[u' @inproceedings{ruiz-de-garibay_integration_2024, address = {Singapore}, title = {The {Integration} of {Project}-{Based} {Learning} in {Educational} {Robotics}: {Exploring} {Competition} {Robots} {Using} the {EASYbot} {Platform}}, isbn = {9789819718146}, shorttitle = {The {Integration} of {Project}-{Based} {Learning} in {Educational} {Robotics}}, doi = {10.1007/978-981-97-1814-6_50}, abstract = {Educational robotics (ER) is a powerful instrument for fostering STEM (Science, Technology, Engineering, and Mathematics) skills in young people. At university level, ER can be effectively utilized in early engineering courses to facilitate the practical application of fundamental concepts, due to its multidisciplinary nature. The integration of ER and Project-Based Learning (PBL) is particularly beneficial as both approaches embrace the \u201clearning by doing\u201d paradigm, which empowers students to play an active role in their own learning process.}, language = {en}, booktitle = {Proceedings of {TEEM} 2023}, publisher = {Springer Nature}, author = {Ruiz-de-Garibay, Jonathan and Garaizar, Pablo and Almeida, Aitor}, editor = {Gon\xe7alves, Jos\xe9 Alexandre de Carvalho and Lima, Jos\xe9 Lu\xeds Sousa de Magalh\xe3es and Coelho, Jo\xe3o Paulo and Garc\xeda-Pe\xf1alvo, Francisco Jos\xe9 and Garc\xeda-Holgado, Alicia}, year = {2024}, keywords = {education, learning, learning tool, learning tools, robotics}, pages = {514--523}, } '] [u' @article{echevarria_lwake:_2016, title = {{lwAKE}: {A} {Lightweight} {Authenticated} {Key} {Exchange} for {Class} 0 {Devices}}, volume = {2016}, url = {http://www.hindawi.com/journals/ijdsn/2016/6236494/}, doi = {10.1155/2016/6236494}, abstract = {Device-to-Device (D2D) communication enables devices in proximity to establish a wireless direct link. However, these devices may be severely constrained in terms of memory, CPU, and processing resources. Hence, a D2D communication with a constrained device implies new challenges as it does not have the resources required to be secured with standard cryptography. We propose lwAKE for class 0 devices (RFC 7228), which uses one-way cryptographic functions and zero-knowledge proofs to provide mutual authentication and a secure key establishment. We specify the protocol using the High Level Protocol Specification Language and then verify the security properties using the model checkers OFMC and CL-AtSe. The significance of the protocol stands in a key reuse for any successive authentication. Experimental results show that this shortened authentication mode reduces the computationalloadgreatly.}, language = {en}, journal = {International Journal of Distributed Sensor Networks}, author = {Echevarr\xeda, Juan Jos\xe9 and Legarda, Jon and Larra\xf1aga, Janire and Ruiz-de-Garibay, Jonathan}, month = may, year = {2016}, note = {00000}, keywords = {D2D communications, authentication, constrained devices, jcr0.665, key exchange, lightweight cryptography, q4} }'] [u' @article{ruiz-de-garibay_rfid_2014, title = {{RFID} {Presenter}: {A} {New} {Way} to {Feel} a {Talk}}, volume = {2014}, issn = {1687-5869}, shorttitle = {{RFID} {Presenter}}, url = {http://www.hindawi.com/journals/ijap/2014/197437/abs/}, doi = {10.1155/2014/197437}, abstract = {RFID is a key which enables technology for the Internet of Things paradigm, allowing the virtualization of the physical objects into the Internet. There are uncountable applications whereby these connected objects can be a breakthrough for new business models, and this work shows a good example of that. We present the RFID Presenter as the evolution of a classical consumer electronic product to a novel connected Internet product with the addition of the RFID technology. It supposes a new way to manage the conference talks in a personalization way, improving the end-user interaction and providing services that were impossible before. The design, implementation, and validation of a real gadget are well explained in order to give a real example of how the Internet of Things can be integrated into daily objects and enhance the end-user experiences.}, language = {en}, urldate = {2014-04-11}, journal = {International Journal of Antennas and Propagation}, author = {Ruiz-de-Garibay, Jonathan and Legarda, Jon and Kados, Szilard and Eguiluz, Xabier}, month = apr, year = {2014}, note = {00000}, keywords = {IoT, Q3, jcr0.683, presenter, rfid, rfidpresenter}, } '] [u' @inproceedings{ruiz-de-garibay_codesign-oriented_2014, address = {Birmingham, UK}, title = {Codesign-{Oriented} {Platform} for {Agile} {Internet} of {Things} {Prototype} {Development}}, abstract = {The Internet of Things offers a growing market open to new products. To be able to take advantages of this opportunity companies need to be able to quickly create prototypes of their products. Given the difficulties that the development of embedded devices presents, both on the hardware and software parts, it is a necessity to create tools that ease this process. In this paper we present a codesing-oriented platform that will help developers to create their prototypes in an agile manner. The presented platform simplifies the usage and integration of standardized peripherals and reduces the complexity of the development process. We also present a prototype created using the platform, showcasing its capabilities.