The topics covered are :

1. LTE Introduction<http://www.eventhelix.com/lte/tutori...E_Introduction>
2. LTE Parameters and Downlink
Modulation<http://www.eventhelix.com/lte/tutori...ink_Modulation>
3. OFDMA and Downlink Frame Structure
Details<http://www.eventhelix.com/lte/tutori...ucture_Details>
4. SC-FDMA and LTE
Uplink<http://www.eventhelix.com/lte/tutori...and_LTE_Uplink>
5. Network and Protocol
Architecture<http://www.eventhelix.com/lte/tutori...l_Architecture>
6. Channel Mapping and UE
Categories<http://www.eventhelix.com/lte/tutori..._UE_Categories>
7. Initial Cell Search and Cell
Selection<http://www.eventhelix.com/lte/tutori...Cell_Selection>
8. System Information<http://www.eventhelix.com/lte/tutori...em_Information>
9. Random Access Procedures and EPS Bearer
Setup<http://www.eventhelix.com/lte/tutori...S_Bearer_Setup>
10. Uplink Channels and
Signals<http://www.eventhelix.com/lte/tutori...ls_and_Signals>
11. LTE Mobility and MIMO
Introduction<http://www.eventhelix.com/lte/tutori...O_Introduction>
12. Downlink and Uplink MIMO in
LTE<http://www.eventhelix.com/lte/tutori...nk_MIMO_in_LTE>
13. eNodeB and UE Performance
Requirements<http://www.eventhelix.com/lte/tutori...e_Requirements>
14. UE Certification and Field
Trials<http://www.eventhelix.com/lte/tutori...d_Field_Trials>

Part 1: LTE Introduction

- Motivations for LTE
- LTE market and background
- Requirements
- Evolution path to LTE


Part 2: LTE Parameters and Downlink Modulation

- LTE parameters and frequency bands
- What is OFDMA?
- OFDMA multiple access and downlink frame structure
- OFDMA transmit and receive chains


Part 3: OFDMA and Downlink Frame Structure Details

- Downlink OFDMA time-frequency multiplexing
- LTE Spectrum Flexibility and Bandwidth
- FDD downlink frame structure detailed
- TDD frame structure


Part 4: SC-FDMA and LTE Uplink

- Introduction to SC-FDMA and uplink frame structure
- Marriage of single carrier transmission and FDMA
- Uplink SC-FDMA tranmsit and receive chains
- Peak to Average Power Ratio (PAPR) comparison with SC-FDMA and OFDMA


Part 5: Network and Protocol Architecture

- LTE/SAE network architecture
- EPC -Evolved Packet Core
- Base Station control plane and user plane protocol stacks
- EPC protocol stacks


Part 6: Channel Mapping and UE Categories

- Logical and transport channel mapping in downlink and uplink
- LTE UE Categories


Part 7: Initial Cell Search and Cell Selection

- Downlink physical channels and signals
- Cell Search and Selection in LTE
- Primary synchronization signal
- Secondary synchronization signal
- Reference signals


Part 8: System Information

- Downlink reference signal details
- Master Information Block on PBCH
- System Information on DL-SCH


Part 9: Random Access Procedure and EPS Bearer Setup

- Random access preamble transmission to eNodeB
- Random access response from eNodeB
- Resource allocation and contention resolution
- Signaling on PDCCH
- Hybrid ARQ
- RRC Connection Setup and EPS Bearer Setup


Part 10: Uplink Channels and Signals

- Uplink physical channels and signals
- PU-SCH: Physical Uplink Shared Channel
- Uplink assignment signaling on PDCCH
- Uplink frequency hopping
- PUCCH


Part 11: LTE Mobility and MIMO Introduction

- Intra MME Handover over the X2 interface
- RRC States
- MIMO Basics
- Transmit diversity
- Spatial multiplexing
- Beamforming


Part 12: Downlink and Uplink MIMO in LTE

- Downlink MIMO modes
- Transmit diversity
- Spatial multiplexing
- Cyclic delay diversity
- Beam forming
- Spatial multiplexing downlink transmitter chain
- Code book based precoding
- Uplink MIMO
- Uplink transmit antenna selection
- Multi-user MIMO


Part 13: eNodeB and UE RF Performance Requirements

- eNodeB modulation quality measurements
- eNodeB performance requirements
- UE performance requirements


Part 14: UE Certification and Field Trials

- LTE terminal testing stages
- LTE terminal certification
- LTE field trial scenarios