Artefactos energéticos : de Fuller a Piñero (1961-1972) = Energetic artefacts : from Fuller to Piñero (1961-1972)

La obra de Emilio Pérez Piñero que se desarrolla entre los años 1961 y 1972 año en el que muere en un accidente de tráfico volviendo de Figueras, se centra principalmente en artefactos desplegables y desmontables, ejecutando prototipos que en el presente trabajo se han dividido en dos grupos; la cúpula reticular y la infraestructura. No pudo por tanto acudir al Congreso de 1972 de la UIA a recoger el premio Auguste Perret a la innovación tecnológica, que en años anteriores habían recibido Félix Candela, Jean Prouvé, Hans Scharoun o Frei Otto, y que en aquella ocasión tuvo que recoger su viuda. Parámetros como el de la movilidad, indeterminación, intercambiabilidad, obsolescencia y otros que se analizan en el presente trabajo, aparecen a lo largo de toda su obra ya que muchos de sus artefactos están ubicados en no-lugares y tienen un carácter itinerante y por tanto se hace indispensable su rápido montaje y desmontaje, que unas veces se resuelve mediante la desmontabilidad y otras con la plegabilidad de éstos. Aunque pueda parecer Piñero una figura autárquica, lo cierto es que durante la década donde concentra su trabajo se produce una explosión en torno a al arquetipo que será denominado de forma genérica `artefacto´, ligado conceptualmente a los parámetros que aquí se definen. Entendemos artefacto como objeto material realizado por una o varias personas para cumplir una función, es sinónimo de máquina y aparato y deriva de las palabras latinas ars o artis (técnica) y facto (hecho), para designar a los objetos cuya fabricación requiere alguna destreza. El término latino `ars´ engloba a las técnicas y a las artes, lo que no ocurre con el término castellano arte que deriva de él. Los movimientos utópicos que comparte la década con Piñero, utilizan el arquetipo infraestructural, ligero y high tech, para a través de una arquitectura más ligada a la ciencia ficción, realizar una crítica al Movimiento Moderno institucionalizado, todos ellos comparten cierta obsesión por la movilidad, ligada ésta a la idea de espacio flexible, dinámico, nómada. Este concepto de neo-nomadismo, que representa un habitar dinámico, aglutina las nuevas formas de vivir donde la movilidad social y geográfica son habituales. El nomadismo, por otra parte se entiende como sinónimo de democracia y libertad. La arquitectura pasa de ser pesada, estática, permanente a ser un elemento dinámico en continuo movimiento. A veces con connotaciones biológicas se asimilan los artefactos a organismos vivos y les confieren dichas propiedades de crecimiento y autonomía energética, acumulándose en torno a megaestructuras, donde quedan `enchufados´. En este intento de dotar movilidad a lo inmueble, se buscan estructuras vivas y modificables que crecen en una asimilación de las leyes naturales utilizando los parámetros de metamorfosis, simbiosis y cambio. Estos movimientos de vanguardia tienen también ciertas connotaciones políticas y sociales basadas en la libertad y la movilidad y reniegan del consumismo institucionalizado, de la arquitectura como instrumento de consumo, como objeto de usar en la cultura de masas. El carácter político de la autogestión, de la customización como parámetro proyectual, de la autosuficiencia energética, que anticipa la llegada de la crisis energética del año 1973. Objeto de este trabajo será relacionar los conceptos que aparecen fuertemente en el entorno de la década de los años sesenta del siglo XX, en el trabajo de Emilio Pérez Piñero. Parámetros encontrados como conceptos en los grupos de vanguardia y utopía a su vez fuertemente influenciados por las figuras del ingeniero Richard Buckminster Fuller y del arquitecto Konrad Wachsmann. Se analizará que posible influencia tiene la obra de Fuller, principalmente el prototipo denominado cúpula reticular, en la obra de Pérez Piñero y sus coetáneos analizando sus pensamientos teóricos en torno a parámetros como la energía, principalmente en las teorías relativas a Synergetics. El término inventado por Richard B. Fuller es una contracción de otro más largo que en inglés agrupa tres palabras; synergetic-energetic geometry. La definición de sinergia es la cooperación, es decir es el resultado de la acción conjunta de dos o más causas, pero con un efecto superior a la suma de estas causas. El segundo término, energetics geometry, que traducido sería geometría energética hace referencia en primer lugar a la geometría; ya que