RDF description Leire Muguira


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[u' @incollection{larizgoitia_architecture_2010, series = {Lecture {Notes} of the {Institute} for {Computer} {Sciences}, {Social} {Informatics} and {Telecommunications} {Engineering}}, title = {Architecture for {WSN} {Nodes} {Integration} in {Context} {Aware} {Systems} {Using} {Semantic} {Messages}}, copyright = {\xa92010 Springer Berlin Heidelberg}, isbn = {978-3-642-11722-0 978-3-642-11723-7}, url = {http://link.springer.com/chapter/10.1007/978-3-642-11723-7_50}, abstract = {Wireless sensor networks (WSN) are becoming extremely popular in the development of context aware systems. Traditionally WSN have been focused on capturing data, which was later analyzed and interpreted in a server with more computational power. In this kind of scenario the problem of representing the sensor information needs to be addressed. Every node in the network might have different sensors attached; therefore their correspondent packet structures will be different. The server has to be aware of the meaning of every single structure and data in order to be able to interpret them. Multiple sensors, multiple nodes, multiple packet structures (and not following a standard format) is neither scalable nor interoperable. Context aware systems have solved this problem with the use of semantic technologies. They provide a common framework to achieve a standard definition of any domain. Nevertheless, these representations are computationally expensive, so a WSN cannot afford them. The work presented in this paper tries to bridge the gap between the sensor information and its semantic representation, by defining a simple architecture that enables the definition of this information natively in a semantic way, achieving the integration of the semantic information in the network packets. This will have several benefits, the most important being the possibility of promoting every WSN node to a real semantic information source.}, number = {28}, urldate = {2013-10-28TZ}, booktitle = {Ad {Hoc} {Networks}}, publisher = {Springer Berlin Heidelberg}, author = {Larizgoitia, Iker and Muguira, Leire and Vazquez, Juan Ignacio}, editor = {Zheng, Jun and Mao, Shiwen and Midkiff, Scott F. and Zhu, Hua}, month = jan, year = {2010}, keywords = {Wireless sensor networks, context-aware, rdf}, pages = {731--746} }']

[u" @inproceedings{larranaga_environment_2010, title = {An environment adaptive {ZigBee}-based indoor positioning algorithm}, doi = {10.1109/IPIN.2010.5647828}, abstract = {Lately, there has been significant progress in the field of wireless communications and networking. Furthermore, the number of applications that require context information as the user's location will increase in the coming years. However, this issue still has not been solved indoors due to the RF (Radio Frequency) signals' behaviour in this kind of scenarios. In this paper, we present a robust, easy to deploy and flexible indoor localization system based on ZigBee Wireless Sensor Networks. It is important to mention that our localization system is based on RSSI (Received Signal Strength Indicator) level measurements since this information can be obtained directly from the messages exchanged between nodes, so no extra hardware is required. Our localization system consists of two phases: calibration and localization. Anytime a blind node needs to be located, our system performs calibration using a matrices system, so that the environment can be characterized, taking into account possible changes on it since the last request. Then, in the localization phase, the central server processes all the information and calculates the blind node's position with the new iterative algorithm we present. With this indoor positioning algorithm we can estimate the blind node's position with a good resolution (3 m average error), so we can say that this ZigBee localization algorithm provides very promising results.}, booktitle = {2010 {International} {Conference} on {Indoor} {Positioning} and {Indoor} {Navigation} ({IPIN})}, author = {Larra\xf1aga, Janire and Muguira, Leire and Lopez-Garde, Juan Manuel and Vazquez, Juan Ignacio}, month = sep, year = {2010}, note = {00013}, keywords = {Accuracy, Adaptive Algorithm, Bluetooth, Fingerprint recognition, Indoor Positioning, Peer to peer computing, RF signal, RSSI, Servers, Wireless sensor networks, Zigbee, adaptive ZigBee based indoor positioning algorithm, calibration, flexible indoor localization system, navigation, radiocommunication, received signal strength indicator, wireless communication, wireless sensor network, zigloc}, pages = {1--8} }"]

