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LTE airside

LTE airside

  • 30 Day Money Back Guarantee
  • Completion Certificate
  • 24/7 Technical Support

Highlights

  • Delivered Online or In-Person

  • You travel to organiser or they travel to you

  • Redhill

  • Two days

  • All levels

Description

LTE Airside training course description

This course provides a concise insight into the LTE
airside. Key parts of the course are detailed looks at the
air interface protocol stack, cell acquisition,
transmission and reception of data and of he layer 1
procedures along with layer 2 procedures.

What will you learn

  • Explain the RF optimisation flowchart.

  • Describe the importance of Reference Signal
    Received Power (RSRP).

  • List many of the 3GPP recommended KPIs.

  • Describe the concept of APN AMBR and UE AMBR
    within LTE.

  • Describe the use of planning and optimisation
    computer tools.

LTE Airside training course details

  • Who will benefit:

Anyone working with LTE.

  • Prerequisites:

Essential LTE

  • Duration

2 days

LTE Airside training course contents
  • Introduction and review of LTE


This section describes the requirements of LTE and key technical features, and reviews the system architecture. LTE Architecture, UE, E-UTRAN and EPC. Specifications.

  • OFDMA, SC-FDMA and MIMO antennas


This section describes the techniques used in the LTE air interface, notably orthogonal frequency division multiple access (OFDMA) and multiple input multiple output (MIMO) antennas. Communication techniques for fading multipath channels. OFDMA, FFT processing and cyclic prefix insertion. SC-FDMA in the LTE uplink. Multiple antenna techniques including transmit & receive diversity and spatial multiplexing.

  • Introduction to the air interface


This section covers the operation of the air interface, the channels that it uses, and the mapping to the time and frequency domains of OFDMA and SC-FDMA. Air interface protocol stack. Logical, transport and physical channels. Frame and slot structure, the resource grid. Resource element mapping of the physical channels and physical signals. LTE spectrum allocation.

  • Cell acquisition


This is the first of three sections covering the air interface physical layer. Here, we cover mobile procedures to start low-level communications with the cell, and base station transmission of the corresponding information. Primary/secondary synchronisation signals. Downlink reference signals. The master information block. Physical control format indicator channel. Organisation and transmission of the system information.

  • Data transmission and reception


In this section, we cover procedures used for data transmission and reception on the shared channels, and describe in detail the individual steps. Data transmission and reception on the uplink and downlink. Scheduling commands and grants on the PDCCH. DL-SCH and UL-SCH. Physical channel processing of the PDSCH and PUSCH. Hybrid ARQ indicators on the PHICH. Uplink control information on the PUCCH. Uplink demodulation and sounding reference signals.

  • Additional physical layer procedure


This section concludes our discussion of the air interface physical layer, by discussing a number of procedures that support its operation. Transmission of the physical random access channel. Contention and non-contention based random access procedures. Discontinuous transmission in idle and connected modes. Uplink power control and timing advance.

  • Air interface layer 2


This section describes the architecture and operation of layer 2 of the air interface protocol stack. MAC protocol, interactions with the physical layer, use for scheduling. RLC protocol, transparent, unacknowledged and acknowledged modes. PDCP, including header compression, security functions and recovery from handover.

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