desarrolla el sistema de referencia que utiliza la naturaleza para construir sus sistemas y en segundo lugar a la energía; ya que además debe ser el sistema que establezca las relaciones más económicas utilizando el mínimo de energía. Por otro lado se analiza la repercusión del prototipo denominado Infraestructura, término acuñado por Yona Friedman y basado estructuralmente y conceptualmente en los desarrollos sobre grandes estructuras de Konrad Wachsmann. El arquitecto alemán divulga su conocimiento en seminarios impartidos por todo el mundo como el que imparte en Tokio y se denomina Wachsmann´s Seminar donde participan algunos de los componentes del grupo Metabolista que sorprenderán al mundo con sus realizaciones en la exposición de Osaka de 1970. El intervalo temporal entre 1961 hasta 1972 hace referencia a la horquilla donde Pérez Piñero realiza su obra arquitectónica, que comienza en 1961 cuando gana el concurso convocado en Londres por la UIA (Unión Internacional de Arquitectos) con el proyecto conocido como Teatro Ambulante, hasta 1972 que es cuando fallece volviendo de Figueras donde está realizando dos encargos de Salvador Dalí; la cubrición del escenario del futuro Teatro-Museo Salvador Dalí y la Vidriera Hipercúbica que debía cerrar la boca de tal escenario. Bajo el título de `Artefactos energéticos. De Fuller a Piñero (1961-1972)´, se presenta esta Tesis doctoral, que tiene la intención de vincular la obra de Emilio Pérez Piñero con la de las neo vanguardias producidas por una serie de arquitectos que operan en el ámbito internacional. Estas vinculaciones se producen de una forma general, donde a través de una serie de estrategias según la metodología que posteriormente se describe se buscan relaciones de la obra del autor español con algunos de los movimientos más significativos que aparecen en dicha década y de manera específica estableciendo relaciones con las obras y pensamientos de los autores que pertenecen a estos movimientos y donde estas relaciones se hacen más evidentes. El objeto del presente trabajo es analizar y explicar la obra del arquitecto Emilio Pérez Piñero, que espacialmente se localiza en el territorio español, desde el punto de vista de estos movimientos para posteriormente poder determinar si existen puntos en común y si el arquitecto español no solo comparte la década temporalmente sino también conceptualmente y por tanto utiliza el ideario que utilizan sus coetáneos que forman parte de las neovanguardias de los años sesenta de siglo XX. ABSTRACT ABSTRACT The Work of Emilio Perez Piñero was developed between the years 1961 and 1972 when he died in a car accident coming back from Figueres, where he was building a geodesic dome to close the building that enclose the Dali’s museum. All his Work is mainly centered in artifact that could be collapsible and removable, taking the two prototypes that are described in this work as a recurrent element in all his creation. These are the reticular dome and the infrastructure that are very influenced by the work from Richard B. Fuller and Konrad Wachsmann. Emilio Pérez Piñero could not receive the Auguste Perret Prize in 1972 awarded by the UIA that years before have received architects as Felix Candela, Jean Prouvé, Hans Scharoun or Frei Otto, and this time Pérez Piñero´s wife will accept it because of his death. Parameters like mobility, changeability, expendability, indetermination and others appear currently in his Work. All the inventions that Piñero had been patented and all of the artifacts that he created are usually located in no-places, because they do have a shifting identity. This kind of building has to be quickly set on site, and this problem has to be solved in term of foldability or demounting. In the decade where his work focuses, an explosion has occurred around this archetype to be generally called artifact that is usually linked to mobility. We understand artifact as a material object made by one or more people to work in a particular way. It is sometimes equated with the terms machinery and apparatus and it is derived from the Latin word `ars´ or `artis´, what means techniques and `facto´ (fact). And we use this term to refer to objects whose manufacture requires the same skill, in fact the Latin word `ars´ covers the techniques and arts, which does not occur with the Castillan term `arte´ that derives from it and means only art. The term neo-nomadic is a relatively new name used for a dynamic life, commonly referred to new forms of life where social and geographical