}, booktitle = {Proceedings of the 3rd {International} {Workshop} on {Extending} {Seamlessly} to the {Internet} of {Things}}, author = {Ruiz-De-Garibay, Jonathan and Almeida, Aitor and Kados, Szilard and Garcia-Corcuera, Adolfo and L\xf3pez-de-Ipi\xf1a, Diego}, month = jul, year = {2014}, note = {00000}, keywords = {Agile Development, Hardware/Software codesign, Internet of Things, IoT, embedded systems, thofu}, } '] [u' @article{echevarria_webtag:_2012, title = {{WebTag}: {Web} {Browsing} into {Sensor} {Tags} over {NFC}}, volume = {12}, copyright = {http://creativecommons.org/licenses/by/3.0/}, shorttitle = {{WebTag}}, url = {http://www.mdpi.com/1424-8220/12/7/8675}, doi = {10.3390/s120708675}, abstract = {Information and Communication Technologies (ICTs) continue to overcome many of the challenges related to wireless sensor monitoring, such as for example the design of smarter embedded processors, the improvement of the network architectures, the development of efficient communication protocols or the maximization of the life cycle autonomy. This work tries to improve the communication link of the data transmission in wireless sensor monitoring. The upstream communication link is usually based on standard IP technologies, but the downstream side is always masked with the proprietary protocols used for the wireless link (like ZigBee, Bluetooth, RFID, etc.). This work presents a novel solution (WebTag) for a direct IP based access to a sensor tag over the Near Field Communication (NFC) technology for secure applications. WebTag allows a direct web access to the sensor tag by means of a standard web browser, it reads the sensor data, configures the sampling rate and implements IP based security policies. It is, definitely, a new step towards the evolution of the Internet of Things paradigm.}, language = {en}, number = {7}, urldate = {2013-12-03TZ}, journal = {Sensors}, author = {Echevarria, Juan Jose and Ruiz-de-Garibay, Jonathan and Legarda, J. and Alvarez, Maite and Ayerbe, Ana and Vazquez, Juan Ignacio}, month = jun, year = {2012}, keywords = {Internet of Things, Q1, TCP/IP tunneling, Wireless sensor networks, embedded web server, jcr1.953, near field communication, sensor tag, webtag, wireless sensor monitoring}, pages = {8675--8690} }'] [u' @inproceedings{echevarria_webtag:_2011, address = {Riviera Maya, Mexico}, title = {{WebTag}: smart tag with embedded web server}, isbn = {978-84-694-9677-0}, abstract = {In the field of traceability is increasingly common to find systems that extend the basic functionality of identification that is demanded. These platforms that leverage usually from RFID are used not only for asset tracking, they can also provide environmental conditions to which items have been exposed, adding value to the supply chain. This paper presents a concept for a new kind of smart tags equipped with a set of sensors and a tiny embedded web server. We highlight the research in the possibility to extend common functionality of smart tags by replacing the custom nonstandard software protocols with the well known TCP/IP standard and the different user interfaces with web browsers, becoming the interaction with the platform in a web browsing model.}, booktitle = {Proceedings of the 5th {International} {Symposium} of {Ubiquitous} {Computing} and {Ambient} {Intelligence} ({UCAMI} 2011)}, author = {Echevarr\xeda, Juan Jos\xe9 and Ruiz-de-Garibay, Jonathan and Vazquez, Juan Ignacio and Alvarez, Maite and Ayerbe, Ana}, year = {2011}, keywords = {Internet of Things, TCP/IP tunneling, Wireless sensor networks, embedded web server, near field communication, sensor tag, webtag, wireless sensor monitoring} }'] [u' @inproceedings{campo_time_2011, address = {Riviera Maya, Mexico}, title = {Time {Management} {Tool} based on new {Interaction} {Paradigm} with {RFID} {Technology}}, isbn = {978-84-694-9677-0}, abstract = {It is presented an innovative solution to manage and control the time for a project of any type of business. Based on the \u201cInternet of Things\u201d concept, this product is intended to replace the existing ones using a poster with RFID (Radio Frequency Identification) technology as the main entry of data. It will register the time spent by the employee on each task of each project being this information visible through a web service under the responsibility of the Project Manager. Existing deviations will be displayed on the web service at real time with the direct responsible for them, as well as the planning and project programming. The main goal of the project is to increase the productivity of the companies by improving the time management factor.