Diseño, especificación, implementación y validación de habilitadores digitales para la interoperabilidad de plataformas de Internet de las cosas (IoT)

[ES] Internet de las Cosas (IoT) es un paradigma tecnológico que está transformando y revolucionando el mundo en el cual vivimos, liderando la transformación digital y generando enormes posibilidades desde el punto de vista tecnológico que pueden solucionar grandes problemas y retos en nuestra sociedad y efectuar cambios profundos en nuestra economía e industria, y transformar nuestra vida cotidiana . Sin embargo, para poder obtener estos grandes beneficios y explotar todo su potencial todavía hace falta abordar y resolver grandes retos tecnológicos asociados. La interoperabilidad es el mayor reto tecnológico del paradigma IoT, conjuntamente con la seguridad, a causa de la vasta heterogeneidad inherente del universo IoT a todos los niveles y la falta de una estandarización global aceptada de facto capaz de alinear sus diferentes elementos y aspectos, que actualmente no se considera viable conseguir. La capacidad de elementos y sistemas de comunicarse y compartir información de manera efectiva entre ellos habilita intercambios de información relevante, coordinación o cooperación entre sí y sinergias. La fragmentación de la información de sistemas IoT y falta inherente de interoperabilidad en este paradigma causa graves problemas económicos y tecnológicos, e impide las sinergias entre sistemas. Se considera que la carencia de interoperabilidad es el mayor obstáculo para la formación de un ecosistema global de IoT, un hito en la transformación digital, puesto que impide la integración horizontal de mercados verticales y deja una gran fragmentación entre los sistemas basados en información obtenida con la tecnología IoT. IoT, uno de los paradigmas o habilitadores clave de la transformación digital, está enormemente limitada por carencias de interoperabilidad, que impiden su crecimiento, evolución y despliegue de todo su potencial. Es absolutamente crítico resolver el problema de falta intrínseca de interoperabilidad entre plataformas IoT para poder avanzar tecnológicamente hacia el Internet del Futuro, la Nueva Generación de IoT y la digitalización del mundo. La habilitación de la interoperabilidad entre sistemas y a lo largo de los sistemas, para conseguir un ecosistema interconexionado global, es un reto complejo y de múltiples facetas. Entre ellas, la interoperabilidad semántica, que implica el entendimiento completo, automático y sin ambigüedades de la información compartida entre sistemas, es singularmente compleja de obtener entre plataformas IoT a causa de la alta heterogeneidad entre sus modelos de información. En esta tesis se abarca el estudio, diseño, especificación, implementación y validación de habilitadores digitales (herramientas tecnológicas que promueven la digitalización del mundo) para establecer interoperabilidad en IoT en diferentes niveles (técnico, sintáctico, semántico) con especial enfoque en la interoperabilidad semántica entre plataformas heterogéneas, uno de los retos técnicos más complejos actualmente en IoT. También se abordan en el estudio y construcción de estos habilitadores temas a resolver de Internet del Futuro y la Nueva Generación de Internet de las Cosas.[CA] Internet de les Coses (IoT) és un paradigma tecnològic que està transformant i revolucionant el món en el qual vivim, liderant la transformació digital i generant enormes possibilitats des del punt de vista tecnològic que poden solucionar grans problemes i reptes en la nostra societat i efectuar canvis profunds en la nostra economia i indústria, i transformar la nostra vida quotidiana. No obstant això, per a poder obtindre aquests grans beneficis i explotar tot el seu potencial encara fa falta abordar i resoldre grans reptes tecnològics associats. La interoperabilitat és el major repte tecnològic del paradigma IoT, conjuntament amb la seguretat, a causa de la vasta heterogeneïtat inherent de l'univers IoT a tots els nivells i la falta d'una estandardització global acceptada de facto capaç d'alinear els seus diferents elements i aspectes, que actualment no es considera viable aconseguir. La capacitat d'elements i sistemes de comunicar-se i compartir informació de manera efectiva entre ells habilita intercanvis d'informació rellevant, coordinació o cooperació entre si i sinergies. La fragmentació de la informació de sistemes IoT i falta inherent d'interoperabilitat en aquest paradigma causa greus problemes econòmics i tecnològics, i impedeix les sinergies entre sistemes. Es considera que la manca d'interoperabilitat és el major obstacle per a la formació d'un ecosistema global de IoT, una fita en la transformació digital, ja que impedeix la integració horitzontal de mercats verticals i deixa una gran fragmentació entre els sistemes basats en informació obtinguda amb la tecnologia IoT. La IoT, un dels paradigmes o habilitadors clau de la transformació digital, està enormement limitada per manques d'interoperabilitat, que impedeixen el seu creixement, evolució i desplegament de tot el seu potencial. És absolutament crític resoldre el problema de falta intrínseca d'interoperabilitat entre plataformes IoT per a poder avançar tecnològicament cap a la Internet del Futur, la Nova Generació de IoT i la digitalització del món. L'habilitació de la interoperabilitat entre sistemes i al llarg dels sistemes, per a aconseguir un ecosistema interconnectat global, és un repte complex i de múltiples facetes. Entre elles, la interoperabilitat semàntica, que implica l'enteniment complet, automàtic i sense ambigüitats de la informació compartida entre sistemes, és singularment complexa d'obtindre entre plataformes IoT a causa de l'alta heterogeneïtat entre els seus models d'informació. En aquesta tesi s'abasta l'estudi, disseny, especificació, implementació i validació d'habilitadors digitals (eines tecnològiques que promouen la digitalització del món) per a establir interoperabilitat en IoT en diferents nivells (tècnic, sintàctic, semàntic) amb especial enfocament en la interoperabilitat semàntica entre plataformes heterogènies, un dels reptes tècnics més complexos actualment en IoT. També s'aborden en l'estudi i construcció d'aquests habilitadors temes a resoldre d'Internet del Futur i la Nova Generació d'Internet de les Coses.[EN] The Internet of Things (IoT) is a technological paradigm that is transforming and revolutionising the world we live in, leading the digital transformation and generating enormous technological possibilities that could solve major challenges in our society, effect profound changes in our economy and industry and transform our daily lives. However, in order to realise these great benefits and exploit IoT's full potential, there are major associated technological challenges to be addressed and solved. Interoperability is the biggest technological challenge of the IoT paradigm, together with security, because of the vast inherent heterogeneity in IoT at all levels and the lack of a de facto global standard capable of aligning its different elements and aspects, which is currently not considered feasible to achieve. The ability of elements and systems to communicate and share information effectively with each other enables exchanges of relevant information, coordination or cooperation with each other and synergies. The fragmentation of information in IoT systems and inherent lack of interoperability in this paradigm causes serious economic and technological problems, and prevents synergies between systems. The lack of interoperability is considered to be the biggest obstacle to the formation of a global IoT ecosystem, a milestone in the digital transformation, as it prevents horizontal integration of vertical markets and leaves a large fragmentation between systems based on IoT-derived information. IoT, one of the key paradigms or enablers of digital transformation, is severely constrained by interoperability gaps, which impede its growth, evolution and deployment of its full potential. It is absolutely critical to solve the problem of intrinsic lack of interoperability between IoT platforms in order to move technologically towards the Future Internet, the Next Generation IoT and the digitisation of the world. The enablement of interoperability between and across systems to achieve a globally interconnected ecosystem is a complex and multi-faceted challenge. Among them, semantic interoperability, which implies an automatic unambiguous understanding of the information shared between systems, is hardly feasible between IoT platforms due to the high heterogeneity of information models. This thesis covers the study, design, specification, implementation and validation of digital enablers to establish IoT interoperability at different levels (technical, syntactic, semantic) with special focus on semantic interoperability between heterogeneous platforms, one of the most complex technical challenges currently in IoT. The study and construction of these enablers also address issues to solve in the Future Internet and the Next Generation of the Internet of Things.González Usach, R. (2022). Diseño, especificación, implementación y validación de habilitadores digitales para la interoperabilidad de plataformas de Internet de las cosas (IoT) [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/181643TESI

