- Broschiertes Buch
- Merkliste
- Auf die Merkliste
- Bewerten Bewerten
- Teilen
- Produkt teilen
- Produkterinnerung
- Produkterinnerung
Dieses allumfassende Werk behandelt alle Aspekte der Telekommunikation von der historischen Entwicklung über die angewandte Netztechnik bis zu der Konvergenz von Netzen und Techniken und Entwicklungen der Zukunft.
Andere Kunden interessierten sich auch für
- Kaveh PahlavanNetworking Fundamentals223,99 €
- Jonathan RodriguezFundamentals of 5g Mobile Networks144,99 €
- Saad Z. AsifNext Generation Mobile Communications Ecosystem135,99 €
- Markus RuppEvaluation of HSDPA to LTE145,99 €
- Shyam ChakrabortyIMS Multimedia Telephony Over Cellular Systems145,99 €
- Benny BingWireless Broadband130,99 €
- Robert Caiming QiuCognitive Radio Communication and Networking129,99 €
-
-
-
Dieses allumfassende Werk behandelt alle Aspekte der Telekommunikation von der historischen Entwicklung über die angewandte Netztechnik bis zu der Konvergenz von Netzen und Techniken und Entwicklungen der Zukunft.
Produktdetails
- Produktdetails
- Verlag: Wiley & Sons
- Artikelnr. des Verlages: 14599290000
- 1. Auflage
- Seitenzahl: 656
- Erscheinungstermin: 1. Juli 2009
- Englisch
- Abmessung: 244mm x 168mm x 40mm
- Gewicht: 1070g
- ISBN-13: 9780470992906
- ISBN-10: 0470992905
- Artikelnr.: 23830731
- Verlag: Wiley & Sons
- Artikelnr. des Verlages: 14599290000
- 1. Auflage
- Seitenzahl: 656
- Erscheinungstermin: 1. Juli 2009
- Englisch
- Abmessung: 244mm x 168mm x 40mm
- Gewicht: 1070g
- ISBN-13: 9780470992906
- ISBN-10: 0470992905
- Artikelnr.: 23830731
Keveh Pahlavan, is a Professor of Electrical and Computer Engineering (ECE), a Professor of Computer Science (CS), and Director of the Center for Wireless Information Network Studies, Worcester Polytechnic Institute (WPI), Worcester, MA. He is also a visiting Professor of Telecommunication Laboratory and CWC, University of Oulu, Finland. His area of research is location-aware broadband wireless indoor networks. He has contributed to numerous seminal technical publications and patents in this field. He is the principal author of the Wireless Information Networks (with Allen Levesque), John Wiley and Sons, 1995 and Principles of Wireless Networks - A Unified Approach (with P. Krishnamurthy), Prentice Hall, 2002. He has been a consultant to a number of companies, including CNR Inc., GTE Laboratories, Steinbrecher Corp., Simplex, Mercury Computers, WINDATA, SieraComm, 3COM, and Code/Motorola in Massachusetts; JPL, Savi Technologies, RadioLAN in California; Airnet in Ohio; United Technology Research Center in Connecticut; Honeywell in Arizona; Nokia, LK-Products, Elektrobit, TEKES, the Finnish Academy in Finland; and NTT in Japan. Before joining WPI, he was the director of advanced development at Infinite Inc., Andover, MA, working on data communications. He started his career as an assistant professor at Northeastern University, Boston, MA. He is the Editor-in-Chief of the International Journal on Wireless Information Networks. He was the founder, the program chairman, and organizer of the IEEE Wireless LAN Workshop, Worcester, in 1991 and 1996 and the organizer and technical program chairman of the IEEE International Symposium on Personal, Indoor, and Mobile Communications, Boston, MA, 1992 and 1998. He has also been selected as a member of the Committee on Evolution of Untethered Communication, US National Research Council, 1997 and has led the US review team for the Finnish R&D Programs in Electronic and Telecommunication in 1999 and NETs project in 2003. For his contributions to the wireless networks he was the Westin Hadden Professor of Electrical and Computer Engineering at WPI during 1993-1996, was elected as a fellow of the IEEE in 1996 and became a fellow of Nokia in 1999. From May to December of 2000 he was the first Fulbright-Nokia scholar at the University of Oulu, Finland. Because of his inspiring visionary publications and his international conference activities for the growth of the wireless LAN industry, he is referred to as one of the founding fathers of the wireless LAN industry. In the past few years his research work has been the core for than 25 patents by Skyhook Wireless, where he acts as the chief technical advisor. In January 2008 Steve Jobs announced that Skyhook Wireless's WiFi localization technology is used in iPhone. Details of his contributions to this field are available at www.cwins.wpi.edu. Prashant Krishnamurthy is an associate professor with the graduate program in Telecommunications and Networking at the University of Pittsburgh. At Pitt, he regularly teaches courses on cryptography, network security, and wireless communications and networks. His research interests are wireless network security, wireless data networks, and position location in indoor wireless networks. He is the coauthor of the books Principles of Wireless Networks - A Unified Approach and Physical Layer of Communication Systems and is a co-editor of Information Assurance: Dependability and Security in Networked Systems. He served as the chair of the IEEE Communications Society Pittsburgh Chapter from 2000 to 2005. He obtained his PhD from Worcester Polytechnic Institute, Worcester, MA, in 1999.