}, booktitle = {Proceedings of the 5th {International} {Symposium} of {Ubiquitous} {Computing} and {Ambient} {Intelligence} ({UCAMI} 2011)}, author = {Campo, Tom\xe1s and Ruiz-de-Garibay, Jonathan and Garcia, Adolfo}, year = {2011}, keywords = {Internet of Things, IoT Empresa, interaction, interactive poster, rfid} }'] [u" @inproceedings{ruiz-de-garibay_flexible_2011, title = {Flexible and agile architecture for {Internet} of {Things} gadgets}, doi = {10.1109/RFID-TA.2011.6068615}, abstract = {The \u201cInternet of Things\u201d concept refers to the vision that allows transformation of the reality of ordinary physical objects to a new level where they can be used as services available on the Internet bringing you information in order to improve business management systems or people's quality of life. Research into interaction between common objects and humans becomes relevant in this context. The development of a fast prototype system allows us to reach goals in a more efficient way. In this paper, we present a very simple, agile, useful and flexible architecture to generate demonstrations of the Internet of Things concept. The possible applications are endless and they only depend on people\u2019s imagination. We are going to include three examples to explain our architecture: sharing contacts, conference voting system and a tools monitor.}, booktitle = {2011 {IEEE} {International} {Conference} on {RFID}-{Technologies} and {Applications} ({RFID}-{TA})}, author = {Ruiz-de-Garibay, Jonathan and Campo, Tom\xe1s and Alvarez, Maite and Ayerbe, Ana}, year = {2011}, keywords = {Internet of Things, IoT, IoT Empresa, architecture, interactive poster, rfid}, pages = {50--55}, } "] [u' @inproceedings{garcia-zubia_developing_2010, address = {Stockholm, Sweden}, title = {Developing a {Second}-{Life}-based {Remote} {Lab} over the {WebLab}-{Deusto} architecture}, abstract = {Remote Labs didactic worth can be very supported using them to solve pressing educational problems. The contrasted lack of interest from young students for Engineering is a growing problem today for the Universities that will affect the global economies in the future. Awakening bachelor\u2019s interest for Science and Engineering is a possible way to restrain this tendency. Since different researches prove that the higher is the sense of presence in the environment the more effective becomes the learning process, using Remote Labs from highly immersive environments can be considered a promising idea. Following this educational aim, the present work covers the technical development of SecondLab, an experimental Remote Lab built over the WebLab-Deusto architecture and the popular 3D-based virtual environment Second Life.}, author = {Garc\xeda-Zubia, Javier and Irurzun, Jaime and Angulo, Ignacio and Ordu\xf1a, Pablo and Ruiz-de-Garibay, Jonathan and Hernandez, Unai and Castro, Manuel}, year = {2010}, keywords = {Remote Laboratories, Second Life, WebLab-Deusto, e-Learning}, pages = {41--47} }'] [u' @inproceedings{garcia-zubia_secondlab:_2010, title = {{SecondLab}: {A} remote laboratory under {Second} {Life}}, shorttitle = {{SecondLab}}, doi = {10.1109/EDUCON.2010.5492556}, abstract = {The present work describes the implementation of a new remote lab, SecondLab, that allows students to control a microbot from Second Life. SecondLab works over WebLab-Deusto, the remote lab of the University of Deusto, giving the students the chance to work with real experiments from a social 3D-based immersive environment. This approach places the remote lab closer to the students, trying this way to increase their motivation to study science and engineering.}, booktitle = {2010 {IEEE} {Education} {Engineering} ({EDUCON})}, author = {Garc\xeda-Zubia, Javier and Irurzun, Jaime and Angulo, Ignacio and Hernandez, Unai and Castro, Manuel and Sancristobal, Elio and Ordu\xf1a, Pablo and Ruiz-De-Garibay, Jonathan}, year = {2010}, keywords = {Computer architecture, Distance learning, E-Learning, Remote Laboratories, Second Life, WebLab-Deusto, computer aided instruction, remote laboratories}, pages = {351--356} }'] [u' @inproceedings{garcia-zubia_easily_2010, title = {Easily {Integrable} platform for the deployment of a {Remote} {Laboratory} for microcontrollers}, doi = {10.1109/EDUCON.2010.5492558}, abstract = {Remote laboratories are the natural solution in order to perform real experimentation under e-learning tools. Nevertheless these tools are the result of the research developed by the universities to cover their own needs without having in consideration the deployment of this technology by other institutions. This paper presents a hw prototype for a Remote Lab for microcontrollers that tries to solve these problems contributing new possibilities from the commercial and professional point of view.