R. Govindan and V. Paxson. Estimating Router ICMP Generation Delays. In Proceedings of Passive and Active Measurement, Mar. 2002.  Home/Search   Document Details and Download   Summary   Related Articles   Check

....network routers . In the past, some concern has been raised about techniques that rely on router based ICMP measurements [17,20] that routers may sometimes delay processing of ICMP messages, a practice that may introduce errors. Such concerns have recently been examined by Govindan and Paxson [13] (and con rmed in our own measurements [4] These measurements indicate that the delay distributions of ICMP packets rarely di er noticeably (within the granularity of per link delays) from the delay distributions of regular trac. Given the widespread support of ICMP Timestamp in routers, it is ....

R. Govindan and V. Paxson. Estimating router ICMP generation delays. In Proceedings of the Passive and Active Measurements Workshop (PAM), March 2002.

....network routers. In the past, some concern has been raised about techniques that rely on router based ICMP measurements [17,20] that routers may sometimes delay processing of ICMP messages, a practice that may introduce errors. Such concerns have recently been examined by Govindan and Paxson [13] (and confirmed in our own measurements [4] These measurements indicate that the delay distributions of ICMP packets rarely differ noticeably (within the granularity of per link delays) from the delay distributions of regular traffic. Given the widespread support of ICMP Timestamp in routers, ....

R. Govindan, V. Paxson, Estimating router ICMP generation delays, in: Proceedings of the Passive and Active Measurements Workshop (PAM), March 2002.

....by the slow path of routers, which are likely to introduce additional delays and therefore bias measurements. Although this possibility has been a concern for router based measurements, recent preliminary measurements indicate that routers rarely introduce noticable delays to TTL limited probes[14]. We conducted two experiments to look further into this matter. We first apply the method of [14] to the case of ICMP Timestamps to confirm that Timestamps behave similarly to TTL limited probes. The method involves sending pairs of probes, one to the target host, and one to the router under ....

....measurements. Although this possibility has been a concern for router based measurements, recent preliminary measurements indicate that routers rarely introduce noticable delays to TTL limited probes[14] We conducted two experiments to look further into this matter. We first apply the method of [14] to the case of ICMP Timestamps to confirm that Timestamps behave similarly to TTL limited probes. The method involves sending pairs of probes, one to the target host, and one to the router under consideration. The source address of the packet sent to the router is spoofed so that it will be ....

[Article contains additional citation context not shown here]

Ramesh Govindan and Vern Paxson, "Estimating router ICMP generation delays," in Proceedings of the Passive and Active Measurements Workshop (PAM), March 2002.

....by the slowpath of routers, which are likely to introduce additional delays and therefore bias measurements. Although this possibility has been a concern for router based measurements, recent preliminary measurements indicate that routers rarely introduce noticeable delays to TTL limited probes[14]. However, these measurements focus on determining ICMP generation delays that affect bandwidth estimation techniques: the minimum overhead of having a packet forwarded by the slow path instead of the fast path. cing depends not only on the minimum overhead but also on the variability in ICMP ....

....minimum overhead of having a packet forwarded by the slow path instead of the fast path. cing depends not only on the minimum overhead but also on the variability in ICMP processing and scheduling delays. We conducted two experiments to look further into this matter. We first apply the method of [14] to the case of ICMP Timestamps to confirm that Timestamps behave similarly to TTL limited probes. The method involves sending pairs of probes, one to the target host, and one to the router under consideration. The source address of the packet sent to the router is spoofed so that it will be ....

[Article contains additional citation context not shown here]

R. Govindan and V. Paxson, "Estimating router ICMP generation delays, " in Proceedings of the Passive and Active Measurements Workshop (PAM), March 2002.

....on network routers. In the past, some concern has been raised about techniques that rely on router based ICMP measurements [16, 19] that routers may sometimes delay processing of ICMP messages, a practice that may introduce errors. Such concerns have recently been examined by Govindan and Paxson [12] (and confirmed in our own measurements [3] These measurements indicate that the delay distributions of ICMP packets rarely differ noticeably from the delay distributions of regular traffic. Given the widespread support of ICMP Timestamp in routers, it is reasonable to consider such routers as ....

R. Govindan and V. Paxson. Estimating router icmp generation delays. In Proceedings of the Passive and Active Measurements Workshop (PAM) 2002.

....generation latency It is a conventional wisdom that VPS tools are sometimes inaccurate because router ICMP replies, which are required for the RTT measurements, are generated from slow processing and forwarding paths . First of all, this may not even be the case, given the recent measurements of [30]. Even if it is true for some routers, however, it should be clear from III that it is not the latency of generating ICMP replies that can affect the RTT slope measurements. Instead, it is the variation of those latencies that can affect the measured RTT slope. In other words, ICMP messages will ....

