LTE Air Interface

With the introduction of LTE came the development of a new radio technology based on OFDMA / SC-FDMA. This courses focuses on the LTE Air interface and provides a detailed analysis of the structure and features of the physical layer, as well as the layer 2 and 3 protocols, before explaining how these are used in the operation of the radio link from initial attach, through service delivery and finally mobility. The operation of the X2 interface is also explored, in addition to LTE Advanced Relays and also Self Organizing Networks.
This course will contain the following sections:

  • Duration: 1.5 hours
  • Topic areas covered include
  • E-UTRA Features
  • Radio Access, Modulation, Bandwidth and Coding
  • E-UTRAN Protocols
  • NAS, RRC, PDCP, RLC, MAC, S1AP, X2AP and Transport
  • UE Capabilities
  • eNB and HeNB Capabilities
  • HetNet and Relays
  • CoMP - Coordinated Multi-Point Transmission and Reception
  • Duration: 4 hours
  • Topic areas covered include
  • LTE Generic Frame Structure, Type 1 Radio Frames, Slots and Subframes, Type 2 Radio Frames, Slots and Subframes, Frequency Bands, Carrier Frequencies and EARFCN
  • Resource Allocation, Resource Grid and Resource Blocks, Downlink PRB Parameters, Uplink PRB Parameters, VRB, DVRB and mapping
  • The LTE Downlink Physical Channels - PBCH, PCFICH, PDCCH, EPDCCH, PHICH
  • The Control Region, Resource Element Groups (REGs), mapping of RE and RS, Control Channel Elements (CCEs), PDCCH search spaces, role of CFI
  • Downlink Synchronisation Signals: PSS & SSS, Structure, Mapping to Resource Grid, Timing Acquisition, Cell Search, Cell Identities, Cell Identity Group, Identity within the Group, Mapping To Cell Search Procedure
  • The LTE Uplink Physical Channels - PRACH, PUCCH, PUSCH, Uplink Data Transmission, Uplink Reference Signals, Demodulation Reference Signals and Sounding Reference Signals
  • Downlink and Uplink Timing - Timing Relationship and Timing Advance calculations
  • HARQ Operation, Coding, MCS Selection and Retransmission
  • Layer 1 Processing
  • Scrambling
  • Modulation Mapping
  • Pre-coding
  • RE Mapping
  • Carrier Aggregation Operation
  • Backward Compatibility
  • Downlink and Uplink Operation
  • Transmission Modes, Transmit Diversity, MIMO Modes, SU-MIMO, MU-MIMO, Spatial Multiplexing
  • Advanced MIMO
  • Measures, Switching and Resource Allocation
  • Co-operative MIMO
  • Beamforming and Dual Streams
  • Multi Antenna Options
  • Activity
  • Examine RRC Messages Configuring MIMO options
  • Duration: 3 hours
  • Topic areas covered include
  • Defined the use of NAS, IP, RRC, PDCP, RLC and MAC
  • The E-UTRA Interface, Stratums, NAS Control Plane, NAS User Plane, NAS Messages, EMM Messages and ESM Messages
  • The E-UTRA Protocols, Radio Resource Control, RRC Messages, RRC States, Establishment of an RRC Connection
  • PDCP services and functions, PDCP profiles, compression standards, PDCP headers and frame formats, ROHC and Lossless Mobility
  • RLC, RLC Transparent Mode, RLC Unacknowledged Mode and RLC Acknowledged Mode, RLC PDUs, the TMD PDU, UMD PDU, AMD PDU, AMD Segment PDU and the RLC Status PDU
  • MAC functions and operation, MAC Headers, BSR, PHR, Scheduler, Carrier Aggregation Scheduling, Timing Advance, Contention Resolution, RI, UCI, DCI, PMI
  • Logical Channels - BCCH, PCCH, CCCH, DCCH, DTCH
  • Transport Channels - BCH, DL-SCH, PCH, UL-SCH, RACH
  • Mapping Logical Channels into Transport Channels
  • RNTI Identities
  • Random Access Process
  • Contention and Non-Contention based Random Access Procedure
  • Activity
  • Signalling analysis of RRC and NAS using the Mpirical NetX and Message Analysis using 3GPP specifications and ASN.1.Operational Procedures
