PASS 2024 UTME WITHOUT STRESS:- DOWNLOAD and PRACTICE with 2024 UTME CBT APP πŸ“±πŸ‘ˆ
πŸ˜‚ GUARANTEE|:| STUDY, WORK AND LIVE IN THE UK >>>.:- STUDY IN UK! Here is How to Apply to Study and Work In the United Kingdom in 2024

A Geometric Approach To Improving Active Packet Loss Measurement

Here is a downloadable chapter one to five project materials on A Geometric Approach To Improving Active Packet Loss Measurement. It has abstract and references

CLICK HERE TO DOWNLOAD THE COMPLETE MATERIAL (CHAPTER 1 -5)

ABSTRACT

Measurement and estimation of packet loss characteristics are challenging due to the relatively rare occurrence and typically short duration of packet loss episodes. While active probe tools are commonly used to measure packet loss on end-to-end paths, there has been little analysis of the accuracy of these tools or their impact on the network.

The objective of our study is to understand how to measure packet loss episodes accurately with end-to-end probes. We begin by testing the capability of standard Poisson- modulated end-to-end measurements of loss in a controlled laboratory environment using IP routers and commodity end hosts.

Our tests show that loss characteristics reported from such Poisson-modulated probe tools can be quite inaccurate over a range of traffic conditions. Motivated by these observations, we introduce a new algorithm for packet loss measurement that is designed to overcome the deficiencies in standard Poisson-based tools.

Specifically, our method entails probe experiments that follow a geometric distribution to 1) enable an explicit trade-off between accuracy and impact on the network, and 2) enable more accurate measurements than standard Poisson probing at the same rate.

We evaluate the capabilities of our methodology experimentally by developing and implementing a prototype tool, called BADABING. The experiments demonstrate the trade-offs between impact on the network and measurement accuracy. We show that BADABING reports loss characteristics far more accurately than traditional loss measurement tools.

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    METHODOLOGY FOR FACT FINDING AND DETAILED DISCUSSIONS OF THE SYSTEM MATTER

CHAPTER FOUR

4.0    THE FUTURES, IMPLICATIONS AND CHALLENGES OF THE SUBJECT MATTER FOR THE SOCIETY.

CHAPTER FIVE

5.0    SUMMARY, RECOMMENDATIONS AND CONCLUSION              

        REFERENCE                                              

CHAPTER ONE

1.0 INTRODUCTION

Measurement and estimation of packet loss characteristics are challenging due to the relatively rare occurrence and typically short duration of packet loss episodes. While active probe tools are commonly used to measure packet loss on end-to-end paths, there has been little analysis of the accuracy of these tools or their impact on the network.

The objective of our study is to understand how to measure packet loss episodes accurately with end-to-end probes. We begin by testing the capability of standard Poisson-modulated end-to-end measurements of loss in a controlled laboratory environment using IP routers and commodity end hosts.

Our tests show that loss characteristics reported from such Poisson-modulated probe tools can be quite inaccurate over a range of traffic conditions. Motivated by these observations, we introduce a new algorithm for packet loss measurement that is designed to overcome the deficiencies in standard Poisson-based tools.


CLICK HERE TO DOWNLOAD THE COMPLETE MATERIAL (CHAPTER 1 -5)

>GUARANTTEE|:| Score 280 Above in 2024 UTMEπŸ‘‰ DOWNLOAD FREE JAMB CBT APP HERE:.: GURRANTTEE Score 280 Above in 2022 UTMEπŸ‘‰ DOWNLOAD FREE JAMB CBT APP HERE πŸ“±πŸ‘ˆ
WISH TO STUDY & LIVE in UK?:- STUDY, WORK AND LIVE IN the UK Application Form NOW OUT. Call 08030447894

Leave a Reply

This site uses Akismet to reduce spam. Learn how your comment data is processed.