K. G. Anagnostakis, S. Ioannidis, S. Miltchev, J. Ioannidis, M. Greenwald, and J. M. Smith. Efficient Packet Monitoring for Network Management. In 8th IEEE Network Operations and Management Symposium (NOMS), Florence, Italy, Apr. 2002.  Home/Search   Document Details and Download   Summary   Related Articles   Check

....CCR 001712, and CCR 001788, CERIAS and IBM SUR grants reporting mechanism that sends useful information typically in a summarized format only when the status of a monitored element changes. A more flexible way of network monitoring is by using mobile agents [20] or programmable architecture [3]. However, periodic polling or deploying agents in high speed core routers put non trivial overhead on them. We propose a very low overhead monitoring scheme that does not involve core routers for any kind of measurements. Our assumption is that if a network domain is properly provisioned and no ....

K. G. Anagnostakis, S. Ioannidis, S. Miltchev, J. Ioannidis, Greenwald M., and J. M. Smith. Efficient packet monitoring for network management. In Proc. IEEE Network Operations and Management Symposium (NOMS), Florence, Italy, Apr. 2002.

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Anagnostakis, K.G., Ioannidis, S., Miltchev, S., Ioannidis, J., Greenwald, M.B., Smith, J.M.: Efficient packet monitoring for network management. In: Proceedings of IFIP/IEEE Network Operations and Management Symposium (NOMS) 2002. (2002)

....time. Finally, the need for timely deployment cannot always be met at the current pace of standardization or software deployment, especially in cases such as detection and prevention of denial of service attacks. In response to these problems, several prototype extensible monitoring systems [15, 3, 2] have been developed with the goal of providing the needed flexibility, building on open architecture and active networking concepts. The basic goal of such approaches is to allow the use of critical system components by users other than the network operator. However, providing users with the ....

....properties of LAME, but was designed for high performance. FLAME combines several well known mechanisms for protection and policy control; in particular, the use of a type safe language, custom object patches for run time checks, anonymizing, and namespace protection based on trust management. In [2] we presented preliminary results that demonstrated that FLAME largely eliminated the performance problems of LAME. The purpose of the study in this paper is to understand the range of applications and traffic rates for which a safe, open, traffic monitoring architecture is practical. We have ....

[Article contains additional citation context not shown here]

K. G. Anagnostakis, S. Ioannidis, S. Miltchev, J. Ioannidis, M. B. Greenwald, and J. M. Smith. Efficient packet monitoring for network management. In Proceedings of IEEE NOMS 2002.

....time. Finally, the need for timely deployment cannot always be met at the current pace of standardization or software deployment, especially in cases such as detection and prevention of denial of service attacks. In response to these problems, several prototype extensible monitoring systems [18, 4, 3, 14] have been developed with the goal of providing the needed flexibility, building on open architecture and active networking concepts. The basic goal of such approaches is to allow the use of critical system components by users other than the network operator. However, providing users with the ....

....language, custom object patches for run time checks, anonymizing, and namespace protection based on trust management. The purpose of the study in this paper is to understand the range of applications and traffic rates for which a safe, open, traffic monitoring architecture is practical. In [3] we presented preliminary results that demonstrated that FLAME largely eliminated the performance problems of LAME. We have implemented a number of additional test applications and have used them as our experimental workload. We use the data collected from these applications to quantify and ....

[Article contains additional citation context not shown here]

K. G. Anagnostakis, S. Ioannidis, S. Miltchev, J. Ioannidis, M. B. Greenwald, and J. M. Smith. Efficient packet monitoring for network management. In Proceedings of the 8th IFIP/IEEE Network Operations and Management Symposium (NOMS), pages 423--436, April 2002.

....becomes a less attractive solution. The alternatives require effort as well as cooperation with the Web server or network owner. The Web Server software could be altered to provide a special log at the time the HTTP reply header is available. A passive monitoring system such as OC3MON [3] or FLAME [2] could be instrumented to provide a live stream of IP addresses (as well as transfer sizes if snooping into the HTTP reply is allowed) for considering as measurement targets. Except for Web connections, it may be possible and interesting to probe paths of other applications, such as peer to peer ....

