Nelson Ivan Dopico scite author profile

Nelson Ivan Dopico

5Publications

58Citation Statements Received

82Citation Statements Given

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Affiliations

Universidad Politécnica de Madrid

Publications

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A Heterogeneous Wireless Identification Network for the Localization of Animals Based on Stochastic Movements

Gutiérrez

González

Jimenez‐Leube

et al. 2009

Sensors

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The improvement in the transmission range in wireless applications without the use of batteries remains a significant challenge in identification applications. In this paper, we describe a heterogeneous wireless identification network mostly powered by kinetic energy, which allows the localization of animals in open environments. The system relies on radio communications and a global positioning system. It is made up of primary and secondary nodes. Secondary nodes are kinetic-powered and take advantage of animal movements to activate the node and transmit a specific identifier, reducing the number of batteries of the system. Primary nodes are battery-powered and gather secondary-node transmitted information to provide it, along with position and time data, to a final base station in charge of the animal monitoring. The system allows tracking based on contextual information obtained from statistical data.

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Cattle-Powered Node Experience in a Heterogeneous Network for Localization of Herds

Gutiérrez

Dopico

González

et al. 2013

IEEE Trans. Ind. Electron.

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A heterogeneous network, mainly based on nodes that use harvested energy to self-energize, is presented, and its use is demonstrated. The network, mostly kinetically powered, has been used for the localization of herds in grazing areas under extreme climate conditions. The network consists of secondary and primary nodes. The former, powered by a kinetic generator, take advantage of animal movements to broadcast a unique identifier. The latter are battery-powered and gather secondary-nodetransmitted information to provide it, along with position and time data, to a final base station in charge of the animal monitoring. Because a limited human interaction is desirable, the aim of this network is to reduce the battery count of the system.

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Analysis of IEEE 802.15.4 Throughput in Beaconless Mode on micaZ under TinyOS 2

Dopico

Gil-Soriano

Arrazola

et al. 2010

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Performance analysis of a delay tolerant application for herd localization

2011

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Performance assessment of a kinetically-powered network for herd localization

Dopico¹,

Gutiérrez²,

Zazo³

2012

Computers and Electronics in Agriculture

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Developing a herd localization system capable to operate unattended in communication-challenged areas arises from the necessity of improving current systems in terms of cost, autonomy or any other facilities that a certain target group (or overall users) may demand. A network architecture of herd localization is proposed with its corresponding hardware and a methodology to assess performance in different operating conditions. The system is designed taking into account an eventual environmental impact hence most nodes are simple, cheap and kinetically powered from animal movements -neither batteries nor sophisticated processor chips are needed. Other network elements integrating GPS and batteries operate with selectable duty cycles, thus reducing maintenance duties. Equipment has been tested on Scandinavian reindeer in Lapland and its element modeling is integrated into a simulator to analyze such localization network applicability for different use cases. Performance indicators (detection frequency, localization accuracy and delay) are fitted to assess the overall performance; system relative costs are enclosed also for a range of deployments.

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