Wireless NetworkingElsevier, 2008. gada 9. maijs - 448 lappuses Over the past decade, the world has witnessed an explosion in the development and deployment of new wireless network technologies. From cellular mobile telephony to the ubiquitous “WiFi networks in coffee-shops and airports, to the emerging WiMAX wireless broadband access networks, the menu of wireless access systems has become so comprehensive that wireline access to user devices may soon become a relic of the past. Wireless Networking serves as a one-stop view of cellular, WiFi, and WiMAX networks, as well as the emerging wireless ad hoc and sensor networks. Rather than provide descriptive accounts of these technologies and standards, the book emphasizes conceptual perspectives on the modeling, analysis, design and optimization of such networks. Furthermore, the authors present wireless networking within the unifying framework of resource allocation, using simple abstractions of the underlying physical wireless communication. In short, Wireless Networking is an in-depth, exhaustive, and invaluable asset to anyone working in this rapidly evolving field.
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No grāmatas satura
1.–5. rezultāts no 47.
viii. lappuse
... Uplink SINR Inequalities 5.2 5.3 5.4 A Simple Case: One Call Class 5.2.1 Example:Two BSs and Collocated MSs 5.2.2 Multiple BSs and Uniformly Distributed MSs 5.2.3 Other Cell Interference: Hard and Soft Handover 5.2.4 System Capacity for ...
... Uplink SINR Inequalities 5.2 5.3 5.4 A Simple Case: One Call Class 5.2.1 Example:Two BSs and Collocated MSs 5.2.2 Multiple BSs and Uniformly Distributed MSs 5.2.3 Other Cell Interference: Hard and Soft Handover 5.2.4 System Capacity for ...
73. lappuse
... -engineered ISP network would be 0.001 or 0.005. The resulting average window is well above the 4 required to keep the bottleneck link busy. downlink band uplink band frequency fku fjd f k d. 3.4 Elastic Transfers: Feedback Control 73.
... -engineered ISP network would be 0.001 or 0.005. The resulting average window is well above the 4 required to keep the bottleneck link busy. downlink band uplink band frequency fku fjd f k d. 3.4 Elastic Transfers: Feedback Control 73.
82. lappuse
... uplink band and the other is the downlink band. Each band is partitioned into an equal number of nonoverlapping FDM channels. The FDM channels in the uplink and downlink bands are then paired, as shown in Figure 4.1, for two FDM ...
... uplink band and the other is the downlink band. Each band is partitioned into an equal number of nonoverlapping FDM channels. The FDM channels in the uplink and downlink bands are then paired, as shown in Figure 4.1, for two FDM ...
83. lappuse
... uplink-downlink pair. The system can now be set up as shown in the left panel of Figure 4.2. We observe that a large power will need to be used in order to serve the MSs at the periphery of the coverage area, in order to ensure that the ...
... uplink-downlink pair. The system can now be set up as shown in the left panel of Figure 4.2. We observe that a large power will need to be used in order to serve the MSs at the periphery of the coverage area, in order to ensure that the ...
86. lappuse
... uplink and downlink cochannel interference in a configuration in which a channel is reused at the five BSs shown. The circular boundaries indicate the coverage of each BS; these are assumed to be of radius R. The distance between the ...
... uplink and downlink cochannel interference in a configuration in which a channel is reused at the five BSs shown. The circular boundaries indicate the coverage of each BS; these are assumed to be of radius R. The distance between the ...
Saturs
1 | |
15 | |
53 | |
81 | |
Chapter 5 Cellular CDMA | 125 |
Chapter 6 Cellular OFDMATDMA | 161 |
Chapter 7 Random Access and Wireless LANs | 187 |
Optimal Routing and Scheduling | 243 |
Fundamental Limits | 291 |
Chapter 10 Ad Hoc Wireless Sensor Networks WSNs | 337 |
Appendices | 375 |
Bibliography | 407 |
Index | 417 |
Citi izdevumi - Skatīt visu
Bieži izmantoti vārdi un frāzes
access networks algorithm Aloha analysis arrival rate assume average backoff bandwidth bit rate blocking probability capacity carrier CDMA cellular networks channel gain Chapter collision computation connected consider coverage CTMC decode defined delay denote discussion distributed downlink edge example fading feasible flow frame function Gaussian given graph handover hence IEEE inequality interference Internet locations log2 matrix maximum mean mesh networks mobile modulation neighbors number of nodes obtain OFDM OFDMA optimal packet loss path loss path loss exponent Poisson Poisson process power allocation power constraint power control problem protocol queue random variables Rayleigh fading receiver routing scheduling Section sensor network sequence server signal SINR slot slotted Aloha spatial reuse spectrum symbol Theorem throughput traffic transmission transmit uplink users vector voice WiMAX wireless mesh networks wireless networks WLAN
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