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LTE / LTE-Advanced / LTE-A Pro Module 1.3

  • Course level: Intermediate

Description

LTE / LTE-Advanced / LTE-A Pro Module 1.3

LTE Advanced Pro was introduced to deliver the first genuinely worldwide, high data rate, and packet-optimized system, paving the way for 5G NR LTE. Subscribers can access the mobile internet quickly and easily thanks to long-term evolution (LTE). At the end of 2009, the first commercial 4G network went live. The next evolutionary phase, 4G Advanced, introduced substantial enhancements such as carrier aggregation
to improve the distribution of mobile broadband services, long-term evolution-Advanced Pro lays the groundwork for 5G, the next significant advancement in wireless communications, which will include the deployment of NB-IoT for huge machine-to-machine connections, for example (mMTC).

long-term evolution is defined in 3GPP Releases 8 and 9;

long-term evolution-Advanced is defined in 3GPP Releases 10–12;

long-term evolution-Advanced Pro is defined in 3GPP Releases 13–15.

This course provides test methods that are modular and versatile and cover all areas of 4G testing. Signal generators and spectrum analyzers, as well as component and power amplifier measurements, are used to comprehensively test the transmitters and receivers used in base stations and wireless devices. All important MIMO modes including channel simulation are supported by unique MIMO test solutions, including a complete one-box test solution.

Powerful communications testers offer all protocol levels to completely test the air interface of wireless devices, from RF to end-to-end data. The testers may be configured to suit any test application need in all phases of development, verification, and production thanks to a scalable platform. Global certification organizations require scalable RF test solutions to successfully satisfy their verification and conformance test requirements.

 

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What Will I Learn?

  • LTE's History
  • Advance IMT Guidelines
  • Overview of the Evolution of LTE Network Architecture
  • Design Requirements for LTE A
  • Aggregation of Carrier
  • CoMP is a group of people who work together (Coordinated multi-point operation)
  • eICIC MIMO LTE Advance Pro Design Requirements for Interference Coordination
  • CA LAA eLAA LTE Advanced CA

Topics for this course

13 Lessons

VoLTE based on IMS: How to ensure voice quality in the field

Getting started with the R&S®TSME ultracompact drive test scanner00:00:00
Rohde & Schwarz webinar: Improving the efficiency of your envelope tracking test setup00:00:00
UK LTE Forum00:00:00
: vehicle communications for safety: eCall fundamentals and test solutions00:00:00
Rohde & Schwarz webinar: vehicle communications for safety: eCall fundamentals and test solutions00:00:00
vehicle communications for safety: eCall fundamentals and test solutions00:00:00
The new R&S®TSME Ultracompact Drive Test Scanner00:00:00
LTE UE RF measurements – revolutions00:00:00
LTE signal measurements using the R&S®FSH handheld spectrum analyzer00:00:00
CMW500 – An Introduction to CMWcards00:00:00
Wi-Fi traffic offload in LTE00:00:00
Standard-compliant LTE/LTE-A signal setup with the R&S®SMW200A vector signal generator00:00:00
Interferer, AWGN generation and realtime fading simulation using R&S®SMW200A vector signal generator00:00:00
Free

Enrolment validity: Lifetime

Requirements

  • It's necessary to have a working knowledge of LTE.