}, booktitle = {2010 {IEEE} {Education} {Engineering} ({EDUCON})}, author = {Garcia-Zubia, Javier and Angulo, Ignacio and Hern\xe1ndez, Unai and Castro, Manuel and Sancristobal, Elio and Ordu\xf1a, Pablo and Irurzun, Jaime and Ruiz de Garibay, Jonathan}, year = {2010}, keywords = {Autonomous Laboratory, PIC, Remote Laboratories, WebLab-Box}, pages = {327--334} }'] [u' @inproceedings{garcia-zubia_proyecto_2010, address = {Madrid, Spain}, title = {El proyecto {VISIR} en la universidad de {Deusto}: laboratorio remoto para electr\xf3nica b\xe1sica}, isbn = {978-84-96737-68-6}, author = {Garcia-Zubia, Javier and Ru\xedz de Garibay, Jonathan and Hern\xe1ndez, Unai and Gustavsson, Ingvar and Angulo, Ignacio and Ordu\xf1a, Pablo}, year = {2010}, keywords = {Electronics, Remote Laboratories, VISIR}, pages = {653--664} }'] [u' @inproceedings{vazquez_communication_2010, title = {Communication architectures and experiences for web-connected physical {Smart} objects}, doi = {10.1109/PERCOMW.2010.5470521}, abstract = {We are witnessing a tremendous hype on the Internet of Things paradigm, with not only research projects, but also commercial products claiming to implement its fundamental mechanisms. Smart-connected-objects designers often have to face decisions on the global architecture of the service, since no single solution is valid for all the cases. In this paper, we explore the different criteria for designing architectures for Internet of Things solutions, along with illustrative examples of prototypes that implement these approaches.}, booktitle = {2010 8th {IEEE} {International} {Conference} on {Pervasive} {Computing} and {Communications} {Workshops} ({PERCOM} {Workshops})}, author = {Vazquez, Juan Ignacio and Ruiz-de-Garibay, Jonathan and Eguiluz, Xabier and Doamo, Iker and Renteria, Silvia and Ayerbe, Ana}, year = {2010}, keywords = {Internet of Things, Web services, architecture, intelligent environments, intelligent objects, pervasive computing, software architecture}, pages = {684--689} }'] [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_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:_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} }'] [u' @inproceedings{lopez_de_ipina_gprs-based_2005, address = {Miami, USA}, title = {{GPRS}-based {Real}-{Time} {Remote} {Control} of {MicroBots} with {M}2M {Capabilities}}, isbn = {972-8865-21-X}, abstract = {Machine to Machine (M2M) communication is gathering momentum. Many network operators deem that the future of the business on data transmission lies on M2M. In parallel, the application of robotics is progressively becoming more widespread. Traditionally, robotics has only been applied to industrial environments, but lately some more exoteric (e.g. domestic) robots have arisen. Anyhow, those robots usually offer very primitive communication means. Few researchers have considered that a solution to this issue would be to combine those two emerging fields. This paper describes our experiences combining M2M with robotics to create a fleet of MicroBots, which are remotely controllable through GPRS connection links. Those robots can be used in dangerous environments to gather material samples or simply for surveillance and security control. A sophisticated 3-tier architecture is proposed that combined with a purposely built protocol, optimized for wireless transmission, makes feasible the real-time control of remote devices. 1}, booktitle = {The {Fourth} {International} {Workshop} on {Wireless} {Information} {Systems} ({WIS} 2005)}, author = {Lopez de Ipi\xf1a, Diego and V\xe1zquez, I\xf1aki and Ruiz de Garibay, Jonathan and Sainz, David}, year = {2005}, keywords = {Microbotics, PDA, Wireless, ambient intelligence, commbots, communication, middleware}, pages = {42--51} }'] [u" @inproceedings{lopez_de_ipina_architecture_2005, title = {An architecture for sentient {GPRS}-enabled {MicroBots}}, doi = {10.1109/CIRA.2005.1554268}, abstract = {Ambient intelligence is a user-centered concept which combines several computing disciplines with the purpose of enhancing/facilitating the user's daily activities. We deem that autonomous or semiautonomous (remotely controlled) sentient MicroBots may also be first-class citizens within ambient intelligence. Those MicroBots would interact with their surrounding environment assisted by their built-in sensors, effectors and communication facilities, on behalf of the users they serve. In essence, they would also profit as users do from Ambient Intelligence to achieve their programmed goals. In this paper, we contribute with a solution to enable the realtime remote control of GPRS-accessible semiautonomous sentient MicroBots. Moreover, we discuss the extensions necessary to convert those MicroBots into care assistants for disabled and elderly people.}, booktitle = {2005 {IEEE} {International} {Symposium} on {Computational} {Intelligence} in {Robotics} and {Automation}, 2005. {CIRA} 2005. {Proceedings}}, author = {Lopez de Ipina, Diego and Vazquez, Juan Ignacio and Ruiz de Garibay, Jonathan and Sainz, David}, year = {2005}, keywords = {Microbotics, PDA, Wireless, ambient intelligence, commbots, communication, middleware}, pages = {145--150} }"]