mobility are common. On the other hand nomadic could be understood as a synonymous for democracy and freedom. The architecture is not going to be hard and static anymore but a dynamic element in the move. The Neo-avant-garde movement that shares the decade with Piñero uses this infrastructural archetype, which is light and high-tech, to criticize the institutionalized Modern Movement through architecture linked to science fiction. They all share an obsession with mobility, a concept that is connected to the terms `dynamic´, `nomadic´, `flexibile´, etc. Sometimes, with biological connotations, the utopian assimilate the artifacts to living organisms and give them these properties of growth and energy autonomy, and they apparently grow around megastructures where they are plugged. In this attempt to provide mobility to the inertness, living structures and possibility of change are sought in order to make them grow like a living organism and to assimilate the natural laws of growth. According to a definition from architecture provided by Fernández- Galiano who calls it `exosomatic artifact´, he understand architecture as artifact of the human environment that regulates natural energy flows and channels the energy stored in fuels for the benefit of living beings that inhabit. It is also true that during the sixties a new environmental awareness in public opinion is formed and that is due to the exploitation and disproportionate use of energy resources, acceleration of technological processes and mass consumption. Consequently a new concept is born: energy autonomy, it is very close to rational use of natural energy. Such a concept will be culturally assimilated with the requirement of independence not only in the management but also in the building construction until we arrive at energy autonomy. The individuals become energy consumer, which in turn can enter the energy produced in the system to `life in an eco-mode way´. The objectives of this research are analyzing all of these parameters and concepts that are coming into view in the surrounding of the decade and relate them with the Work of Pérez Piñero. Terms strongly present in the avant-garde movements around the decade, a young architect’s generation strongly influenced by Richard B. Fuller and Konrad Wachsmann. However, it will be analyzed how important the influence of Buckminster Fuller's Work was and his theoretical text about energy on the Work of Pérez Piñero and his fellows of the decade. The term Synergetic was invented by Fuller and came from the words synergy and energetic geometry. Synergy is the cooperation or interaction of two or more agents to produce a greater effect than the sum of their separate effects. Energetic geometry is related to the geometries that the Nature is using to build their construction but always using low energy consumption. On the other hand, the influences from Wachsmann around the prototype called Infrastructure have been analyzed. The German architect has developed knowledge around huge structures that he has spread all around the world through seminars that he has been conducted. One of these was the Wachsmann´s seminar in Tokyo, where same of the members of the Metabolist group were taking part of. Later these young architects will surprise the world with his artifacts at the World Exposition in Osaka in 1970. Between 1961 and 1972 Pérez Piñero produced his architectural work. It began in 1961 when he received the first prize with his project Mobile Theatre in the competition organized by the UIA in London. In 1972 the Auguste Perret Prize was granted by the UIA too. He could not accept it because he died before in a car accident when he was coming from Figueres, when he was designing two projects for Dali. With the title `Energetic Artifacts. From Fuller to Piñero (1961- 1972)´, this thesis relates the Work of Emilio Pérez Piñero with the neo avant-garde made by a young architects’ generation who is sharing the time with him. Several strategies have been used to formed relationships between them. They are described in the present work to set up a method that allows us to relate the work and ideas of the architects of the neo avant-garde with the ones from Piñero. This work is intended to analyze and explained the work of Pérez Piñero from the point of view of the international architects’ generation who is operating at the same time and finally to determinate if Piñero is not sharing the time with them but the concepts, ideas and architectural parameters.