Federation of AAL & AHA systems through semantically interoperable framework

[EN] Ambient Assisted Living (AAL) and Active and Healthy Ageing (AHA) immensely benefit from IoT application. The federation of IoT platforms can multiply the benefits obtained by the operation of those systems in an isolated way, as it enables important synergies (e.g., intelligent information sharing, system cooperation, service enhancement). This federation requires the enablement of interoperability between the IoT systems, which represents a major challenge, as systems typically follow very different standards, data formats, semantic models and manners of representing the information. We have provided a technical solution in the frame of ACTIVAGE, a project that aims to federate multiple heterogeneous IoT platforms and systems associated to clusters of AHA Smart Homes in 12 regions across Europe, with the goal to improve the AHA service provided and create the first European AHA ecosystem. Our technical solution allows the enablement of full semantic interoperability across heterogeneous platforms and it has been validated in a test scenario. It enables significant AHA service enhancement within the ACTIVAGE ecosystem, as native applications from one platform could be used indistinctly by all federated platforms. Our solution allows good scalability federating new platforms, with linear and relatively low effort.This research work has been partially funded by LSP H2020 ACTIVAGE project under Grant Agreement Nº 732679.González-Usach, R.; Julián, M.; Esteve Domingo, M.; Palau Salvador, CE. (2021). Federation of AAL & AHA systems through semantically interoperable framework. 1-6. https://doi.org/10.1109/ICCWorkshops50388.2021.94735031

