3G Fundamentals Training

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3G Fundamentals Training

Introduction:

3G Fundamentals Training Course

This 3G Fundamentals Training course seeks to provides insight into the development 3G LTE and 4G, the next generation of mobile networks. The 3G Fundamentals Training course covers the fundamental principles of 3G LTE and 4G, such as MC-CDMA, OFDM and OFDMA as well as MIMO, IPv6, AMC and Software Defined Radios. Discussed are the overall architecture, protocols, RF planning and considerations as well as 4G services infrastructures that will enable very high data rate wireless broadband services.

Customize It:

● If you are familiar with some aspects of this course, we can omit or shorten their discussion.
● We can adjust the emphasis placed on the various topics or build the course around the mix of technologies of interest to you (including technologies other than those included in this outline).
● If your background is nontechnical, we can exclude the more technical topics, include the topics that may be of special interest to you (e.g., as a manager or policy-maker), and present the course in manner understandable to lay audiences.

Related Courses:

3G/LTE Performance Analysis & Optimization
3G | WCDMA | CDMA2000 Training in Depth

Duration: 2 days

Objectives:

◾Get detailed insight into the state of the technical art of 3G LTE and 4G mobile radio networks
◾Understand fundamental building blocks of 3G LTE/4G
◾Understand the 3G LTE /4G architecture
◾Understand the different protocols involved in achieving high data rates in 3G LTE/4G
◾Learn how OFDM, MIMO and SDR work
◾Learn all about the 3G LTE/4G air interface
◾Learn the operation of handovers over heterogeneous networks
◾Learn the evolution path to 4G services

Course Content:

Beyond 3G Wireless
◾HSDPA
◾HSUPA
◾Fixed-mobile convergence
◾Radio spectrum economics
◾Ubiquity
◾4G mobile communications

3G LTE
◾What is 3G LTE
◾Characteristics
◾Technologies used
◾Architecture & protocols
◾3G LTE services

4G Wireless
◾4G wireless defined
◾Standardization bodies
◾Radio spectrum
◾4G implementation and trials
◾4G characteristics
◾4G capabilities and services
◾Technological challenges

3G LTE/4G Radio Interface
◾Advanced multiple access techniques
◾Advanced modulation
◾Advanced coding techniques
◾4G packet schedulers
◾MC-CDMA
◾OFDM
◾OFDMA
◾MIMO
◾SDR
◾4G radio transceiver architectures

4G Mobility Considerations
◾Radio access
◾Handovers
◾Intersystem handovers
◾Interfrequency handovers
◾Universal and network agnostic roaming
◾Seamless connectivity
◾Ubiquitous access

4G Core Network
◾Possible architectures
◾Convergence of fixed and mobile access
◾Heterogeneous traffic management
◾QoS issues
◾Radio resource management
◾Mobility management
◾Throughput
◾Latency
◾Harmonized all-IP network infrastructure
◾IPv4 and IPv6
◾Operator service and access management

4G Radio Planning
◾OFDM channel planning
◾OFDMA planning
◾MIMO configurations
◾Planning for seamless mobile access

Advanced Services for 3G LTE and 4G
◾Service architectures
◾IP and SIP based services
◾Security aspects
◾3G LTE service business models and scenarios
◾4G service business models and scenarios

Whether you are looking for general information or have a specific question, we want to help

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Time Frame: 0-3 Months4-12 Months

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