LTE | HSPA Intertechnology Optimization Training

LTE/HSPA Intertechnology Optimization Training

Introduction:

LTE | HSPA Intertechnology Optimization Training Course by Example

Today’s multilayer and multi-technology networks require an in-depth understanding of the inter-technology performance and mobility issues. HSPA and LTE networks, which are among the most prevalent, are the focus of this course. Multilayer cell design is a promising approach for broadband continuity but introduces many restrictions and coverage problems for RAN planners and optimizers. We will help you understand the HSPA/LTE interoperability performance, mobility optimization, and tuning issues and use that understanding to improve Quality of Experience for existing users as well as plan for the future network generations.

Customize It:

With onsite Training, courses can be scheduled on a date that is convenient for you, and because they can be scheduled at your location, you don’t incur travel costs and students won’t be away from home. Onsite classes can also be tailored to meet your needs. You might shorten a 5-day class into a 3-day class, or combine portions of several related courses into a single course, or have the instructor vary the emphasis of topics depending on your staff’s and site’s requirements.

LTE | HSPA Intertechnology Optimization TrainingRelated Courses:

Duration: 5-6 days

Objectives:

◾Describe HSPA and LTE functionality and operability
◾Explain HSPA and LTE interoperability issues
◾Trouble shoot HSPA and LTE mobility
◾Improve your skills in HSPA and LTE network mobility and intertechnology performance through case studies and exercises.

Course Content:

Day 1: HSPA overview and design

◾HSPA technology overview
◾HSPA cell planning review
◾HSPA optional features (3GPP and vendor specific)

Day 2: HSPA optimization

◾HSPA capacity optimization (vendor specific)
◾HSPA channel switching optimization
◾HSPA scheduler performance and optimization (vendor specific)

Day 3: HSPA mobility optimization

◾HSPA mobility optimization (vendor specific)
◾HSPA -> LTE intertechnology mobility optimization
◾Special Case: HSPA mobility optimization for smart phones
◾Exercise: HSPA planning optimization for IRAT mobility (using Excel spreadsheets)
◾Case studies: Log file analysis (using TEMS)

Day 4: LTE overview and design

◾LTE technology overview
◾LTE LA-PC-scheduler (3GPP specifications and vendor specific)
◾LTE optimization: Radio planning review (vendor specific parameter configuration)
◾Exercise: LTE planning optimization for IRAT mobility (using Excel spreadsheets)
◾Case studies: Log file analysis (using TEMS)

Day 5: LTE mobility optimization

◾LTE intra-frequency mobility optimization
◾LTE inter-frequency mobility optimization
◾LTE inter-frequency coverage triggered session continuity
◾LTE inter-frequency coverage triggered handover
◾LTE inter-frequency load balancing
◾Exercise: LTE X2 and S1 handover signaling flows
◾Case studies: Optimization and troubleshooting problems for LTE mobility

Day 6: LTE intertechnology (IRAT) mobility optimization

◾LTE -> HSPA IRAT mobility
◾LTE -> HSPA cell reselection
◾LTE -> WCDMA/HSPA coverage triggered session continuity
◾LTE -> WCDMA coverage triggered handover
◾Exercise: LTE IRAT handover signaling flows
◾Case studies: Optimization and troubleshooting problems for LTE mobility

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Time Frame: 0-3 Months4-12 Months

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