WiMAX Traffic and Capacity Engineering Training

Commitment 3 Days, 7-8 hours a day.
Language English
User Ratings Average User Rating 4.8 See what learners said
Price REQUEST
Delivery Options Instructor-Led Onsite, Online, and Classroom Live

COURSE OVERVIEW

WiMAX Traffic and Capacity Engineering Training: 3G and 4G mobile networks are rapidly evolving to a mixed usage model where data will become increasingly more prevalent in the mix of traffic demanded by consumers. The increasingly diverse voice/data mix includes services such as VoIP, web browsing, presence, online gaming, streaming, and IPTV. Wireless carriers must develop a good understanding of the user data patterns and apply sophisticated traffic/capacity and Quality of Service (QoS) management techniques to be able to offer a network that responds effectively to their subscriber needs.

Understanding of the varied traffic mixes, prediction of capacity requirements, impact on network policies, spectrum utilization and performance, buffers, quality of service, and impacts of and to mobility management are some of the key factors in unlocking the potential of a WiMAX-enabled network. In this WiMAX Traffic and Capacity Engineering Training course, we will undertake an in-depth study of these and related WiMAX packet traffic engineering issues.

WHAT'S INCLUDED?
  • 3 days of WiMAX Traffic and Capacity Engineering Training with an expert instructor
  • WiMAX Traffic and Capacity Engineering Electronic Course Guide
  • Certificate of Completion
  • 100% Satisfaction Guarantee
RESOURCES
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ADDITIONAL INFORMATION

COURSE OBJECTIVES

Upon completing this WiMAX Traffic and Capacity Engineering Training course, learners will be able to meet these objectives:

  • Describe the major components of the mobile network architecture, including signaling, and how they work together
  • Describe how different services place different demands on the network and affect the utilization of resources
  • Model and predict the impact of network capacity requirements on varying applications and diffusion curves
  • List all the packet models relevant to WiMAX and Mobile WiMAX services
CUSTOMIZE IT
  • Let us know your job focus, whether traffic management, capacity planning, quality of service, services design, technology migration strategy, business or growth planning, capital budgeting, or other. We can usually tailor this WiMAX Traffic and Capacity Engineering Training course to your needs at little to no extra cost.
  • If you are a marketer or designer of value-added services, we can focus on the types of new services that are enabled by WiMAX.
  • We can also customize this WiMAX Traffic and Capacity Engineering course to audiences with network or RF engineering, IT, operations and support, or other orientations.
AUDIENCE/TARGET GROUP

The target audience for this WiMAX Traffic and Capacity Engineering Training course:

  • Those responsible for the traffic/capacity engineering and optimization of WiMAX systems.
CLASS PREREQUISITES

The knowledge and skills that a learner must have before attending this WiMAX Traffic and Capacity Engineering course are:

COURSE SYLLABUS

Introduction
  • Course objectives and overview
  • Overview of probabilistic systems
  • Overview of stochastic systems
  • Overview of Monte Carlo simulation
  • Arriving at a deterministic function based on probability
  • Impact on the rate of change based on multi-variant inputs
Telecommunications Traffic and Self-Similarity
  • Overview of traffic simulation
  • Use of Monte Carlo simulation for telecommunications
  • Cost-based routing systems
  • Telecommunications services types and traffic generation
  • Packet voice call profiles
  • Data traffic profiles
  • Composite services, combinations, and permutations
  • Accounting for static capacity
  • Accounting for the impact of mobility on available capacity by services type
WiMAX Traffic and Capacity Engineering Training – Accounting for Capacity
  • Services and traffic types
  • Diffusion curves and variability of demand
  • Impact to capacity based on services type
  • Quality of service requirements
  • Class of service capabilities in WiMAX/Mobile WiMAX systems
  • Single variable, static dimensioning of capacity
  • Multivariable dimensioning of capacity
  • Predictions to the impact of services based QoS to radio network performance and operation
Modeling
  • Defining probabilities
  • Weighting applications and services
  • Combinations and permutations of various demand profiles
  • Cumulative distribution functions
  • Probability distribution functions
  • Model tuning based on latency
  • Model tuning based on buffer capacity
  • Model tuning based on QoS requirements per application
  • Model tuning based on application weighting
  • Application and use of the Central Limit Theorem to results
  • Applying confidence intervals to results
  • Analyzing results
    • Applying results to radio network capacity planning and engineering
    • Predicting quality of service, coverage holes, and inter/intra ANC load balancing
Architectural Impacts
  • Review of WiMAX mobile network
  • Discussion of composite services for WiMAX networks
  • Services demand and application loading on a WiMAX mobile network
  • Sensitivity of user profile/demand profile to the overall architecture
  • Dimensional trade-offs, capacity versus mobility versus probability of time slot availability
Workshops
  • Generation of service demand
  • Calculation of traffic requirements
  • Busy hour dimensioning
  • Monte Carlo simulation
  • Understanding the impact and sensitivity of the services model to network dimensioning and quality of service
  • Accounting for mobility per application
  • Scheduling
  • Buffering
  • Latency
  • Quality of Service (QoS)
  • Further network optimization techniques
  • Further quality of service enhancements
WiMAX Traffic and Capacity Engineering TrainingWiMAX Traffic and Capacity Engineering Training Course Recap, Q/A, and Evaluations

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