Abstract Worldwide Interoperability for Microwave Access (WIMAX) , is considered today the most interesting opportunity able to provide coverage distance of almost 50 Km and data throughput to 70 MbPs and to complete wired network architecture enquiry a flexible and cheap solution for the last mile. WiMAX is suffers from poor indoor coverage and the high cost of deploying base station. We can solve this problems by using Femtocell , it is very small cell or home access point ( Femto 10ିଵହ ) Femtocells provide better in-premise coverage and reduce macro network deployment costs. While operators are benefited by low backhaul cost, and low power, backward compatible and scalable deployment, the end users enjoy better in-premise coverage, low service usage costs, and a better access to new and innovative applications. In this research a study and analysis of WiMAX network is done by using simulation written in MATLAB. In which the used of Femtocell resulted in improvement in the signal to interference ratio by 63% .and throughput increase by 47%. And also bit rate increased by 10% to 25% the increased of bit rate mean increased in spectral efficiency by 40% .and that the value of time delay decreased in Femtocell case applied by 9% .due to the above recorded enhancement in the performance parameters recommendations are made in assaying and Appling Femtocell for WiMAX network that are to be a technology to solve poor indoor coverage problem.
TABLE OF CONTENTS
CHAPTER TITLE PAGE
I الایة
ACKNOWLEDGEMENT II
DEDICATIONT III
ABSTRACT IV
V المستخلص
TABLE OF CONTENT CONAENT VI
LIST OF TABLE VII
LIST OF FIGURE VIII
LIST OF SYMBOLE IX
ABBREVIATIONS X
1 Chapter One
1.1 PREFACE 1
1.2 PROPLEM STATEMENT 2
1.3 PROPOSED SOLUTION 2
1.4 AIMS AND OBJECTIVES 2
1.5 SPESCIFIC OBJECTIVES 3
1.6 METHODOLOGY 3
1.7 THESIS OUTLINES 3
2 Chapter Two
2.1 OVERVIEW OF WIMAX 4
2.1.1 USES OF WIMAX 6
2.1.2 WIMAX INFRASTRACTION 6
2.2 WIMAX SPECIFICATION 7
2.2.1WIMAX RANGE 8
2.2.2 WIMAX DATA RATE 8
VII
2.2.3 WIMAX COST 9
2.2.4 WIMAX QUALITY OF SERVICE
(QOS)
9
2.3 WIMAX DESIGN 10
2.3.1 BACKHAUL CONNECTION 10
2.3.2 A WIMAX RECEIVER AND
TRANSMITER
10
2.4 WIMAX FAMILIES 11
2.4.1 FIXED WIMAX 12
2.4.2 MOBILE WIMAX 12
2.5 ADVANTAGES OF WIMAX 13
2.5.1 MORE FLEXIBILITY AND ECURITY 13
2.5.2 WIMAX IS A VERY EFFICIENT
RADIO SOLUTION
13
2.6 FEMTOCELL 14
2.6.1 OPERATING MODE 17
2.6.2 BENEFITS FOR USER 18
2.6.3STANDARIZED ARCHITECTURES 19
2.6.4 QULAITY OF SERVIVE 20
2.6.5 SPECTRAL ACCURANCY 21
2.6.6 SECURITY OF FEMTOCELL 22
2.7 RELATED WORK 23
2.7.1 Adaptive Coverage Adjustment for
Femtocell Management in a Residential Scenario
23
2.7.2 Femto Cells: Current Status and Future
Directions
24
VIII
3 Chapter Three
3.1 SIGNAL TO INTERFERENCE RATIO 25
3.2 THROUGHPUT 26
3.3 THEORETICAL MAXIMUM BIT RATE 28
3.4 SPECTRAL EFFICIENCY 28
3.5 TRANSMISSION DELAY 29
3.6 SIMULATION DEVELOPMENT 30
3.7 SIMULATION OUTPUT 30
4 Chapter Four
4.1 SIGNAL TO INTERFERENCE NOISE RATIO
COPARISON
32
4.2 ACCUMULATED THROUGHPUT
COMPARISON
33
4.3 BIT RATE COMPARISON 34
4.4 SPECTRAL EFFICIENCY COMPARISON 35
4.5 TRANSMISSION DELAY COMPARISON 36
4.6 BAND WIDTH COMPARISON 37
5 Chapter Five
5.1 CONCLUSION 38
5.2 RECOMMENDATION 39
6 REFERENCES
7 APPENDICES
Omar, O (2022). Performance Evaluation of WiMAX Femtocell. Afribary. Retrieved from https://track.afribary.com/works/performance-evaluation-of-wimax-femtocell
Omar, Omaiman "Performance Evaluation of WiMAX Femtocell" Afribary. Afribary, 10 Sep. 2022, https://track.afribary.com/works/performance-evaluation-of-wimax-femtocell. Accessed 23 Nov. 2024.
Omar, Omaiman . "Performance Evaluation of WiMAX Femtocell". Afribary, Afribary, 10 Sep. 2022. Web. 23 Nov. 2024. < https://track.afribary.com/works/performance-evaluation-of-wimax-femtocell >.
Omar, Omaiman . "Performance Evaluation of WiMAX Femtocell" Afribary (2022). Accessed November 23, 2024. https://track.afribary.com/works/performance-evaluation-of-wimax-femtocell