AAL open source system for the monitoring and intelligent control of nursing homes

[EN] SAFE-ECH is an innovative intelligent AAL open source system for monitoring nursing homes, that creates an Ambient Intelligent environment in a residence by collecting and storing sensor monitoring data, performing intelligent data analysis and specific actions to enhance the safety, comfort and efficient care of aged people. Our system implements open standards of the Open Geospatial Consortium complying with Observations & Measurements Schema (O&M), SensorML and Sensor Web Enablement (SWE) specifications. Our system adapts to the specific needs of each nursing home, integrating the required sensors, actuators, rules and services. It is scalable and allows the management of several residences simultaneously.This research was partially funded by the European Union's Horizon 2020 research and innovation programme as part of the INTERIoT project under Grant Agreement 687283, and by SAFE-ECH funded by the Spanish Ministerio de Industria, Economía y Competitividad (MINECO) under Grant Agreement RTC-2015-4502-1González-Usach, R.; Collado, V.; Esteve Domingo, M.; Palau Salvador, CE. (2017). AAL open source system for the monitoring and intelligent control of nursing homes. IEEE Systems, Man, and Cybernetics Society. 1-6. https://doi.org/10.1109/ICNSC.2017.8000072S1

Hybrid Delay-Based Congestion Control for Multipath TCP

[EN] Current algorithms for MPTCP (as LIA, OLIA, BALIA, or wVegas) present loss-based congestion control on the exception of wVegas. Delay-based congestion control allows a preventive action against congestion, capable to avoid loss up to some extent, unlike loss-based congestion control. Additionally delay-based congestion control induces lower delay and presents higher fairness, but poor performance interoperating with loss-based flows, as get a poor share of the available bandwidth. We propose DAIMD, a hybrid congestion control for Multipath TCP, based on the delay-based AIMD scheme, which benefits from better, preventive detection of congestion, a more responsive use of queues and consequently low induced delay, as well as the capability to coexist in fair conditions with loss-based flows in shared links. Our system presents its own analysis criteria for detecting incipient congestion that differs from other delay-based schemes on which it is based, such as CDG, delay-based AIMD and Vegas.This research has received funding from the European Union's Horizon 2020 research and innovation programme as part of the 'Interoperability of Heterogeneous IoT Platforms' (INTER-IoT) project under Grant Agreement nº730; 687283.González-Usach, R.; Pradilla-Cerón, JV.; Esteve Domingo, M.; Palau Salvador, CE. (2016). Hybrid Delay-Based Congestion Control for Multipath TCP. 1-6. https://doi.org/10.1109/MELCON.2016.7495389S1

Interoperability in IoT

Interoperability refers to the ability of IoT systems and components to communicate and share information among them. This crucial feature is key to unlock all of the IoT paradigm´s potential, including immense technological, economic, and social benefits. Interoperability is currently a major challenge in IoT, mainly due to the lack of a reference standard and the vast heterogeneity of IoT systems. IoT interoperability has also a significant importance in big data analytics because it substantively eases data processing. This chapter analyzes the critical importance of IoT interoperability, its different types, challenges to face, diverse use cases, and prospective interoperability solutions. Given that it is a complex concept that involves multiple aspects and elements of IoT, for a deeper insight, interoperability is studied across different levels of IoT systems. Furthermore, interoperability is also re-examined from a global approach among platforms and systems.González-Usach, R.; Yacchirema-Vargas, DC.; Julián-Seguí, M.; Palau Salvador, CE. (2019). Interoperability in IoT. Handbook of Research on Big Data and the IoT. 149-173. http://hdl.handle.net/10251/150250S14917

Importancia de las competencias en tecnologías de la información (e-skills) en sectores productivos. Propuesta de investigación en el sector transporte de la Comunidad Valenciana

