| Who Should Attend: |
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| Anyone in need of in-depth insight of the 1xEV-DV radio interface and the packet radio system
including: system operators, technicians, engineers, telecommunication managers responsible for analysis, designing,
manufacturing, deploying, and optimizing performance of CDMAone and CDMA2000 wireless systems . RF engineers, network
planners and advanced users who wish to gain the fundamental knowledge of the issues involved in the migration
process from an IS-95 network to a CDMA2000 1xEV-DV, will find this course an essential. This course is beneficial
for anyone involved in product design, system design, test, engineering, and network operations. |
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| Prerequisites: |
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| General knowledge of cdmaOne is required.. |
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| Course Description: |
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| CDMA2000 1xEV-DV (1x EVolution for Data and Voice) provides integrated voice and simultaneous
high-speed packet data multimedia services at high speeds . 1xEV-DV is backward compatible to IS-95A/B and CDMA2000
1X and will enable a simple migration to 1xEV-DV from 1X networks while preserving existing services offered by
operators, including voice and data services on the same carrier, and simultaneous voice and data. |
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| Course Objectives: |
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Upon completion of this course, the participant will:
- Understand 1xEV-DV general requirements
- Discuss 1xEV-DV radio environment
- Explore 1xEV-DV network architecture, interfaces and protocol stacks
- Review 1xEV-DV physical layer, traffic channel operation
- Discover 1xEV-DV hand-off and power control
- Calculate 1xEV-DV System Capacity
- Understand 1xEV-DV Compatibility and Interoperability
- Explore 1xEV-DV deployment and interworking
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| Course Outline: |
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Inroduction and Benefits of 1xEV-DV
- Key concepts
- Architectural options for 1xEV-DV
- Link Adaptation
- Fast Cell Selection techniques
- Hybrid ARQ operation
- Adaptive transmission parameters
- QoS Support
- Support for a Broadcast Multicast
- Applications and services
- Platforms and application types
- Dual-mode devices
- Coverage and service availability
- Competitive advantage for operators
- Higher system capacity
- System operation and maintenance
- Seamless voice and data integration in a single system
- Spectral efficiency
- Service quality
- Transition scenarios
1xEV-DV Requirements
- New features
- Voice and data services
- Core network
- System capacity and information data rates
- General requirements
- Radio environment
- Compatibility
- Interoperability
1xEV-DV Architecture
- Network Architecture and Interfaces
- Interfaces and related protocol layers
- High level traffic flow
- New physical channels
- Link Adaptation
- Handoff and Power Control
- Data Rate Control
- Dynamic Channel Estimation
- Adaptive transmission parameters
- Adaptive modulation and coding
- Hybrid ARQ
- Cell selection
- Flexible TDM/CDM multiplexing
- Small packet support
1xEV-DV Technical Overview
- Backward Compatibility with CDMA2000
- 1xEV-DV overlay
- Traffic Channel Operation
- Dynamic channel reporting
- Higher Forward Link Capacity
- Adaptive Modulation and Coding
- Forward Packet Data Channel Data Rates
- TDM-CDM operation
- Adaptive coding and higher order modulation
- Hybrid ARQ
- Multiple parallel ARQ streams
- Adaptive Modulation and Coding schemes (AMC)
- Hybrid Automatic Repeat reQuest (HARQ)
- Voice Service and Concurrent Voice/Data Support
- Multiple Concurrent Traffic Types
- Cell Selection
- Flexible TDM/CDM Multiplexing
- Resource scheduling
- Walsh space management
- Walsh Code Tree
- Small Packet Support
1xEV-DV System Description
- 1xEV-DV Features
- Comparison to IS-95/1x/1xEV-DO
- 1xEV-DV network
- 1xEV-DV design
- 1xEV-DV protocol layering
- 1xEV-DV design considerations
- System performance projections
- Link budgets analysis
- System capacity
- Network architecture
- Protocol overview
- Physical layer
- Physical Layer functions
- New Packet Data and Control Channels
- New Quality Indication and ACK Channels
- MAC layer
- 1xEV-DV call processing
- Session and connection layer protocols
- 1xEV-DV identifiers
New 1xEV-DV Channels
- Forward Packet Data Channel (F-PDCH)
- Forward Packet Data Control Channel (F-PDCCH)
- Reverse Channel Quality Indicator Channel (R-CQICH)
- Reverse Acknowledgment Channel (R-ACKCH)
- Reuse of 1X traffic channels (R-FCH, R-DCCH and R-SCH)
- F-CPCCH
- Traffic Channel Combinations Typical Use
- Mixed voice and data services
- Data-only services
- Physical Layer (coding and modulation)
- Multiplex sublayer
- Common channel multiplex sublayer
1xEV-DV Call Setup Operation and Flow
- End-to-End Call Scenario
- High data rate call setup
- Capability indicators
- 1xEV-DV call flow
- MS Originated call setup
- 1xEV-DV origination without a dedicated traffic channel
- Packet data call origination
- Traffic channel combinations
1xEV-DV Deployment and Interworking
- Evolution from 1x network
- Evolution from 1xEV-DO network
- Interworking with 1x and 1xEV-DO networks
1xEV-DV Operations Scenarios
- Detailed Operations Scenarios
- 1xEV-DO & CDMA2000 Interworking
- Transition to 1xEV-DV
- End-to-End Call Scenarios
- Call Setup Operation
- Packet data call origination
- Handoff and Power Control
- Cell switching techniques
- Handoffs and cell-switching
- End-to-End Call Scenarios
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