CDMA Capacity and Quality Optimization
Published on 16. March 2003
Book
Hardback
627 pages
978-0-07-139919-7 (ISBN)
Description
Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.
Now that CDMA has been accepted as a key component of worldwide 3G systems, service providers, capacity planners, engineers and technicians need to understand the best methods and tools for maximizing throughput, capacity, and quality. This book provides that expertise.
Now that CDMA has been accepted as a key component of worldwide 3G systems, service providers, capacity planners, engineers and technicians need to understand the best methods and tools for maximizing throughput, capacity, and quality. This book provides that expertise.
More details
Language
English
Place of publication
United States
Publishing group
McGraw-Hill Education - Europe
Target group
Professional and scholarly
Product notice
sewn/stitched
Cloth over boards
Illustrations
50 Illustrations
Dimensions
Height: 243 mm
Width: 197 mm
Thickness: 49 mm
Weight
1315 gr
ISBN-13
978-0-07-139919-7 (9780071399197)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Persons
Adam Rosenberg (Atlanta, GA) is an industrial mathematician who has built decision-support systems for telephone companies, airlines, railroads, automobile resellers, and hotels. Dr. Rosenberg was part of the Advanced Mobile Phone Service systems engineering group at Bell Laboratories. Later he worked for InterDigital Communications Corporation on broadband CDMA, where he did statistical capacity analysis of CDMA for wireless local loop. He holds a Ph.D. from Stanford in Operations Research, and an A.B. in mathematics from Princeton University.
Sid Kemp (San Antonio, TX), is a leading expert in project management for information technology and telecommunications implementations. His company, Quality Technology and Instruction, provides a custom project management methodology to businesses, government agencies, and educational organizations. He has assisted Fortune 500 companies and government agencies in the deployment of new technology, and developing custom project management methodologies. Mr. Kemp has more than 15 years of experience in IT and telecommunications, and has authored 5 textbooks for use in courses and corporations. He has been teaching a seminar on Project Management for Information Technology for three years.
Sid Kemp (San Antonio, TX), is a leading expert in project management for information technology and telecommunications implementations. His company, Quality Technology and Instruction, provides a custom project management methodology to businesses, government agencies, and educational organizations. He has assisted Fortune 500 companies and government agencies in the deployment of new technology, and developing custom project management methodologies. Mr. Kemp has more than 15 years of experience in IT and telecommunications, and has authored 5 textbooks for use in courses and corporations. He has been teaching a seminar on Project Management for Information Technology for three years.
Content
Section 1: KEY RADIO CONCEPTSChapter 1: Radio Engineering ConceptsChapter 2: The User TerminalChapter 3: The CDMA Mobile SystemChapter 4: The Base StationChapter 5: Basic Wireless TelephonyChapter 6: Analog Wireless Telephony (AMPS)Chapter 7: TDMA Wireless Telephony (GSM)Chapter 8: The CDMA PrincipleSection 2: STANDARDS FOR CELLULAR SYSTEMSChapter 9: General Cellular StandardsChapter 10: Worldwide CDMA StandardsSection 3: KEY TELEPHONE CONCEPTSChapter 11: The PSTN and Telephone SwitchingChapter 12: Telephony Engineering ConceptsChapter 13: Telephone TransportChapter 14: Signaling with SS7Chapter 15: ANSI-41Chapter 16: Call StatesSection 4: KEY DATA CONCEPTSChapter 17: Quality of Service (QoS)Chapter 18: Speech CodingChapter 19: Hybrid Voice-Data NetworksChapter 20: Short Message Service (SMS)Chapter 21: Wireless Data ServiceSection 5: CAPACITY AND QUALITY PRINCIPLESChapter 22: Capacity and Quality TradeoffsChapter 23: Traffic Engineering for Voice and DataChapter 24: Switching CapacityChapter 25: ANSI-41 Signaling CapacityChapter 26: Capacity Calculations for Cellular NetworksChapter 27: Conventional Reuse PrinciplesChapter 28: CDMA Principles for Multicellular SystemsChapter 29: CDMA Data Capacity PrinciplesChapter 30: Capacity Issues Specific to CDMASection 6: PLANNING FOR CDMA CAPACITYChapter 31: Estimating Wireless Telephone DemandChapter 32: Planning Locations for Base StationsChapter 33: Base Station PlanningChapter 34: Mobile Switching Center (MSC) PlanningChapter 35: Backhaul PlanningChapter 36: Signaling Capacity PlanningChapter 37: MSC Transport PlanningChapter 38: Special SituationsSection 7: INCREASING CAPACITYChapter 39: Measuring System Performance for GrowthChapter 40: Turning Your Complaints into Useful DataChapter 41: Increasing Capacity of a Base StationChapter 42: Adding Cells to a CDMA StationChapter 43: Mobile Switching Center (MSC) GrowthChapter 44: Adding TransportChapter 45: Regional Growth in a Specific AreaSection 8: MODELING FOR CDMAChapter 46: Business-Case ModelsChapter 47: Propagation ModelsChapter 48: Subscriber Traffic ModelingSection 9: CONCLUSIONChapter 49: CDMA Now and in the FutureAppendix A: AcronymsAppendix B: Physical UnitsGlossaryReferencesIndexAbout the Authors