  • Duration: 4 hours
  • Topic areas covered include
  • Contents of RRC MIB and SIB messages, Scheduling Options
  • PLMN selection and Initial Cell Selection algorithms, Optimization of Parameters
  • LTE initial procedures, RRC Connection, Signalling Radio Bearers
  • Attach, PDN Connectivity and Default and Dedicated Bearer Establishment
  • Paging and ECM Idle DRX
  • ISR (Idle Signalling Reduction)
  • RRC UE Capability and Security
  • RRC Messages in Operation
  • Measurement Configuration
  • Mobility Control Information
  • Radio Resource Configuration
  • E-UTRA and LTE Security - Authentication, Algorithms and Keys, Ciphering and Integrity
  • MAC Scheduling
  • Scheduling Uplink and Downlink Users
  • Scheduling Methods
  • VoLTE Scheduling, SPS (Semi Persistent Scheduling)
  • ECM Connected DTX and DRX
  • End to End Downlink and Uplink IP Data Flow
  • Activity
  • Signalling analysis using Mpirical's NetX
  • Duration: 0.5 hours
  • Topic areas covered include
  • X2 Functions and Protocols related to Air Interface
  • Mobility
  • ICIC and eICIC
  • X2AP
  • Message Format, Messages and Key Parameters
  • GTPv1-U
  • GTPv1-U Header, Messages and Key Parameters
  • Activity
  • Signalling analysis of X2AP using the Mpirical NetX
  • Duration: 3.5 hours
  • Topic areas covered include
  • LTE mobility, LTE cell planning, capacity and coverage planning, frequency deployment options
  • Mobility functional architecture, role of the eNB and MME, Tracking Areas
  • E-UTRA Measurements, RSSI, RSRP, RSRQ
  • Idle Mode Procedures, LTE Idle Mode monitoring requirements
  • Cell Reselection, Priority based Reselection, Intra-Frequency measurements, Inter-Frequency and inter-RAT measurements, High and Medium Mobility States, Ranking of Cells, Tracking Area Update
  • Configuring Periodic and Event based Reporting
  • Timers and Thresholds
  • Mobility in ECM Connected State, Measurements, Gap Configurations, Event Triggers, Timing, the Handover Process
  • Carrier Aggregation and CA Mobility
  • Inter-RAT Mobility
  • Activity
  • Signalling analysis of an RRC mobility procedure using Mpirical’s NetX
  • Duration: 1 hour
  • Topic areas covered include
  • Relay Classification
  • LTE-Advanced Relay Protocols
  • Subframe Configuration, Backhaul and HARQ
  • Relay Operational Procedures
  • Performance
  • Activity
  • Examine S1AP/RRC messages related to LTE-Advanced Relay
  • Duration: 0.5 hours
  • Topic areas covered include
  • LTE SON vs LTE-Advanced SON
  • SON Architecture
  • Automatic Neighbour Relationship Procedures
  • Self Healing
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Duration 18 hours
CPD Learning Credits 18
Accreditation ITP Certified

This course has been independently assessed and accredited by both the ITP (Institute of Telecommunications Professionals) and the CPD Standards Office (Continuing Professional Development). Their marks of excellence awarded to Mpirical provides you with the recognition that the learning you have completed conforms to best practice and is appropriate for inclusion in a formal training record. Our certified courses mean you can be certain you’re receiving the highest quality training. Both the ITP and the CPD use independent specialists to regularly assess all our products and services. Including our Learning.

ITP Certified

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ITP Certified

Mpirical classes have been developed in accordance with the technical specifications published by the 3GPP. As such the 3GPP have granted Mpirical Limited the right to use the 3GPP logo to identify specifications, compliant products and services.

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