.
5.16. Data Link Control (DLC) Layer.
6. MOBILITY AND INTERNET PROTOCOLS.
6.1. Mobility in Internet Applications.
6.2. Internet Protocols for Mobility.
6.3. Session Initiation Protocol (SIP).
6.4. Mobile IP.
6.5. Mobility Management in an Access Network.
6.6. Cellular IP.
6.7. IPv6 and Mobility Management.
7. DATA COMMUNICATIONS IN CELLULAR NETWORKS: CDMA2000.
7.1. Business Wireless Data Networks.
7.2. Cellular Data Networks.
7.3. Release D for cdma2000 Based Access.
7.4. cdma2000 Standard.
7.5. cdma2000 Medium Access Control.
7.6. All-IP Architecture.
7.7. Summary.
8. DATA COMMUNICATIONS IN CELLULAR NETWORKS: W-CDMA.
8.1. Components of the UMTS Network.
8.2. UMTS Network Domains.
8.3. Strata.
8.4. Radio Access Network (RAN).
8.5. UMTS Services.
8.6. Improvements Over Release 99.
8.7. IMS System Concepts.
8.8. Session Layer Architecture.
8.9. Open Service Access (OSA).
8.10. Parlay.
8.11. IPv4/IPv6 Scenarios Towards All-IP Infrastructure.
8.12. 3GPP Release 6 Objectives.
8.13. Summary.
9. SECURITY IN WIRELESS DATA NETWORKS.
9.1. Ascribing Security to a Network.
9.2. Security Network Architecture.
9.3. Secure Operating System (SOS).
9.4. Components of Security System.
9.5. Wireline Equivalent Privacy (WEP).
9.6. Wi-Fi Protected Access (WPA).
9.7. IEEE 802.11i.
9.8. Security in Cellular Networks.
9.9. Final Word.
10. ROUTING IN WIRELESS LANs.
10.1. Routing in Infrastructure Networks.
10.2. Ad Hoc Wireless Networks.
10.3. Characteristics of a Good Routing Protocol.
10.4. Classifications of Routing Protocols.
10.5. Routing Phases.
10.6. Routing Mechanisms.
10.7. Performance Comparison.
10.8. Multicasting.
10.9. Dynamic Source Routing (DSR) Protocol.
10.10. Selecting the Best Route.
10.11. WLAN Routing Through Cellular Network Infrastructure.
10.12. Routing in Personal Area Networks.
10.13. Summary.
11. WIRELESS PERSONAL AREA NETWORKS AND ULTRAWIDE BAND COMMUNICATIONS.
11.1. Wireless Personal Area Networks (WPANs).
11.2. Terminology for WPANs.
11.3. IEEE 802.15.1 Standard.
11.4. Higher Data Rate PANs (IEEE 802.15.3).
11.5. Ultra Wideband (UWB) Spectrum.
11.6. Low Data Rate WPANs (LR-WPANs) and IEEE 802.15.4.
11.7. Summary.
12. BROADBAND WIRELESS ACCESS (BWA).
12.1. Line-of-Site (LoS) and Non-Line-of-Site (NLoS) Systems.7
12.2. Effect of Antenna Type.
12.3. BWA Spectrum.
12.4. BRAN versus WirelessMAN.
12.5. IEEE WirelessMAN.
12.6. IEEE 802.20 Mobile Broadband Wireless Access (MBWA).
12.7. Cellular and Satellite Networks as Wireless Local Loops (WLL)s.
APPENDIX: OVERVIEW AND GUIDE TO THE IEEE 802 LMSC.
INDEX.