Distributed Antenna Systems: Open Architecture for Future Wireless CommunicationsYan Zhang, Honglin Hu, Jijun Luo CRC Press, 2007. gada 27. jūn. - 496 lappuses The rapid growth in mobile communications has led to an increasing demand for wideband high data rate communications services. In recent years, the Distributed Antenna System (DAS) has emerged as a promising candidate beyond 3G and 4G mobile communications. Distributed Antenna Systems: Open Architecture for Future Wireless Communications is |
No grāmatas satura
1.5. rezultāts no 68.
1. lappuse
... array at one side of the link and several largely separated antenna arrays at the other side. With DASs, both diversity and multiplexing gains can be achieved. This chapter presents formulation of diversity (DIV) and degrees-of-freedom ...
... array at one side of the link and several largely separated antenna arrays at the other side. With DASs, both diversity and multiplexing gains can be achieved. This chapter presents formulation of diversity (DIV) and degrees-of-freedom ...
2. lappuse
... arrays [5,6], whereas the other scheme, called spatial multiplexing, utilizes the parallel spatial subchannels by ... array geometry and the scattering field patterns [1216]. As the channel response is sandwiched between the antenna ...
... arrays [5,6], whereas the other scheme, called spatial multiplexing, utilizes the parallel spatial subchannels by ... array geometry and the scattering field patterns [1216]. As the channel response is sandwiched between the antenna ...
4. lappuse
... array Receive array IIIpR. 4 □ Distributed Antenna Systems: Open Architecture for Future Wireless Communications.
... array Receive array IIIpR. 4 □ Distributed Antenna Systems: Open Architecture for Future Wireless Communications.
6. lappuse
... array and then projecting the arc onto the arrays. This domain will be called the arrayconstrained angular (ACA) domain in the following discussion. For instance, in the ideal Clarke's scattering field, the channel solid angle in the ...
... array and then projecting the arc onto the arrays. This domain will be called the arrayconstrained angular (ACA) domain in the following discussion. For instance, in the ideal Clarke's scattering field, the channel solid angle in the ...
8. lappuse
... array length L. Consider the situation depicted in Figure 1.4(a), where a large number of multipaths emanating from a finite region are impinging on a continuous linear array A of length L placed symmetrically along the a-axis. T is ...
... array length L. Consider the situation depicted in Figure 1.4(a), where a large number of multipaths emanating from a finite region are impinging on a continuous linear array A of length L placed symmetrically along the a-axis. T is ...
Saturs
1 | |
31 | |
Chapter 3 THEORETICAL LIMITS OF CELLULAR SYSTEMS WITH DISTRIBUTED ANTENNAS1 | 65 |
RETHINKING THE LINK ABSTRACTION | 87 |
Chapter 5 DISTRIBUTED ANTENNA SYSTEMS AND LINEAR RELAYING FOR RANKDEFICIENT MIMO SYSTEMS | 117 |
PART II MAC AND PROTOCOLS | 140 |
Chapter 6 DISTRIBUTED SIGNAL PROCESSING IN WIRELESS SENSOR NETWORKS | 141 |
Chapter 7 OPTIMAL RESOURCE ALLOCATION OF DAS | 169 |
Chapter 10 DISTRIBUTED ORGANIZATION OF COOPERATIVE ANTENNA SYSTEMS | 279 |
PART III CASE STUDIESAND APPLICATIONS | 311 |
Chapter 11 EXPERIMENTAL STUDY OF INDOOR DISTRIBUTED ANTENNA SYSTEMS | 313 |
Chapter 12 A CASE STUDY ON DISTRIBUTED ANTENNA SYSTEMS | 337 |
Chapter 13 RF SYSTEM ENGINEERING FOR A CDMA DISTRIBUTED ANTENNA SYSTEM | 365 |
Chapter 14 MULTIHOP VIRTUAL CELLULAR NETWORK | 407 |
Chapter 15 DAS FOR DVBH NETWORKS | 435 |
Back cover | 459 |
Chapter 8 COOPERATIVE CONTENTIONBASED MAC PROTOCOLS AND SMART ANTENNAS IN MOBILE AD HOC NETWORKS | 201 |
Chapter 9 CROSSLAYER DESIGN FOR WIRELESS SENSOR NETWORKS WITH VIRTUAL MIMO | 241 |
Citi izdevumi - Skatīt visu
Distributed Antenna Systems: Open Architecture for Future Wireless ... Yan Zhang,Jijun Luo,Honglin Hu Priekšskatījums nav pieejams - 2019 |
Bieži izmantoti vārdi un frāzes
achieved adaptive array assumed asymptotic beamforming blocking CDMA cellular systems channel estimation cluster head CMI cells cooperative nodes coverage delay denotes distributed antenna module distributed antenna systems diversity gain diversity scheme downlink DVB-H end-to-end energy consumption ergodic capacity error fading channels frequency fusion center Gaussian hoc networks home base station IEEE Trans increase interference linear link budget matrix MHMRC mobile multi-cell multi-hop multi-user multipath noise number of users optimal orthogonal outage packet parameters path loss exponent per-cell phase physical layer port power allocation power constraint Proc propagation radio random Rayleigh fading receive antennas received signal relay resource allocation retransmission reuse route scenario Section selection simulation simulcasting SINR slot smart antennas soft handoff spectral efficiency sum-rate terminal throughput transmission scheme transmit diversity uplink virtual MIMO scheme wireless networks wireless sensor networks
Populāri fragmenti
28. lappuse - A simple transmit diversity technique for wireless communications", IEEE J. Select. Areas Commun., vol. 16, no. 8, pp.
139. lappuse - V. Tarokh, N. Seshadri and AR Calderbank, "Space-time codes for high data rate wireless communication: performance criterion and code construction,
30. lappuse - Wideband indoor channel measurements and BER analysis of frequency selective multipath channels at 2.4, 4.75, and 11.5 GHz," IEEE Transactions on Communications, Vol.
238. lappuse - V. Bharghavan, A. Demers, S. Shenker, and L. Zhang, "MACAW: A Media Access Protocol for Wireless LAN's," Proceedings of ACM SIGCOMM'94, pp.
196. lappuse - AJ. Goldsmith and PP Varaiya, "Capacity of fading channels with channel side information," IEEE Trans. Inform. Theory, vol. 43, pp. 1986-1992, Nov. 1997.
114. lappuse - S.-Y. Ni, Y.-C. Tseng, Y.-S. Chen, and J.-P. Sheu. The broadcast storm problem in a mobile ad hoc network.
140. lappuse - E. Biglieri, J Proakis, and S. Shamai (Shitz), "Fading channels: Information-theoretic and communications aspects,
112. lappuse - W. Heinzelman, A. Chandrakasan, and H. Balakrishnan, "Energy-Efficient Communication Protocols for Wireless Microsensor Networks,