PART ONE. 1. Introduction to Information Networks. 1.1 Introduction. 1.2
Evolution of WANs. 1.3 Evolution of Local Networks. 1.4 Structure of the
book. PART TWO. 2. Characteristics of the Medium. 2.1 Introduction. 2.2
Guided Media. 2.3 Wireless Media. 3. Fundamentals of Physical Layer
Transmission. 3.1 Information Transmission. 3.2 Transmission Techniques and
Signal Constellation. 3.3 Performance of the Physical Layer. 3.4 Wideband
Modems. 4. Coding and Reliable Packet Transmission. 4.1 Introduction. 4.2
Source Coding and Framing Techniques. 4.3 FEC Coding. 4.4 Coding for
Spread-Spectrum and CDMA Systems. 4.5 Arq schemes. 4.6 Flow Control
Protocols. 5. Medium Access Methods. 5.1 Introduction. 5.2 Centralized
Assigned access Schemes. 5.3 Distributed Random Access for Data-Oriented
Networks. 5.4 Integration of voice and data traffic. PART THREE. 6. The
Internet. 6.1 Infrastructure of the Internet. 6.2 Addressing. 6.3 QoS. 6.4
Bridges or LAN Switches. 6.5 Switches. 6.6 Routers. 7. Cellular Networks.
7.1 Introduction: What Is a Cellular Network? 7.2 General Architecture of a
Cellular Network. 7.3 Mechanisms to Support a Mobile Environment. 7.4
Protocol Stack in Cellular Networks. 7.5 PHY in TDMA Air Interface. 7.6 PHY
in CDMA Air Interface. 7.7 Achieving Higher Data Rates in Cellular
Networks. 7.8 Deployment of Cellular Networks. 8. Ethernet. 8.1
Introduction. 8.2 Legacy 10 Mb/s Ethernet. 8.3 Evolution of the PHY. 8.4
Emergence of Additional Features for Ethernet. 9. IEEE WLAN Standards. 9.1
Introduction. 9.2 IEEE 802.11 and WLANs. 9.3 IEEE 802.16 (WiMAX). 10. IEEE
802.15 WPAN. 10.1 Introduction. 10.2 IEEE 802.15.1 Bluetooth. 10.3
Interference between Bluetooth and 802.11. 10.4 IEEE 802.15.3a UWB WPANs.
10.5 IEEE 802.15.4 ZigBee. PART FOUR. 11. Network Security. 11.1
Introduction. 11.2 Network Attacks and Security Issues. 11.3 Protection and
Prevention. 11.4 Detection. 11.5 Assessment and Response. 12. RF Location
Sensing and Geolocation Systems. 12.1 Introduction. 12.2 What is Wireless
Geolocation? 12.3 RF Location Sensing and Positioning Methodologies. 12.4
LCS Architecture for Cellular Systems. 12.5 Positioning in Ad Hoc and
Sensor Networks. 13. Wireless Sensor Networks. 13.1 Introduction. 13.2
Sensor Network Applications. 13.3 Sensor Network Architecture and Sensor
Devices. 13.4 The PHY Layer in Sensor Networks. 13.5 The MAC Layer in
Sensor Networks. 13.6 Higher Layer Issues in Sensor Networks.
