wimax planner
2011-11-23, 11:31 PM
This is the course content >> if some one could get it for us !! .. plz
1. Overview of WiMAX RF Design
1.1. Radio network design goals, inputs, and outputs
1.2. Radio network planning process
2. WiMAX Air Interface
2.1. Network architecture
2.2. OFDMA
2.3. TDD frame structure
2.4. DL and UL MAP
2.5. Subchannel allocation
3. Antenna Considerations
3.1. WiMAX diversity techniques
3.2. Space Time Coding (STC) – MIMO-A
3.3. Spatial multiplexing – MIMO-B
3.4. Beamforming antenna considerations
4. WiMAX Market and Engineering Requirements
4.1. Coverage, capacity, and QoS
4.2. System configuration
4.3. Engineering requirements
4.4. Financial and regulatory
5. Link Budget for Mobile WiMAX
5.1. System parameter considerations
5.2. Gains and losses
5.3. Pathloss comparison for UL and DL
6. WiMAX Capacity Planning
6.1. Data traffic modeling
6.2. Air interface capacity planning
6.3. Backhaul capacity planning
7. RF Design
7.1. RF design process and options
7.2. Morphology definition
7.3. Propagation models
7.4. Site placement
7.5. Coverage prediction
8. Site Selection Considerations
8.1. Site selection criteria
8.2. Site candidate selection process
9. Data Call Setup in WiMAX
9.1. System acquisition
9.2. Data call setup process
9.3. Traffic channel operations
10. WiMAX Configuration Parameters
10.1. Frequency planning
10.2. Subchannelization planning
10.3. PUSC, FUSC, and AMC zones
10.4. Preamble and permbase planning
11. WiMAX Operational Parameters
11.1. Cell selection/reselection parameters
11.2. Handover parameters
11.3. Power control parameters
12. Site Testing and Acceptance
12.1. Key performance indicators
12.2. Drive testing
12.3. Site shakedowns
12.4. Cluster testing
12.5. System acceptance
1. Overview of WiMAX RF Design
1.1. Radio network design goals, inputs, and outputs
1.2. Radio network planning process
2. WiMAX Air Interface
2.1. Network architecture
2.2. OFDMA
2.3. TDD frame structure
2.4. DL and UL MAP
2.5. Subchannel allocation
3. Antenna Considerations
3.1. WiMAX diversity techniques
3.2. Space Time Coding (STC) – MIMO-A
3.3. Spatial multiplexing – MIMO-B
3.4. Beamforming antenna considerations
4. WiMAX Market and Engineering Requirements
4.1. Coverage, capacity, and QoS
4.2. System configuration
4.3. Engineering requirements
4.4. Financial and regulatory
5. Link Budget for Mobile WiMAX
5.1. System parameter considerations
5.2. Gains and losses
5.3. Pathloss comparison for UL and DL
6. WiMAX Capacity Planning
6.1. Data traffic modeling
6.2. Air interface capacity planning
6.3. Backhaul capacity planning
7. RF Design
7.1. RF design process and options
7.2. Morphology definition
7.3. Propagation models
7.4. Site placement
7.5. Coverage prediction
8. Site Selection Considerations
8.1. Site selection criteria
8.2. Site candidate selection process
9. Data Call Setup in WiMAX
9.1. System acquisition
9.2. Data call setup process
9.3. Traffic channel operations
10. WiMAX Configuration Parameters
10.1. Frequency planning
10.2. Subchannelization planning
10.3. PUSC, FUSC, and AMC zones
10.4. Preamble and permbase planning
11. WiMAX Operational Parameters
11.1. Cell selection/reselection parameters
11.2. Handover parameters
11.3. Power control parameters
12. Site Testing and Acceptance
12.1. Key performance indicators
12.2. Drive testing
12.3. Site shakedowns
12.4. Cluster testing
12.5. System acceptance