[u" @inproceedings{muguira_interacting_2009, title = {Interacting with the digital world through {RFID}-powered gadgets}, abstract = {The Internet of Things is a field of the Future Internet that has a significant support from different institutions. Research has been done in this area for years and although it has progressed significantly, their goals remain the same: designing innovative Internet-connected experiences and augmenting existing objects' capabilities with Internet-related features. The scientific community has explored new ways and concepts, such as, service generation and consumption or user interaction. In this paper we present our work on creating RFID-based smart gadgets in order to take Internet experience to the next level, merging the on-line and the tangible worlds into a single continuous space.}, booktitle = {Proceedings of 17th {International} {Conference} on {Software}, {Telecommunications} {Computer} {Networks}, 2009. {SoftCOM} 2009}, author = {Muguira, Leire and Ruiz-de-Garibay, Jonathan and Vazquez, Juan Ignacio}, year = {2009}, keywords = {glove, icompass, natural interaction, rfid, rfidglove, wearable computers, zigbee}, pages = {85--89} }"]

[u' @inproceedings{muguira_internet_2009, address = {Barcelona, Spain}, title = {Internet browsing through {RFID}-powered gadgets}, doi = {10.3233/978-1-60750-056-8-101}, abstract = {The vision of the Internet of Things is challenging researchers from different fields with the common goal of designing innovative Internet-connected experiences or augmenting existing objects\u2019 capabilities with Internet-related features. During these first stages, researchers must explore new ways and concepts, and share the results with the scientific community. In this paper, we present our work on creating RFID-based smart gadgets in order to take Internet experience to the next level, merging the on-line and the tangible worlds into a single continuous space.}, booktitle = {Workshops {Proceedings} of the 5th {International} {Conference} on {Intelligent} {Environments}}, author = {Muguira, Leire and Ruiz-de-Garibay, Jonathan and Vazquez, Juan Ignacio}, year = {2009}, pages = {101--108} }']

[u" @inproceedings{muguira_rfidglove:_2009, title = {{RFIDGlove}: {A} {Wearable} {RFID} {Reader}}, shorttitle = {{RFIDGlove}}, doi = {10.1109/ICEBE.2009.75}, abstract = {There are different experiences in the use of RFID technology for warehouse inventories. However, there is future work to do on the design of advanced reading devices, applying wearable computation techniques and wireless communications. The aim of this work is to allow a natural interaction for the user who performs inventory tasks. In this paper we show the RFIDGlove system, which consists of a glove with an integrated RFID reader, an organic micro display and a communication system. The RFIDGlove system increases the efficiency of the activities in these areas, improving the user's experience and comfort while he/she uses the system.}, booktitle = {Proceedings of {IEEE} {International} {Conference} on e-{Business} {Engineering}, 2009. {ICEBE} '09}, author = {Muguira, Leire and Vazquez, Juan Ignacio and Arruti, Asier and Ruiz-de-Garibay, Jonathan and Mendia, Izaskun and Renteria, Silvia}, year = {2009}, keywords = {glove, natural interaction, rfid, rfidglove, wearable computers, zigbee}, pages = {475--480} }"]

[u' @inproceedings{muguira_rfidglove:_2008, address = {Cuenca}, title = {{RFIDGlove}: un dispositivo vestible avanzado para la interacci\xf3n natural en actividades de inventariado}, abstract = {Mientras existen muchas experiencias en el uso de la tecnolog\xeda RFID para el inventariado en almacenes, existen a\xfan vertientes con un largo camino por recorrer en los aspectos relativos al dise\xf1o de dispositivos lectores avanzados, aplicando t\xe9cnicas de computaci\xf3n vestible y comunicaciones inal\xe1mbricas, que permitan una interacci\xf3n natural al usuario que deba efectuar dichas tareas de inventariado En este art\xedculo presentamos el sistema RFIDGlove, compuesto por un guante con un lector RFID integrado, una micro-pantalla org\xe1nica y un sistema de comunicaciones ZigBee con alta eficiencia energ\xe9tica, que permitir\xeda aumentar la eficiencia de las actividades en dichos entornos, mejorando al mismo tiempo la experiencia del usuario y su comodidad mientras usa el sistema.}, booktitle = {Proceedings of {II} {Jornadas} {Cient\xedficas} sobre {RFID}}, author = {Muguira, Leire and Arruti, Asier and Ruiz-de-Garibay, Jonathan and Vazquez, Juan Ignacio}, year = {2008}, keywords = {glove, natural interaction, rfid, rfidglove, wearable computers, zigbee} }']