España: evolutionism & religion, Century XIX

From the Englightenment to the middle of the 19th century, geological time and the antiquity of human beings received ever growing attention. This was caused by a series of events, such as: *the beginnings of experimentation in Geology (Buffon, 1778) *the development of the transformism (Lamarck, 1809) *the recognition and description of extinct animals (Cuvier, 1812) *as well as the studies made in alluvial deposits, caves and gravel beds, with brought to light artefacts, human rest and bone of extinguished animals (from John Frere, 1797, to Albert Gaudry, 1859). The development towards evolutionism (Darwin, 1859) came gradually. In Spain, all these currents found their echo: Spain, e.g. was the third country where the Palaeolithic remains were discovered (Verneuil and Lartet, 1863). Also the Darwin ideas were introduced forcefully, right from the beginning. But the change in worldview, which was prerequisite to these ideas, lead to polemic controversies in the political and religious realm. The most significant evidence was the official prohibition of the teaching Darwinism in public educational centres (1875). At theological level, thanks to the advance of the geologic knowledge, went leaving the literal interpretations of Biblical texts was eventually discontinued and replaced by more liberal interpretation. In some case, the process was difficult because some political, religious and scientific authors and researchers didn’t understand the new scientific ideas.

Supporting End-User Development through a New Composition Model: An Empirical Study

End-user development (EUD) is much hyped, and its impact has outstripped even the most optimistic forecasts. Even so, the vision of end users programming their own solutions has not yet materialized. This will continue to be so unless we in both industry and the research community set ourselves the ambitious challenge of devising end to end an end-user application development model for developing a new age of EUD tools. We have embarked on this venture, and this paper presents the main insights and outcomes of our research and development efforts as part of a number of successful EU research projects. Our proposal not only aims to reshape software engineering to meet the needs of EUD but also to refashion its components as solution building blocks instead of programs and software developments. This way, end users will really be empowered to build solutions based on artefacts akin to their expertise and understanding of ideal solutions

A Process Asset Library to support Software Process Improvement in Small Settings

A main factor to the success of any organization process improvement effort is the Process Asset Library implementation that provides a central database accessible by anyone at the organization. This repository includes any process support materials to help process deployment. Those materials are composed of organization's standard software process, software process related documentation, descriptions of the software life cycles, guidelines, examples, templates, and any artefacts that the organization considers useful to help the process improvement. This paper describe the structure and contents of the Web-based Process Asset Library for Small businesses and small groups within large organizations. This library is structured using CMMI as reference model in order to implement those Process Areas described by this model.

Combining data mining and ontology engineering to enrich ontologies and linked data

In this position paper, we claim that the need for time consuming data preparation and result interpretation tasks in knowledge discovery, as well as for costly expert consultation and consensus building activities required for ontology building can be reduced through exploiting the interplay of data mining and ontology engineering. The aim is to obtain in a semi-automatic way new knowledge from distributed data sources that can be used for inference and reasoning, as well as to guide the extraction of further knowledge from these data sources. The proposed approach is based on the creation of a novel knowledge discovery method relying on the combination, through an iterative ?feedbackloop?, of (a) data mining techniques to make emerge implicit models from data and (b) pattern-based ontology engineering to capture these models in reusable, conceptual and inferable artefacts.

Exploring Cultural Heritage Resources in a 3D Collaborative Environment

Cultural heritage is a complex and diverse concept, which brings together a wide domain of information. Resources linked to a cultural heritage site may consist of physical artefacts, books, works of art, pictures, historical maps, aerial photographs, archaeological surveys and 3D models. Moreover, all these resources are listed and described by a set of a variety of metadata specifications that allow their online search and consultation on the most basic characteristics of them. Some examples include Norma ISO 19115, Dublin Core, AAT, CDWA, CCO, DACS, MARC, MoReq, MODS, MuseumDat, TGN, SPECTRUM, VRA Core and Z39.50. Gateways are in place to fit in these metadata standards into those used in a SDI (ISO 19115 or INSPIRE), but substantial work still remains to be done for the complete incorporation of cultural heritage information. Therefore, the aim of this paper is to demonstrate how the complexity of cultural heritage resources can be dealt with by a visual exploration of their metadata within a 3D collaborative environment. The 3D collaborative environments are promising tools that represent the new frontier of our capacity of learning, understanding, communicating and transmitting culture.