Evolution of WANs. 1.3 Evolution of Local Networks. 1.4 Structure of the
book. PART TWO. 2. Characteristics of the Medium. 2.1 Introduction. 2.2
Guided Media. 2.3 Wireless Media. 3. Fundamentals of Physical Layer
Transmission. 3.1 Information Transmission. 3.2 Transmission Techniques and
Signal Constellation. 3.3 Performance of the Physical Layer. 3.4 Wideband
Modems. 4. Coding and Reliable Packet Transmission. 4.1 Introduction. 4.2
Source Coding and Framing Techniques. 4.3 FEC Coding. 4.4 Coding for
Spread-Spectrum and CDMA Systems. 4.5 Arq schemes. 4.6 Flow Control
Protocols. 5. Medium Access Methods. 5.1 Introduction. 5.2 Centralized
Assigned access Schemes. 5.3 Distributed Random Access for Data-Oriented
Networks. 5.4 Integration of voice and data traffic. PART THREE. 6. The
Internet. 6.1 Infrastructure of the Internet. 6.2 Addressing. 6.3 QoS. 6.4
Bridges or LAN Switches. 6.5 Switches. 6.6 Routers. 7. Cellular Networks.
7.1 Introduction: What Is a Cellular Network? 7.2 General Architecture of a
Cellular Network. 7.3 Mechanisms to Support a Mobile Environment. 7.4
Protocol Stack in Cellular Networks. 7.5 PHY in TDMA Air Interface. 7.6 PHY
in CDMA Air Interface. 7.7 Achieving Higher Data Rates in Cellular
Networks. 7.8 Deployment of Cellular Networks. 8. Ethernet. 8.1
Introduction. 8.2 Legacy 10 Mb/s Ethernet. 8.3 Evolution of the PHY. 8.4
Emergence of Additional Features for Ethernet. 9. IEEE WLAN Standards. 9.1
Introduction. 9.2 IEEE 802.11 and WLANs. 9.3 IEEE 802.16 (WiMAX). 10. IEEE
802.15 WPAN. 10.1 Introduction. 10.2 IEEE 802.15.1 Bluetooth. 10.3
Interference between Bluetooth and 802.11. 10.4 IEEE 802.15.3a UWB WPANs.
10.5 IEEE 802.15.4 ZigBee. PART FOUR. 11. Network Security. 11.1
Introduction. 11.2 Network Attacks and Security Issues. 11.3 Protection and
Prevention. 11.4 Detection. 11.5 Assessment and Response. 12. RF Location
Sensing and Geolocation Systems. 12.1 Introduction. 12.2 What is Wireless
Geolocation? 12.3 RF Location Sensing and Positioning Methodologies. 12.4
LCS Architecture for Cellular Systems. 12.5 Positioning in Ad Hoc and
Sensor Networks. 13. Wireless Sensor Networks. 13.1 Introduction. 13.2
Sensor Network Applications. 13.3 Sensor Network Architecture and Sensor
Devices. 13.4 The PHY Layer in Sensor Networks. 13.5 The MAC Layer in
Sensor Networks. 13.6 Higher Layer Issues in Sensor Networks.
PART ONE. 1. Introduction to Information Networks. 1.1 Introduction. 1.2
Evolution of WANs. 1.3 Evolution of Local Networks. 1.4 Structure of the
book. PART TWO. 2. Characteristics of the Medium. 2.1 Introduction. 2.2
Guided Media. 2.3 Wireless Media. 3. Fundamentals of Physical Layer
Transmission. 3.1 Information Transmission. 3.2 Transmission Techniques and
Signal Constellation. 3.3 Performance of the Physical Layer. 3.4 Wideband
Modems. 4. Coding and Reliable Packet Transmission. 4.1 Introduction. 4.2
Source Coding and Framing Techniques. 4.3 FEC Coding. 4.4 Coding for
Spread-Spectrum and CDMA Systems. 4.5 Arq schemes. 4.6 Flow Control
Protocols. 5. Medium Access Methods. 5.1 Introduction. 5.2 Centralized
Assigned access Schemes. 5.3 Distributed Random Access for Data-Oriented
Networks. 5.4 Integration of voice and data traffic. PART THREE. 6. The
Internet. 6.1 Infrastructure of the Internet. 6.2 Addressing. 6.3 QoS. 6.4
Bridges or LAN Switches. 6.5 Switches. 6.6 Routers. 7. Cellular Networks.
7.1 Introduction: What Is a Cellular Network? 7.2 General Architecture of a
Cellular Network. 7.3 Mechanisms to Support a Mobile Environment. 7.4
Protocol Stack in Cellular Networks. 7.5 PHY in TDMA Air Interface. 7.6 PHY
in CDMA Air Interface. 7.7 Achieving Higher Data Rates in Cellular
Networks. 7.8 Deployment of Cellular Networks. 8. Ethernet. 8.1
Introduction. 8.2 Legacy 10 Mb/s Ethernet. 8.3 Evolution of the PHY. 8.4
Emergence of Additional Features for Ethernet. 9. IEEE WLAN Standards. 9.1
Introduction. 9.2 IEEE 802.11 and WLANs. 9.3 IEEE 802.16 (WiMAX). 10. IEEE
802.15 WPAN. 10.1 Introduction. 10.2 IEEE 802.15.1 Bluetooth. 10.3
Interference between Bluetooth and 802.11. 10.4 IEEE 802.15.3a UWB WPANs.
