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03965nam a2200337a 44500 |
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UBP13908 |
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AR-CdUBP |
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20220310161035.0 |
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110407s2009 us a g 001 eng d |
020 |
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|a 978-0-470-69716-0
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|a AR-CdUBP
|b spa
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|a eng
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|a Sesia, Stefania
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1 |
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|a LTE - The UMTS Long Term Evolution :
|b from theory to practice /
|c Stefania Sesia, Issam Toufik, Matthew Baker.
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260 |
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|a Chichester :
|b Wiley,
|c 2009.
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300 |
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|a xxii, 611 p. ;
|c 25 cm.
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504 |
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|a Incluye bibliografía.
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|a 1. Introduction and background. - Part I. Network architecture and protocols. - 2. Network architecture. - 2.1. Introduction. - 2.2. Overall architectural overview. - 2.3. Protocol architecture. - 2.4. Quality of service and EPS bearers. - 2.5. Yhe E-UTRAN network interfaces: SL interface. - 2.6. The E-UTRAN network interfaces: X2 interface. - 3. Control plane protocols. - 3.1. Introduction. - 3.2. Radio Resource Contro (RRC). - 3.3. PLMN and cell selection. - 3.4. Paging. - 3.5. Summary. - 4. User plane protocols. - 4.1. Introduction to the user plane protocol stack. - 4.2. Packet data convergence protocol. - 4.3. Radio Link Control (RLC). - 4.4. Medium Access Control (MAC). - 4.5. Summary of the user plane protocols. - Part II. Physical layer for downlink. - 5. Orthogonal Frequency Division Multiple Access (OFDMA). - 5.1. Introduction. - 5.2. OFDM. - 5.3. OFDMA. - 5.4. Conclusion. - 6. Introduction to downlink physical layer design. - 6.1. Introduction. - 6.2. Transmission resource structure. - 6.3. Signal structure. - 6.4. Introduction to downlink operation. - 7. Synchronization and cell search. 7.1. Introduction. - 7.2. Synchronization sequences and cell search in LTE. - 7.3. Coherent versus non-coherent detection. - 8. Reference signals and channel estimation. - 8.1. Introduction to channel estimation and reference signals. - 8.2. Design of reference signals. - 8.3. RS-Aided channel modelling and estimation. - 8.4. Frequency domain channel estimation. - 8.5. Time-domain channel estimation. - 8.6. Spatial domain channel estimation. - 9. Downlink physical data and control channels. - 9.1. Introduction. - 9.2. Downlink data-transporting channels. - 9.3. Downlink control channels. - 10. Channel coding and link adaptation. - 10.1. Introduction. - 10.2. Link adaptation and feedback computation. - 10.3. Channel coding. - 10.4. Concluding remarks. - 11. Multiple antenna techniques. - 11.1. Fundamentals of multiple anyenna theory. - 11.2. MIMO Schemes in LTE. - 11.3. Concluding remarks. - 12. Multi-user scheduling and interference coordination. - 12.1. Introduction. - 12.2. General considerations for resource allocation strategies. - 12.3. Scheduling algorithms. - 12.4. Considerations for resource scheduling in LTE. - 12.5. Interference coordination and frequency reuse. - 12.6. Conclude remarks. - 13. Radio resource management.- 13.1. Introduction. - 13.2. Overview of UE mobility activities. - 13.3. Cell search. - 13.4. Measurement when camped on LTE. - 13.5. LTE Mobility in RR IDLE Neighbour cell monitoring and cell reselection. - 13.6. LTE Mobility in RRC CONNECTED handcover. - 14. Broadcast operation. - PART III. Physical layer for uplink. - 15. Uplink physical layer design. - 16. Uplink reference signals. - 17. Uplink physical channel structure. - 18. Uplink capacity and coverage. - 19. Random access. - 20. Uplink transmission procedures. - Part IV. Practical deployment aspects. - 21. The radio propagation environment. - 22. - Radio frequency aspects. - 23. Paired and unpaired spectrum. - Part V. Conclusions.
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|a LTE
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|a TELEFONIA CELULAR
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|a ANTENAS
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650 |
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4 |
|a RADIO
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653 |
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|a TELECOMUNICACIONES
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700 |
1 |
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|a Toufik, Issam
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700 |
1 |
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|a Baker, Matthew
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930 |
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|a TELECOMUNICACIONES
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931 |
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|a 13908
|b UBP
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942 |
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|2 cdu
|c BK
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945 |
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|a NNM
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984 |
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|a 621.396.94
|b Se71
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999 |
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|c 28912
|d 28912
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