The Innovation Sources in Software Engineering: A Systematic Literature Review

During the last century many researches on the business, marketing and technology fields have developed the innovation research line and large amount of knowledge can be found in the literature. Currently, the importance of systematic and openness approaches to manage the available innovation sources is well established in many knowledge fields. Also in the software engineering sector, where the organizations need to absorb and to exploit as much innovative ideas as possible to get success in the current competitive environment. This Master Thesis presents an study related with the innovation sources in the software engineering eld. The main research goals of this work are the identication and the relevance assessment of the available innovation sources and the understanding of the trends on the innovation sources usage. Firstly, a general review of the literature have been conducted in order to define the research area and to identify research gaps. Secondly, the Systematic Literature Review (SLR) has been proposed as the research method in this work to report reliable conclusions collecting systematically quality evidences about the innovation sources in software engineering field. This contribution provides resources, built-on empirical studies included in the SLR, to support a systematic identication and an adequate exploitation of the innovation sources most suitable in the software engineering field. Several artefacts such as lists, taxonomies and relevance assessments of the innovation sources most suitable for software engineering have been built, and their usage trends in the last decades and their particularities on some countries and knowledge fields, especially on the software engineering, have been researched. This work can facilitate to researchers, managers and practitioners of innovative software organizations the systematization of critical activities on innovation processes like the identication and exploitation of the most suitable opportunities. Innovation researchers can use the results of this work to conduct research studies involving the innovation sources research area. Whereas, organization managers and software practitioners can use the provided outcomes in a systematic way to improve their innovation capability, increasing consequently the value creation in the processes that they run to provide products and services useful to their environment. In summary, this Master Thesis research the innovation sources in the software engineering field, providing useful resources to support an effective innovation sources management. Moreover, several aspects should be deeply study to increase the accuracy of the presented results and to obtain more resources built-on empirical knowledge. It can be supported by the INno- vation SOurces MAnagement (InSoMa) framework, which is introduced in this work in order to encourage openness and systematic approaches to identify and to exploit the innovation sources in the software engineering field.

