XTC: AN ACTIVE VIRTUAL QUEUE (AVQ) ALGORITHM FOR ACTIVE QUEUE MANAGEMENT


ABSTRACT
Virtual Queue-based marking schemes have been recently proposed for AQM (Active Queue Management) in Internet routers. We consider a particular scheme, which we call the Adaptive Virtual Queue (AVQ), and study its following properties: stability in the presence of feedback delays, its ability to maintain small queue lengths and its robustness in the presence of extremely short flows (the so-called web mice). Using a linearized model of the system dynamics, we present a simple rule to design the parameters of the AVQ algorithm. We then compare its performance through simulation with several well-known AQM schemes such as RED, REM, PI controller and a non-adaptive virtual queue algorithm. With a view towards implementation, we show that AVQ can be implemented as a simple token bucket using only a few lines of code. The work presents a design of an AVQ Algorithm for AQM for online payment of school fee. Online is direct communication between a user and a computer which allows the request to be processed and the result displayed immediately on the terminal screen. An AVQ algorithm for AQM for online payment of school fee are used for processing of student various fees like accommodation fee and school fee etc.


TABLE OF CONTENT
TITLE PAGE                                   
CERTIFICATION                               
APPROVAL                               
DEDICATION                                   
ACKNOWLEDGEMENT                       
ABSTRACT                                   
TABLE OF CONTENT                               

CHAPTER ONE
1.0    INTRODUCTION                           
1.1    STATEMENT OF PROBLEM                       
1.2    PURPOSE OF STUDY                           
1.3    AIMS AND OBJECTIVES                        
1.4    SCOPE OF THE STUDY                       
1.5    LIMITATIONS                       
1.6    DEFINITION OF TERMS                       

CHAPTER TWO
2.0    LITERATURE REVIEW                           

CHAPTER THREE
3.0    METHODS FOR FACT FINDING AND DETAILED DISCUSSIONS OF THE SUBJECT MATTER
3.1     METHODOLOGIES FOR FACT-FINDING
3.2    DISCUSSIONS            

CHAPTER FOUR
4.0    FUTURES, IMPLICATIONS AND CHALLENGES OF THE SYSTEM
4.1    FUTURES
4.2    IMPLICATIONS
4.3    CHALLENGE

CHAPTER FIVE
5.0    RECOMMENDATIONS, SUMMARY AND CONCLUSION   
5.1    RECOMMENDATION                           
5.2    SUMMARY                               
5.3    CONCLUSION                               

REFERENCES   

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APA

Possibility, A. (2018). XTC: AN ACTIVE VIRTUAL QUEUE (AVQ) ALGORITHM FOR ACTIVE QUEUE MANAGEMENT. Afribary. Retrieved from https://track.afribary.com/works/xtc-an-active-virtual-queue-avq-algorithm-for-active-queue-management-9720

MLA 8th

Possibility, Aka "XTC: AN ACTIVE VIRTUAL QUEUE (AVQ) ALGORITHM FOR ACTIVE QUEUE MANAGEMENT" Afribary. Afribary, 29 Jan. 2018, https://track.afribary.com/works/xtc-an-active-virtual-queue-avq-algorithm-for-active-queue-management-9720. Accessed 23 Nov. 2024.

MLA7

Possibility, Aka . "XTC: AN ACTIVE VIRTUAL QUEUE (AVQ) ALGORITHM FOR ACTIVE QUEUE MANAGEMENT". Afribary, Afribary, 29 Jan. 2018. Web. 23 Nov. 2024. < https://track.afribary.com/works/xtc-an-active-virtual-queue-avq-algorithm-for-active-queue-management-9720 >.

Chicago

Possibility, Aka . "XTC: AN ACTIVE VIRTUAL QUEUE (AVQ) ALGORITHM FOR ACTIVE QUEUE MANAGEMENT" Afribary (2018). Accessed November 23, 2024. https://track.afribary.com/works/xtc-an-active-virtual-queue-avq-algorithm-for-active-queue-management-9720