Table of contents for Evolved packet system (EPS) : the LTE and SAE evolution of 3G UMTS / Pierre Lescuyer and Thierry Lucidarme.
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1_Introduction_
1.1_Wireless World Picture_
1.2_About technologies_
1.2.1_Heterogeneous 2G systems_
1.2.2_"MAP" and "IS-41" systems_
1.2.3_The MAP technologies_
1.2.4_The IS-41 technologies_
1.3_Standards and Organizations_
1.3.1_The role of ITU_
1.3.2_3G Cross country standardization bodies_
1.3.3_The structure of 3GPP_
1.3.4_The NGN evolution_
1.3.5_The NGMN initiative_
1.4_Spectrum_
1.5_The evolution of UMTS_
1.6_Links and documents_
1.6.1_Useful Web sites_
1.6.2_Evolved UMTS specifications_
2_Evolved UMTS overview_
1.1_The Access Network requirements_
1.1.1_Radio interface throughput_
1.1.2_Data transmission latency_
1.1.3_Terminal state transition_
1.1.4_Mobility_
1.1.5_Spectrum flexibility_
1.1.6_Co-existence and inter-working with existing UMTS_
1.2_Evolved UMTS concepts_
1.2.1_A packet-only architecture_
1.2.2_A shared radio interface_
1.2.3_Other access technologies_
1.3_Overall Evolved UMTS architecture_
1.3.1_E-UTRAN: the Evolved Access Network_
1.3.2_EPC: the Evolved Packet Core Network_
1.3.3_The HSS_
1.4_The IMS subsystem_
1.4.1_The Session Control Function_
1.4.2_The Media Gateway nodes_
1.5_Policy Control and Charging_
1.5.1_Policy Control in UMTS
1.5.2_Evolved UMTS Policy Control_
1.5.3_The Charging architecture_
1.6_The terminal_
1.6.1_The user device architecture_
1.6.2_Terminal capabilities_
1.6.3_The subscriber module_
1.7_The Evolved UMTS interfaces_
1.8_Major disruptions with 3G UTRAN-FDD networks_
1.8.1_About Soft Handover_
1.8.2_About Compressed Mode_
1.8.3_About dedicated channels_
3_Physical Layer of E-UTRAN_
1.1_Basic concepts of evolved 3G radio interface_
1.2_OFDM (Orthogonal Frequency Division Multiplex)_
1.3_Multiple access in OFDM systems_
1.3.1_OFDMA_
1.3.2_MC-CDMA_
1.3.3_Common points between OFDM, CDMA, MC-CDMA …_
1.3.4_Frequency stability considerations for OFDM systems_
1.3.5_System load in OFDMA system._
1.3.6_SC-FDMA: The PAPR (Peak-Average-Power-Ratio) problem_
1.3.7_Dimensioning an OFDM system
1.4_MIMO (Multiple Input Multiple Output)._
1.4.1_Traditional beamforming_
1.4.2_MIMO Channel and Capacity_
1.4.3_A simplified view of MIMO
1.4.4_The harmonious coupling between OFDM and MIMO_
1.4.5_MIMO: A classification attempt_
1.4.6_Some classical open loop MIMO schemes_
1.4.7_Notions of Cyclic Delay Diversity (CDD)_
1.4.8_MIMO schemes and link adaptation_
1.4.9_Improving MIMO with some feedback_
1.4.10_MU-MIMO, Virtual MIMO and transmit diversity_
1.4.11_Toward a Generalized downlink scheme_
1.5_Architecture of the base station_
1.5.1_The block scheme of the base station
1.5.2_The analogue-to-digital conversion_
1.5.3_Power amplification (PA) basics_
1.5.4_Cellular antennas basics_
2_The E-UTRAN physical layer standard_
2.1_The proposed concepts for E-UTRAN_
2.2_FDD and TDD arrangement for E-UTRAN_
2.2.1_A word about interferences in TDD mode_
2.2.2_Some basic physical parameters_
2.2.3_TDD and existing UTRAN compatibility_
2.2.4_Combined FDD-TDD mode_
2.3_Downlink Scheme: OFDMA (FDD/TDD)._
2.3.1_Downlink Physical channels and signals_
2.3.2_Physical signal transmitter architecture_