10.5 IEEE 802.15.4 ZigBee. PART FOUR. 11. Network Security. 11.1
Introduction. 11.2 Network Attacks and Security Issues. 11.3 Protection and
Prevention. 11.4 Detection. 11.5 Assessment and Response. 12. RF Location
Sensing and Geolocation Systems. 12.1 Introduction. 12.2 What is Wireless
Geolocation? 12.3 RF Location Sensing and Positioning Methodologies. 12.4
LCS Architecture for Cellular Systems. 12.5 Positioning in Ad Hoc and
Sensor Networks. 13. Wireless Sensor Networks. 13.1 Introduction. 13.2
Sensor Network Applications. 13.3 Sensor Network Architecture and Sensor
Devices. 13.4 The PHY Layer in Sensor Networks. 13.5 The MAC Layer in
Sensor Networks. 13.6 Higher Layer Issues in Sensor Networks.
Evolution of WANs. 1.3 Evolution of Local Networks. 1.4 Structure of the
book. PART TWO. 2. Characteristics of the Medium. 2.1 Introduction. 2.2
Guided Media. 2.3 Wireless Media. 3. Fundamentals of Physical Layer
Transmission. 3.1 Information Transmission. 3.2 Transmission Techniques and
Signal Constellation. 3.3 Performance of the Physical Layer. 3.4 Wideband
Modems. 4. Coding and Reliable Packet Transmission. 4.1 Introduction. 4.2
Source Coding and Framing Techniques. 4.3 FEC Coding. 4.4 Coding for
Spread-Spectrum and CDMA Systems. 4.5 Arq schemes. 4.6 Flow Control
Protocols. 5. Medium Access Methods. 5.1 Introduction. 5.2 Centralized
Assigned access Schemes. 5.3 Distributed Random Access for Data-Oriented
Networks. 5.4 Integration of voice and data traffic. PART THREE. 6. The
Internet. 6.1 Infrastructure of the Internet. 6.2 Addressing. 6.3 QoS. 6.4
Bridges or LAN Switches. 6.5 Switches. 6.6 Routers. 7. Cellular Networks.
7.1 Introduction: What Is a Cellular Network? 7.2 General Architecture of a
Cellular Network. 7.3 Mechanisms to Support a Mobile Environment. 7.4
Protocol Stack in Cellular Networks. 7.5 PHY in TDMA Air Interface. 7.6 PHY
in CDMA Air Interface. 7.7 Achieving Higher Data Rates in Cellular
Networks. 7.8 Deployment of Cellular Networks. 8. Ethernet. 8.1
Introduction. 8.2 Legacy 10 Mb/s Ethernet. 8.3 Evolution of the PHY. 8.4
Emergence of Additional Features for Ethernet. 9. IEEE WLAN Standards. 9.1
Introduction. 9.2 IEEE 802.11 and WLANs. 9.3 IEEE 802.16 (WiMAX). 10. IEEE
802.15 WPAN. 10.1 Introduction. 10.2 IEEE 802.15.1 Bluetooth. 10.3
Interference between Bluetooth and 802.11. 10.4 IEEE 802.15.3a UWB WPANs.
10.5 IEEE 802.15.4 ZigBee. PART FOUR. 11. Network Security. 11.1
Introduction. 11.2 Network Attacks and Security Issues. 11.3 Protection and
Prevention. 11.4 Detection. 11.5 Assessment and Response. 12. RF Location
Sensing and Geolocation Systems. 12.1 Introduction. 12.2 What is Wireless
Geolocation? 12.3 RF Location Sensing and Positioning Methodologies. 12.4
LCS Architecture for Cellular Systems. 12.5 Positioning in Ad Hoc and
Sensor Networks. 13. Wireless Sensor Networks. 13.1 Introduction. 13.2
Sensor Network Applications. 13.3 Sensor Network Architecture and Sensor
Devices. 13.4 The PHY Layer in Sensor Networks. 13.5 The MAC Layer in
Sensor Networks. 13.6 Higher Layer Issues in Sensor Networks.