Abstract
The round-trip time (RTT), defined as the time elapsed for transmission of a data packet to travel from one endpoint to the other and back again, is an important parameter for Internet quality. This paper proposes an extended version of the well-known SYN/ACK (SA) methodology for passively measuring the RTTs over Transmission Control Protocol (TCP) connections. Differently from the original version of the SA methodology and the rest of studies in the related literature, the proposed passive methodology measures not only the total RTT of an end-to-end connection but also the proportion of the existing connection sections on this entire RTT in a passive way if the connection between client and server is established via intermediate stations. A distributed measurement architecture has been designed that implements the extended SA methodology. Through tests in a controlled laboratory environment, various verification and performance evaluation experiments were conducted to determine the accuracy level of the measurement technique and how the distributed architecture behaves regarding resource requirements as the amount of incoming network traffic increases. Accuracy verification experiments show that on average about 92.66 % of the passive measurements are within 10 % or 5 ms, whichever is larger, of the RTT that \textit{ping} would actively measure. Furthermore, the results reveal that using today's commodity hardware, the designed distributed architecture exhibits acceptable satisfactory scaling performance and can practically be used to passively measure RTTs of each hop within medium-sized communication networks.
Highlights
In addition to parameters such as throughput and availability for Internet quality, the response time, i.e. the round-trip time (RTT), is a crucial factor
The accuracy of the extended SA methodology is verified by directly comparing the passive RTT measurements with active ones using the ping command
Conclusion and future work This paper proposed an extended version of the well-known SA methodology for passively measuring RTTs over Transmission Control Protocol (TCP) connections
Summary
In addition to parameters such as throughput and availability for Internet quality, the response time, i.e. the round-trip time (RTT), is a crucial factor. In the case of only a couple of existing measurement paths, manual deployments and executions of such active tools could lead to temporary solutions without causing a major configuration overhead. Active tools report their final estimates in a decentralized way, either on sender or receiver hosts, which makes centralized and uniform network measurement and monitoring a more challenging task. For such a purpose, a distributed measurement architecture is needed that ideally provides the network administrators and operators with a single central host in which the measurements of any path, subpath, or hop within the overall managed network can be flexibly collected without causing any manual configuration overhead
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