2.3.3_Downlink data multiplexing_
2.3.4_Mapping to resource elements_
2.3.5_Scrambling_
2.3.6_Modulation scheme_
2.3.7_Downlink scheduling information and uplink grant_
2.3.8_Channel coding and physical channel mapping_
2.3.9_OFDM signal generation._
2.3.10_Downlink MIMO
2.3.11_E-MBMS concepts
2.3.12_Downlink Link adaptation._
2.3.13_HARQ_
2.3.14_Downlink Packet Scheduling._
2.3.15_Cell search and acquisition_
2.3.16_Methods of limiting the inter-cell interference_
2.3.17_Downlink Physical layer measurements._
2.4_Uplink scheme: SC-FDMA (FDD/TDD)_
2.4.1_Uplink physical channel and signals_
2.4.2_SC-FDMA_
2.4.3_Uplink sub-frame structure._
2.4.4_Resource grid_
2.4.5_PUSCH physical Characteristics_
2.4.6_PUCCH physical Characteristics_
2.4.7_Uplink multiplexing including reference signals_
2.4.8_Reference signals_
2.4.9_Multiplexing of L1/L2 control signalling_
2.4.10_Channel coding and physical channel mapping_
2.4.11_SC-FDMA signal generation
2.4.12_The Random access channel_
2.4.13_Uplink-downlink frame timing_
2.4.14_Scheduling_
2.4.15_Link adaptation_
2.4.16_Uplink HARQ_
4_Evolved UMTS Architecture_
1.1_Overall architecture_
1.1.1_Evolved UMTS node features_
1.1.2_E-UTRAN network interfaces_
1.1.3_S1 interface_
1.1.4_S1 flexibility_
1.1.5_X2 interface_
1.2_User and Control plane_
1.2.1_User plane architecture_
1.2.2_Control Plane architecture_
1.3_Radio Interface protocols_
1.3.1_The E-UTRAN radio layered architecture_
1.3.2_The radio channels_
1.3.3_PHY
1.3.4_MAC_
1.3.5_RLC_
1.3.6_RRC_
1.3.7_PDCP_
1.3.8_NAS protocols_
1.4_IMS protocols_
1.4.1_The IMS protocol stack_
1.4.2_SIP_
1.4.3_SDP_
1.4.4_RTP
1.4.5_A SIP/SDP IMS example_
5_Life in EPS networks_
1.1_Network attachment_
1.1.1_Broadcast of system information_
1.1.2_Cell selection_
1.1.3_The initial access_
1.1.4_Registration_
1.1.5_De-registration_
1.2_Communication sessions_
1.2.1_Terminal states
1.2.2_Quality of service in Evolved UMTS_
1.2.3_Security overview_
1.2.4_User Security in EPS_
1.2.5_User Security in IMS_
1.2.6_Session set up_
1.2.7_Data transmission_
1.3_Mobility in Idle mode_
1.3.1_Cell re-selection principles_
1.3.2_Terminal location management_
1.3.3_Tracking Area update_
1.4_Mobility in active mode_
1.4.1_Intra E-UTRAN mobility with X2 support_
1.4.2_Intra E-UTRAN mobility without X2 support_
1.4.3_Intra E-UTRAN mobility with EPC nodes relocation_
1.4.4_Mobility between 2G/3G packet and E-UTRAN_
6_The Services_
1.1_The role of OMA_
1.2_Push to talk Over Cellular_
1.2.1_Service architecture_
1.2.2_PoC Protocol suite_
1.2.3_An example of PoC session setup_
1.2.4_Charging aspects_
1.3_Presence_
1.3.1_Service Architecture_
1.3.2_An example of Presence session_
1.3.3_Charging aspects_
1.4_Broadcast and Multicast_
1.4.1_Some definitions_
1.4.2_Typical applications_
1.4.3_Service architecture_
1.4.4_MBMS security_
1.4.5_The MBMS service steps_
1.4.6_The E-UTRAN aspects of MBMS_
1.4.7_Charging aspects_
1.5_Voice and multimedia telephony
1.5.1_About Circuit and Packet voice support_
1.5.2_Service architecture_
1.5.3_About information coding_
1.5.4_About Supplementary Services_
1.5.5_Multimedia services in EPS systems_
Library of Congress subject headings for this publication:
Universal Mobile Telecommunications System.
Wireless communication systems.