[EN] European economies should seize the time of crisis to strengthen their capacity to produce more skilled workers and managers in the field of digital skills (e¿skills) to avoid being removed from the race for global competitiveness based on knowledge and driven by the innovation. IT is a great tool for change and creating new opportunities and proper implementation in the productive sector offers value added. Digital competences or e¿skills are critical in the development of productivity (and allow proper penetration of IT in organizations). The European Union must seize the opportunity that IT offers and make an effort to remedy the deficiencies in digital skills, allowing promote competitiveness, growth and employment, and reducing the technology gap. A research proposal on the positive effect of e¿skills of employees in the productivity of the company in the case of the transport sector in the Valencian Community is presented[ES] Las economías europeas deben aprovechar la época de crisis para reforzar su capacidad para producir más trabajadores y directivos capacitados en el ámbito de las competencias digitales (e¿skills) evitando ser apartadas de la carrera por la competitividad mundial basada en el conocimiento e impulsada por la innovación. Las TI representan una gran herramienta de cambio y de creación de nuevas oportunidades y su correcta implantación en el sector productivo ofrece valor añadido. Las competencias digitales o e¿skills son críticas en el desarrollo de la productividad (y permiten una correcta penetración de las TI en las organizaciones). La Unión Europea debe aprovechar la oportunidad que las TI ofrecen, y hacer un esfuerzo para paliar las deficiencias en materia de competencias digitales, permitiendo fomentar la competitividad, el crecimiento y el empleo, y reducir la brecha tecnológica existente. Se presenta una propuesta de investigación sobre el efecto positivo de los e¿skills de los empleados en la productividad de la empresa en el caso concreto del sector de transporte de la Comunidad Valenciana.Ordóñez Jiménez, ER.; Gil Gómez, H.; Oltra Badenes, RF.; González-Usach, R. (2015). Importancia de las competencias en tecnologías de la información (e-skills) en sectores productivos. Propuesta de investigación en el sector transporte de la Comunidad Valenciana. 3C TIC, cuadernos de desarrollo aplicados a las TIC. 4(1):87-99. http://hdl.handle.net/10251/94527S87994

AIoTES: Setting the principles for semantic interoperable and modern IoT-enabled reference architecture for Active and Healthy Ageing ecosystems

[EN] The average life expectancy of the world's population is increasing and the healthcare systems sooner than later will be compromised by its reduced capacity and its highly economic cost; in addition, the age distribution of the population is leading towards the older spectrum. This trend will lead to immeasurable and unexpected economic problems and social changes. In order to face up this challenge and complex economic and social problem, it is necessary to rely on the appropriate digital tools and technological infrastructures for ensuring that the elderly are properly cared in their everyday living environments and they can live independently for longer. This article presents ACTIVAGE IoT Ecosystem Suite (AIoTES), a concrete reference architecture and its implementation process that addresses these issues and that was designed within the first European Large Scale Pilot, ACTIVAGE, a H2020 funded project by the European Commission with the objective of creating sustainable ecosystems for Active and Healthy Ageing (AHA) based on Internet of Things and big data technologies. AIoTES offers platform level semantic interoperability, with security and privacy, as well as Big Data and Ecosystem tools. AIoTES enables and promotes the creation, exchange and adoption of crossplatform services and applications for AHA. The number of existing AHA services and solutions are quite large, especially when state-of-the-art technology is introduced, however a concrete architecture such as AIoTES gains more importance and relevance by providing a vision for establishing a complete ecosystem, that looks for supporting a larger variety of AHA services, rather than claiming to be a unique solution for all the AHA domain problems. AIoTES has been successfully validated by testing all of its components, individually, integrated, and in real-world environments with 4345 direct users. Each validation is contextualized in 11 Deployment Sites (DS) with 13 Validation Scenarios covering the heterogeneity of the AHA-IoT needs. These results also show a clear path for improvement, as well as the importance for standardization efforts in the ever-evolving AHA-IoT domain.We thank to all the people who have participated in the development and validation of AIoTES. This work has been developed under the framework of the ACTIVAGE project. The project has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No 732679.Valero-López, CI.; Medrano-Gil, A.; González-Usach, R.; Julián-Seguí, M.; Fico, G.; Arredondo, MT.; Stavropoulos, TG.... (2021). AIoTES: Setting the principles for semantic interoperable and modern IoT-enabled reference architecture for Active and Healthy Ageing ecosystems. Computer Communications. 177:96-111. https://doi.org/10.1016/j.comcom.2021.06.0109611117

Design and Evaluation of a Delay-Based Algorithm for Multipath TCP

González Usach, R. (2014). Design and Evaluation of a Delay-Based Algorithm for Multipath TCP. http://hdl.handle.net/10251/37259.Archivo delegad