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Handbook of CDMA System Design Engineering, & Optimization
1757B-9
Designing state-of-the-art CDMA systems, start to finish.
The comprehensive, up-to-date CDMA design resource for every professional
Digital CDMA mobile communications systems already serve millions of users, but techniques for optimizing these systems are still continuing to evolve through research and field
testing. In the Handbook of CDMA System Design, Engineering, and Optimization, leading CDMA researcher Dr. Kyoung Il Kim and the Members of Technical Staff of Bell Labs, Lucent Technologies bring together the field's most valuable experience and methods in a single authoritative, up-to-date resource for every working CDMA professional.
The authors offer in-depth coverage of all key issues associated with CDMA system engineering, presenting clear guidelines and advanced simulations that address everything from RF design to traffic engineering and antenna installation. Coverage also includes:
* Intrasystem and intersystem interference estimation
* Pilot channel PN assignment
* Access and paging channel capacity and engineering
* Handoff-related issues
* Link budgets, link capacity, link coverage, and more
About the CD-ROM
The accompanying CD-ROM contains a demonstration version of Bell Labs' Cellular Engineering 4 (CE4), the industry's most advanced CDMA coverage prediction software-ideal for gaining hands-on experience with CDMA cell planning.
CONTENTS:
Preface.
Foreward.
1. Introduction.
References.
2. CDMA Overview.
Concept. Attributes. Reference.
3. Spectrum Coordination.
Spectrum Coordination. References.
4. Pilot Assignment.
Introduction. Pilot Channel Model. Call Processing for a Mobile Station. PILOT_INC and Pilot Phase Offset Reuse. A Procedure for Phase Assignment. References.
5. Mobile Station Access and Paging.
Description of Mobile Station Access Protocol. Average Persistence Delay for Access Request Attempt. Access Channel Capacity. Paging Channel Capacity. References.
6. Handoff.
Hard Handoff. Soft and Softer Handoff. Inter-Carrier Handoffs. References.
7. Link Budgets.
Derivation of the Reverse-Link Budget. Forward Link. References.
8. Capacity.
Reverse-Link Capacity. Forward-Link Capacity. Reference.
9. Coverage.
Reverse-Link Coverage Area. Forward-Link Coverage Area. A Derivation of Coverage Probability for Pilot Channel. Reference.
10. Traffic Engineering.
Introduction. Analysis. Numerical Results. References.
11. Antennas.
Introduction. Antenna Concepts. Antenna System with Interference and Cell Coverage. Diversity Antenna Systems. Antenna Isolation Guidelines for Collocated RF Stations. References.
Appendix A: RF Design Process.
Purpose. Process Overview. Preliminary Design Phase. Project Plan and Requirements Review. Data Preparation. Area Visits. Morphology Definition, Drive Test, and Calibration. Verify Input Parameters for Coverage Prediction. Capacity Planning. (Iterative) Engineering. Determine Search Rings. Preliminary Design Review. Final Design Phase. Candidate-Site Selection. Preliminary Evaluation of Candidate-Site Coverage. Drive Test of Candidate Sites. Drive-Test Data Analysis. Update Parameters Needed for Coverage Prediction. Capacity Planning/Traffic Studies. Final RF Candidate Site Selection and Sketch Preparation. Create Input to Cell Equipment Lists. PN Planning. Create Coverage Prediction Plots. Design Review.
Appendix B: Outline of RF Optimization Procedures.
Cluster Testing. System-Wide Optimization.
Appendix C: RF Coverage Prediction with CE4.
Overview of the CE4 Cellular Engineering Tool. Analysis Features Available for the Demo Version of CE4. System Requirements and Installation. Limitations of the Demo Version of CE4. Walk-Through of the CE4 Tool.
Index.
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