Paper Title
A Packet Scrutiny Approach to Reducing the Packet Loss Over Wireless Network
Abstract
Estimation and Measurement of packet loss features are challenging due to the relatively rare typically and
happening short period of packet loss episodes. Measurement and study of numerous network traffic characteristics have
played a main role for development of various network protocols and machine. Traffic parameters like holdup, loss,
bandwidth, jitter etc. are of due interest to design effective network machines. . The objective of our study is to understand
how to measure packet loss episodes correctly with end-to-end probes. Services which can be used to measure loss and delay
like PING, but it is having less result as it is suffered from loss asymmetry difficulty. While active probe features are usually
used to calculate the packet loss on end-to-end paths, there has been little analysis of the accuracy of these tools or their
effect on the network. We go through and study the testing ability of standard Poisson- modulated end-to-end measurements
of loss in a forbidden laboratory environment by using IP routers and commodity end hosts. We find out in our study that
data loss features accounted from such Poisson-modulated probe measures can be pretty incorrect over a range of traffic
situations. End-to-end active measurements using probes is one way to calculate packet loss and delay in the network and is
an element of our study to find out the network reliability. However there is another measurement approach which we could
have used known as passive measurement where we can merely determine network traffic without inserting any packet in the
network. Inspired by these inspections, we introduce a new algorithm for packet loss determination that is made to overcome
the limitations in estimate the capabilities of our methodology experimentally by expanding and implementing a prototype
tool, known as BADABING. The experiments illustrates the trade-offs among impact on the network and measurement
correctness. We demonstrate that BADABING reports loss features far more correctly than traditional loss determination
tools. The aim of our investigation is to know how to measure packet loss episodes correctly with end-to-end probes. We
begin by checking the ability of standard Poisson-modulated end-to-end measurements. Inspired by these observations, we
introduce a new packet scrutiny algorithm for packet loss determination that is made to overcome the limitations in standard
BADABING and Poisson-based tools.
Keywords— RRB BADABING, PossionPacket Scrutiny, streaming.