K. G. Anagnostakis, S. Ioannidis, S. Miltchev, J. Ioannidis, M. B. Greenwald, and J. M. Smith. Efficient packet monitoring for network management. In Proceedings of the 8th IEEE/IFIP Network Operations and Management Symposium (NOMS), April 2002.

....time. Finally, the need for timely deployment cannot always be met at the current pace of standardization or software deployment, especially in cases such as detection and prevention of denial of service attacks. In response to these problems, several prototype extensible monitoring systems [16, 3, 2] have been developed with the goal of providing the needed flexibility, building on open architecture and active networking concepts. The basic goal of such approaches is to allow the use of critical system components by users other than the network operator. However, providing users with the ....

....properties of LAME, but was designed for high performance. FLAME combines several well known mechanisms for protection and policy control; in particular, the use of a type safe language, custom object patches for run time checks, anonymizing, and namespace protection based on trust management. In [2] we presented preliminary results that demonstrated that FLAME largely eliminated the performance problems of LAME. The purpose of the study in this paper is to understand the range of applications and traffic rates for which a safe, open, traffic monitoring architecture is practical. We have ....

[Article contains additional citation context not shown here]

K. G. Anagnostakis, S. Ioannidis, S. Miltchev, J. Ioannidis, M. B. Greenwald, and J. M. Smith. Efficient packet monitoring for network management. In Proceedings of IEEE NOMS

....system. Finally, BPF performance degrades rapidly as the number of concurrent applications increases [5] There have been several studies on optimizing the packet filter [8] efficient network interface access [20] as well as system architectures designed specifically for network monitoring [6, 17, 15, 4]. Most network monitoring applications, however, do not need elaborate packet filters (and therefore cannot take advantage of the aforementioned optimizations) to demultiplex packet streams into different processes; instead, a single process receives all the packets and does its own packet ....

....as part of the OpenBSD [3] operating system. We demonstrate the performance benefits of xPF and describe three sample filter programs for NetFlow like accounting, trajectory sampling, and round trip time estimation respectively. These modules were originally implemented on the FLAME architecture [4] and were re implemented in xPF. 3.1 Measurements For outlining the performance and scalability of xPF, we have implemented a simple benchmark application that simply counts packets received by the filter. In standard BPF, every packet needs to be passed to the application to increment the ....

K. G. Anagnostakis, S. Ioannidis, S. Miltchev, J. Ioannidis, M. B. Greenwald, and J. M. Smith. Efficient packet monitoring for network management. In Proceedings of the 8th IEEE/IFIP Network Operations and Management Symposium (NOMS), April 2002.

No context found.

K. G. Anagnostakis, S. Ioannidis, S. Miltchev, J. Ioannidis, M. Greenwald, and J. M. Smith. Efficient Packet Monitoring for Network Management. In 8th IEEE Network Operations and Management Symposium (NOMS), Florence, Italy, Apr. 2002.

No context found.

K. G. Anagnostakis, S. Ioannidis, S. Miltchev, J. Ioannidis, and J. M. Smith, "Efficient Packet Monitoring for Network Management," in Proceedings of the 8th IEEE/IFIP Network Operations and Management Symposium (NOMS), April 2002.

No context found.

K. G. Anagnostakis, S. Ioannidis, S. Miltchev, J. Ioannidis, M. B. Greenwald, and J. M. Smith. Efficient packet monitoring for network management. In Proceedings of IFIP/IEEE Network Operations and Management Symposium (NOMS) 2002.

No context found.

K. G. Anagnostakis, S. Ioannidis, S. Miltchev, J. Ioannidis, Michael B. Greenwald, and J. M. Smith. Efficient packet monitoring for network management. In Proc. of NOMS'02, April 2002.

No context found.

K. G. Anagnostakis, S. Ioannidis, S. Miltchev, J. Ioannidis, Michael B. Greenwald, and J. M. Smith. Efficient packet monitoring for network management. In Proceedings of IFIP/IEEE Network Operations and Management Symposium (NOMS) 2002, April 2002.

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