A model to develop a platform for personalised health applications

Antecedentes Europa vive una situación insostenible. Desde el 2008 se han reducido los recursos de los gobiernos a raíz de la crisis económica. El continente Europeo envejece con ritmo constante al punto que se prevé que en 2050 habrá sólo dos trabajadores por jubilado [54]. A esta situación se le añade el aumento de la incidencia de las enfermedades crónicas, relacionadas con el envejecimiento, cuyo coste puede alcanzar el 7% del PIB de un país [51]. Es necesario un cambio de paradigma. Una nueva manera de cuidar de la salud de las personas: sustentable, eficaz y preventiva más que curativa. Algunos estudios abogan por el cuidado personalizado de la salud (pHealth). En este modelo las prácticas médicas son adaptadas e individualizadas al paciente, desde la detección de los factores de riesgo hasta la personalización de los tratamientos basada en la respuesta del individuo [81]. El cuidado personalizado de la salud está asociado a menudo al uso de las tecnologías de la información y comunicación (TICs) que, con su desarrollo exponencial, ofrecen oportunidades interesantes para la mejora de la salud. El cambio de paradigma hacia el pHealth está lentamente ocurriendo, tanto en el ámbito de la investigación como en la industria, pero todavía no de manera significativa. Existen todavía muchas barreras relacionadas a la economía, a la política y la cultura. También existen barreras puramente tecnológicas, como la falta de sistemas de información interoperables [199]. A pesar de que los aspectos de interoperabilidad están evolucionando, todavía hace falta un diseño de referencia especialmente direccionado a la implementación y el despliegue en gran escala de sistemas basados en pHealth. La presente Tesis representa un intento de organizar la disciplina de la aplicación de las TICs al cuidado personalizado de la salud en un modelo de referencia, que permita la creación de plataformas de desarrollo de software para simplificar tareas comunes de desarrollo en este dominio. Preguntas de investigación RQ1 >Es posible definir un modelo, basado en técnicas de ingeniería del software, que represente el dominio del cuidado personalizado de la salud de una forma abstracta y representativa? RQ2 >Es posible construir una plataforma de desarrollo basada en este modelo? RQ3 >Esta plataforma ayuda a los desarrolladores a crear sistemas pHealth complejos e integrados? Métodos Para la descripción del modelo se adoptó el estándar ISO/IEC/IEEE 42010por ser lo suficientemente general y abstracto para el amplio enfoque de esta tesis [25]. El modelo está definido en varias partes: un modelo conceptual, expresado a través de mapas conceptuales que representan las partes interesadas (stakeholders), los artefactos y la información compartida; y escenarios y casos de uso para la descripción de sus funcionalidades. El modelo fue desarrollado de acuerdo a la información obtenida del análisis de la literatura, incluyendo 7 informes industriales y científicos, 9 estándares, 10 artículos en conferencias, 37 artículos en revistas, 25 páginas web y 5 libros. Basándose en el modelo se definieron los requisitos para la creación de la plataforma de desarrollo, enriquecidos por otros requisitos recolectados a través de una encuesta realizada a 11 ingenieros con experiencia en la rama. Para el desarrollo de la plataforma, se adoptó la metodología de integración continua [74] que permitió ejecutar tests automáticos en un servidor y también desplegar aplicaciones en una página web. En cuanto a la metodología utilizada para la validación se adoptó un marco para la formulación de teorías en la ingeniería del software [181]. Esto requiere el desarrollo de modelos y proposiciones que han de ser validados dentro de un ámbito de investigación definido, y que sirvan para guiar al investigador en la búsqueda de la evidencia necesaria para justificarla. La validación del modelo fue desarrollada mediante una encuesta online en tres rondas con un número creciente de invitados. El cuestionario fue enviado a 134 contactos y distribuido en algunos canales públicos como listas de correo y redes sociales. El objetivo era evaluar la legibilidad del modelo, su nivel de cobertura del dominio y su potencial utilidad en el diseño de sistemas derivados. El cuestionario incluía preguntas cuantitativas de tipo Likert y campos para recolección de comentarios. La plataforma de desarrollo fue validada en dos etapas. En la primera etapa se utilizó la plataforma en un experimento a pequeña escala, que consistió en una sesión de entrenamiento de 12 horas en la que 4 desarrolladores tuvieron que desarrollar algunos casos de uso y reunirse en un grupo focal para discutir su uso. La segunda etapa se realizó durante los tests de un proyecto en gran escala llamado HeartCycle [160]. En este proyecto un equipo de diseñadores y programadores desarrollaron tres aplicaciones en el campo de las enfermedades cardio-vasculares. Una de estas aplicaciones fue testeada en un ensayo clínico con pacientes reales. Al analizar el proyecto, el equipo de desarrollo se reunió en un grupo focal para identificar las ventajas y desventajas de