R. Govindan and V. Paxson, "Estimating Router ICMP Generation Delays," in Proceedings of Passive and Active Measurements (PAM) workshop, Mar. 2002, pp. 6--13.

....by the slow path of routers, which are likely to introduce additional delays and therefore bias measurements. Although this possibility has been a concern for router based measurements, recent preliminary measurements indicate that routers rarely introduce noticeable delays to TTL limited probes[14]. We conducted two experiments to look further into this matter. We first apply the method of [14] to the case of ICMP Timestamps to confirm that Timestamps behave similarly to TTL limited probes. The method involves sending pairs of probes, one to the target host, and one to the router under ....

....measurements. Although this possibility has been a concern for router based measurements, recent preliminary measurements indicate that routers rarely introduce noticeable delays to TTL limited probes[14] We conducted two experiments to look further into this matter. We first apply the method of [14] to the case of ICMP Timestamps to confirm that Timestamps behave similarly to TTL limited probes. The method involves sending pairs of probes, one to the target host, and one to the router under consideration. The source address of the packet sent to the router is spoofed so that it will be ....

[Article contains additional citation context not shown here]

R. Govindan and V. Paxson, "Estimating router ICMP generation delays, " in Proceedings of the Passive and Active Measurements Workshop (PAM), March 2002.

....network routers . In the past, some concern has been raised about techniques that rely on router based ICMP measurements [17, 20] that routers may sometimes delay processing of ICMP messages, a practice that may introduce errors. Such concerns have recently been examined by Govindan and Paxson [13] (and confirmed in our own measurements [4] These measurements indicate that the delay distributions of ICMP packets rarely differ noticeably (within the granularity of per link delays) from the delay distributions of regular traffic. Given the widespread support of ICMP Timestamp in routers, it ....

R. Govindan and V. Paxson. Estimating router ICMP generation delays. In Proceedings of the Passive and Active Measurements Workshop (PAM), March 2002.

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R. Govindan and V. Paxson. Estimating Router ICMP Generation Delays. In Proceedings of Passive and Active Measurement, Mar. 2002.

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R. Govindan and V. Paxson. Estimating router ICMP generation delays. In Passive & Active Measurement (PAM), 2002.

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R. Govindan and V. Paxson. Estimating router ICMP generation delays. In Proc. PAM, March 2002.

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R. Govindan and V. Paxson. Estimating Router ICMP Generation Delays. In Proceedings of Passive and Active Measurement, Mar. 2002.

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R. Govindan and V. Paxson. Estimating router ICMP generation delays. In Passive & Active Measurement (PAM), 2002.

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R. Govindan and V. Paxson. Estimating Router ICMP Generation Delays. In Proc. of Passive and Active Measurement, 2002.

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R. Govindan and V. Paxson. Estimating router ICMP generation delays. In Proceedings of Passive and Active Measurement Workshop (PAM), Fort Collins, CO, 2002.

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R. Govindan and V. Paxson. Estimating router ICMP generation delays. In Passive & Active Measurement (PAM), Mar. 2002.

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R. Govindan and V. Paxson. Estimating router ICMP generation delays. In Passive & Active Measurement (PAM), 2002.

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R. Govindan and V. Paxson. Estimating router ICMP generation delays. In Proceedings of Passive and Active Measurement Workshop (PAM), Fort Collins, CO, 2002.

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R. Govindan and V. Paxson, "Estimating router ICMP generation delays, " in Proceedings of the Passive and Active Measurements Workshop (PAM), March 2002.

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R. Govindan and V. Paxson, "Estimating router ICMP generation delays, " in Proceedings of the Passive and Active Measurements Workshop (PAM), March 2002.

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R. Govindan and V. Paxson. Estimating router ICMP generation delays. In Passive & Active Measurement (PAM), Mar. 2002.

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Ramesh Govindan and Vern Paxson. Estimating router icmp generation delays. In PAM'02, March 2002.

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R. Govindan and V. Paxson. Estimating router ICMP generation delays. In Passive & Active Measurement (PAM),Mar. 2002.

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R. Govindan and V. Paxson. Estimating router ICMP generation delays. In Proceedings of the Passive and Active Measurements Workshop (PAM) 2002.

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R. Govindan and V. Paxson. Estimating router ICMP generation delays. In Passive & Active Measurement (PAM), 2002.

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