José-F Martínez scite author profile

A wireless sensor network (WSN) is a computer wireless network composed of spatially distributed and autonomous tiny nodes-smart dust sensors, motes-, which cooperatively monitor physical or environmental conditions. Nowadays these kinds of networks support a wide range of applications, such as target tracking, security, environmental control, habitat monitoring, source detection, source localization, vehicular and traffic monitoring, health monitoring, building and industrial monitoring, etc. Many of these applications have strong requirements for end-to-end delay and losses during data transmissions. In this work we have classified the main mechanisms that have been proposed to provide Quality of Service (QoS) in WSN at Medium Access Control (MAC) and network layers. Finally, taking into account some particularities of the studied MAC-and network-layer protocols, we have selected a real application scenario in order to show how to choose an appropriate approach for guaranteeing performance in a WSN deployed application.

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Trade-Off Between Performance and Energy Consumption in Wireless Sensor Networks

Martínez

García

Corredor

et al.

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Security Framework for DPWS Compliant Devices

Hernández¹,

López²,

Prieto³

et al. 2009

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An approach for applying multi-agent technology into wireless sensor networks

Martínez

García

Sanz

et al. 2007

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The present work describes how the concepts and foundations defined for multi-agent system technology can be applied in to a Wireless Sensor Network (WSN), specifically it is focused on how multi-agent system technology's mechanisms and implementations could facilitate the development of systems based on WSN. In this respect, an architectural model where the above mentioned concepts, foundations and mechanisms come together is proposed, in order to define applications and services on WSN. Validation of the proposed architecture is made by means of its use in a perimeter security scenario ("tracking"). It is important to mention, that partial results of this work have been developed in the project PROPSI (Perimeter Protection by means of Wireless Sensor Networks).

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