la plataforma y su utilidad. Resultados Por lo que concierne el modelo que describe el dominio del pHealth, la parte conceptual incluye una descripción de los roles principales y las preocupaciones de los participantes, un modelo de los artefactos TIC que se usan comúnmente y un modelo para representar los datos típicos que son necesarios formalizar e intercambiar entre sistemas basados en pHealth. El modelo funcional incluye un conjunto de 18 escenarios, repartidos en: punto de vista de la persona asistida, punto de vista del cuidador, punto de vista del desarrollador, punto de vista de los proveedores de tecnologías y punto de vista de las autoridades; y un conjunto de 52 casos de uso repartidos en 6 categorías: actividades de la persona asistida, reacciones del sistema, actividades del cuidador, \engagement" del usuario, actividades del desarrollador y actividades de despliegue. Como resultado del cuestionario de validación del modelo, un total de 65 personas revisó el modelo proporcionando su nivel de acuerdo con las dimensiones evaluadas y un total de 248 comentarios sobre cómo mejorar el modelo. Los conocimientos de los participantes variaban desde la ingeniería del software (70%) hasta las especialidades médicas (15%), con declarado interés en eHealth (24%), mHealth (16%), Ambient Assisted Living (21%), medicina personalizada (5%), sistemas basados en pHealth (15%), informática médica (10%) e ingeniería biomédica (8%) con una media de 7.25_4.99 años de experiencia en estas áreas. Los resultados de la encuesta muestran que los expertos contactados consideran el modelo fácil de leer (media de 1.89_0.79 siendo 1 el valor más favorable y 5 el peor), suficientemente abstracto (1.99_0.88) y formal (2.13_0.77), con una cobertura suficiente del dominio (2.26_0.95), útil para describir el dominio (2.02_0.7) y para generar sistemas más específicos (2_0.75). Los expertos también reportan un interés parcial en utilizar el modelo en su trabajo (2.48_0.91). Gracias a sus comentarios, el modelo fue mejorado y enriquecido con conceptos que faltaban, aunque no se pudo demonstrar su mejora en las dimensiones evaluadas, dada la composición diferente de personas en las tres rondas de evaluación. Desde el modelo, se generó una plataforma de desarrollo llamada \pHealth Patient Platform (pHPP)". La plataforma desarrollada incluye librerías, herramientas de programación y desarrollo, un tutorial y una aplicación de ejemplo. Se definieron cuatro módulos principales de la arquitectura: el Data Collection Engine, que permite abstraer las fuentes de datos como sensores o servicios externos, mapeando los datos a bases de datos u ontologías, y permitiendo interacción basada en eventos; el GUI Engine, que abstrae la interfaz de usuario en un modelo de interacción basado en mensajes; y el Rule Engine, que proporciona a los desarrolladores un medio simple para programar la lógica de la aplicación en forma de reglas \if-then". Después de que la plataforma pHPP fue utilizada durante 5 años en el proyecto HeartCycle, 5 desarrolladores fueron reunidos en un grupo de discusión para analizar y evaluar la plataforma. De estas evaluaciones se concluye que la plataforma fue diseñada para encajar las necesidades de los ingenieros que trabajan en la rama, permitiendo la separación de problemas entre las distintas especialidades, y simplificando algunas tareas de desarrollo como el manejo de datos y la interacción asíncrona. A pesar de ello, se encontraron algunos defectos a causa de la inmadurez de algunas tecnologías empleadas, y la ausencia de algunas herramientas específicas para el dominio como el procesado de datos o algunos protocolos de comunicación relacionados con la salud. Dentro del proyecto HeartCycle la plataforma fue utilizada para el desarrollo de la aplicación \Guided Exercise", un sistema TIC para la rehabilitación de pacientes que han sufrido un infarto del miocardio. El sistema fue testeado en un ensayo clínico randomizado en el cual a 55 pacientes se les dio el sistema para su uso por 21 semanas. De los resultados técnicos del ensayo se puede concluir que, a pesar de algunos errores menores prontamente corregidos durante el estudio, la plataforma es estable y fiable. Conclusiones La investigación llevada a cabo en esta Tesis y los resultados obtenidos proporcionan las respuestas a las tres preguntas de investigación que motivaron este trabajo: RQ1 Se ha desarrollado un modelo para representar el dominio de los sistemas personalizados de salud. La evaluación hecha por los expertos de la rama concluye que el modelo representa el dominio con precisión y con un balance apropiado entre abstracción y detalle. RQ2 Se ha desarrollado, con éxito, una plataforma de desarrollo basada en el modelo. RQ3 Se ha demostrado que la plataforma es capaz de ayudar a los desarrolladores en la creación de software pHealth complejos. Las ventajas de la plataforma han sido demostradas en el ámbito de un proyecto de gran escala, aunque el enfoque genérico adoptado indica que la plataforma podría ofrecer beneficios también en otros contextos. Los resultados de estas evaluaciones ofrecen indicios de que, ambos, el modelo y la plataforma serán buenos candidatos