Title :
End-to-end Internet packet dynamics
Author_Institution :
Lawrence Berkeley Nat. Lab., California Univ., Berkeley, CA, USA
fDate :
6/1/1999 12:00:00 AM
Abstract :
We discuss findings from a large-scale study of Internet packet dynamics conducted by tracing 20000 TCP bulk transfers between 35 Internet sites. Because we traced each 100-kbyte transfer at both the sender and the receiver, the measurements allow us to distinguish between the end-to-end behavior due to the different directions of the Internet paths, which often exhibit asymmetries. We: (1) characterize the prevalence of unusual network events such as out-of-order delivery and packet replication; (2) discuss a robust receiver-based algorithm for estimating “bottleneck bandwidth” that addresses deficiencies discovered in techniques based on “packet pair;” (3) investigate patterns of packet loss, finding that loss events are not well modeled as independent and, furthermore, that the distribution of the duration of loss events exhibits infinite variance; and (4) analyze variations in packet transit delays as indicators of congestion periods, finding that congestion periods also span a wide range of time scales
Keywords :
Internet; delays; packet switching; performance evaluation; telecommunication traffic; transport protocols; Internet packet dynamics; Internet sites; TCP bulk transfers; bottleneck bandwidth estimation; congestion periods; end-to-end behavior; infinite variance; large-scale study; loss events duration distribution; measurements; network performance; out-of-order delivery; packet loss; packet pair; packet replication; packet transit delays; robust receiver-based algorithm; time scales; unusual network events; Analysis of variance; Computer network reliability; Delay estimation; Filters; Internet; Large-scale systems; Out of order; Particle measurements; Robustness; Telecommunication traffic;
Journal_Title :
Networking, IEEE/ACM Transactions on
