Luca Salgarelli scite author profile

The classification of IP ows according to the application that generated them is at the basis of any modern network management platform. However, classical techniques such as the ones based on the analysis of transport layer or application layer information are rapidly becoming ineffective. In this paper we present a ow classification mechanism based on three simple properties of the captured IP packets: their size, inter-arrival time and arrival order. Even though these quantities have already been used in the past to define classification techniques, our contribution is based on new structures called protocol fingerprints, which express such quantities in a compact and efficient way, and on a simple classification algorithm based on normalized thresholds. Although at a very early stage of development, the proposed technique is showing promising preliminary results from the classification of a reduced set of protocols.

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Integration of 802.11 and third-generation wireless data networks

Buddhikot¹,

Chandranmenon²,

Han³

et al.

273

152

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Abstract-The third-generation (3G) wide area wireless networks and 802.11 local area wireless networks possess complementary characteristics. 3G networks promise to offer alwayson, ubiquitous connectivity with relatively low data rates. 802.11 offers much higher data rates, comparable to wired networks, but can cover only smaller areas, suitable for hot-spot applications in hotels and airports. The performance and flexibility of wireless data services would be dramatically improved if users could seamlessly roam across the two networks. In this paper, we address the problem of integration of these two classes of networks to offer such seamless connectivity. Specifically, we describe two possible integration approaches -namely tight integration and loose integration and advocate the latter as the preferred approach. Our realization of the loose integration approach consists of two components: a new network element called IOTA gateway deployed in 802.11 networks, and a new client software. The IOTA gateway is composed of several software modules, and with co-operation from the client software offers integrated 802.11/3G wireless data services that support seamless intertechnology mobility, Quality of Service (QoS) guarantees and multi-provider roaming agreements. We describe the design and implementation of the IOTA gateway and the client software in detail and present experimental performance results that validate our architectural approach.

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Support Vector Machines for TCP traffic classification

2009

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Tunnel Hunter: Detecting application-layer tunnels with statistical fingerprinting

et al. 2009

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Integration of wireless LAN and 3G wireless - Design and implementation of a wlan/cdma2000 interworking architecture

Buddhikot¹,

Chandranmenon²,

Han³

et al. 2003

IEEE Commun. Mag.

162

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Luca Salgarelli

Traffic classification through simple statistical fingerprinting

Integration of 802.11 and third-generation wireless data networks

Support Vector Machines for TCP traffic classification

Tunnel Hunter: Detecting application-layer tunnels with statistical fingerprinting

Integration of wireless LAN and 3G wireless - Design and implementation of a wlan/cdma2000 interworking architecture

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