Peter Reiher scite author profile

Distributed denial-of-service (DDoS) is a rapidly growing problem. The multitude and variety of both the attacks and the defense approaches is overwhelming. This paper presents two taxonomies for classifying attacks and defenses, and thus provides researchers with a better understanding of the problem and the current solution space. The attack classification criteria was selected to highlight commonalities and important features of attack strategies, that define challenges and dictate the design of countermeasures. The defense taxonomy classifies the body of existing DDoS defenses based on their design decisions; it then shows how these decisions dictate the advantages and deficiencies of proposed solutions.

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Attacking DDoS at the source

Mirković

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Host-to-Host Congestion Control for TCP

Afanasyev

Tilley

Reiher

et al. 2010

IEEE Commun. Surv. Tutorials

234

146

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Abstract-The Transmission Control Protocol (TCP) carries most Internet traffic, so performance of the Internet depends to a great extent on how well TCP works. Performance characteristics of a particular version of TCP are defined by the congestion control algorithm it employs. This paper presents a survey of various congestion control proposals that preserve the original host-to-host idea of TCP-namely, that neither sender nor receiver relies on any explicit notification from the network. The proposed solutions focus on a variety of problems, starting with the basic problem of eliminating the phenomenon of congestion collapse, and also include the problems of effectively using the available network resources in different types of environments (wired, wireless, high-speed, long-delay, etc.). In a shared, highly distributed, and heterogeneous environment such as the Internet, effective network use depends not only on how well a single TCPbased application can utilize the network capacity, but also on how well it cooperates with other applications transmitting data through the same network. Our survey shows that over the last 20 years many host-to-host techniques have been developed that address several problems with different levels of reliability and precision. There have been enhancements allowing senders to detect fast packet losses and route changes. Other techniques have the ability to estimate the loss rate, the bottleneck buffer size, and level of congestion. The survey describes each congestion control alternative, its strengths and its weaknesses. Additionally, techniques that are in common use or available for testing are described.

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D-WARD: A Source-End Defense against Flooding Denial-of-Service Attacks

Mirković

Reiher

2005

IEEE Trans. Dependable and Secure Comput.

196

125

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Saving portable computer battery power through remote process execution

Руденко

Reiher

Popek

et al. 1998

SIGMOBILE Mob. Comput. Commun. Rev.

238

108

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We describe a new approach to power saving and battery life extension on an untethered laptop through wireless remote processing of power-costly tasks. We ran a series of experiments comparing the power consumption of processes run locally with that of the same processes run remotely. We examined the trade-off between communication power expenditures and the power cost of local processing. This paper describes our methodology and results of our experiments. We suggest ways to further improve this approach, and outline a software design to support remote process execution.

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Peter Reiher

A taxonomy of DDoS attack and DDoS defense mechanisms

Attacking DDoS at the source

Host-to-Host Congestion Control for TCP

D-WARD: A Source-End Defense against Flooding Denial-of-Service Attacks

Saving portable computer battery power through remote process execution

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