para poderse convertir en una referencia para futuros desarrollos de sistemas pHealth. ABSTRACT Background Europe is living in an unsustainable situation. The economic crisis has been reducing governments' economic resources since 2008 and threatening social and health systems, while the proportion of older people in the European population continues to increase so that it is foreseen that in 2050 there will be only two workers per retiree [54]. To this situation it should be added the rise, strongly related to age, of chronic diseases the burden of which has been estimated to be up to the 7% of a country's gross domestic product [51]. There is a need for a paradigm shift, the need for a new way of caring for people's health, shifting the focus from curing conditions that have arisen to a sustainable and effective approach with the emphasis on prevention. Some advocate the adoption of personalised health care (pHealth), a model where medical practices are tailored to the patient's unique life, from the detection of risk factors to the customization of treatments based on each individual's response [81]. Personalised health is often associated to the use of Information and Communications Technology (ICT), that, with its exponential development, offers interesting opportunities for improving healthcare. The shift towards pHealth is slowly taking place, both in research and in industry, but the change is not significant yet. Many barriers still exist related to economy, politics and culture, while others are purely technological, like the lack of interoperable information systems [199]. Though interoperability aspects are evolving, there is still the need of a reference design, especially tackling implementation and large scale deployment of pHealth systems. This thesis contributes to organizing the subject of ICT systems for personalised health into a reference model that allows for the creation of software development platforms to ease common development issues in the domain. Research questions RQ1 Is it possible to define a model, based on software engineering techniques, for representing the personalised health domain in an abstract and representative way? RQ2 Is it possible to build a development platform based on this model? RQ3 Does the development platform help developers create complex integrated pHealth systems? Methods As method for describing the model, the ISO/IEC/IEEE 42010 framework [25] is adopted for its generality and high level of abstraction. The model is specified in different parts: a conceptual model, which makes use of concept maps, for representing stakeholders, artefacts and shared information, and in scenarios and use cases for the representation of the functionalities of pHealth systems. The model was derived from literature analysis, including 7 industrial and scientific reports, 9 electronic standards, 10 conference proceedings papers, 37 journal papers, 25 websites and 5 books. Based on the reference model, requirements were drawn for building the development platform enriched with a set of requirements gathered in a survey run among 11 experienced engineers. For developing the platform, the continuous integration methodology [74] was adopted which allowed to perform automatic tests on a server and also to deploy packaged releases on a web site. As a validation methodology, a theory building framework for SW engineering was adopted from [181]. The framework, chosen as a guide to find evidence for justifying the research questions, imposed the creation of theories based on models and propositions to be validated within a scope. The validation of the model was conducted as an on-line survey in three validation rounds, encompassing a growing number of participants. The survey was submitted to 134 experts of the field and on some public channels like relevant mailing lists and social networks. Its objective was to assess the model's readability, its level of coverage of the domain and its potential usefulness in the design of actual, derived systems. The questionnaires included quantitative Likert scale questions and free text inputs for comments. The development platform was validated in two scopes. As a small-scale experiment, the platform was used in a 12 hours training session where 4 developers had to perform an exercise consisting in developing a set of typical pHealth use cases At the end of the session, a focus group was held to identify benefits and drawbacks of the platform. The second validation was held as a test-case study in a large scale research project called HeartCycle the aim of which was to develop a closed-loop disease management system for heart failure and coronary heart disease patients [160]. During this project three applications were developed by a team of programmers and designers. One of these applications was tested in a clinical trial with actual patients. At the end of the project, the team was interviewed in a focus group to assess the role the platform had within the project. Results For what regards the model that describes the pHealth domain, its conceptual part includes a description of the main roles and concerns of pHealth stakeholders, a model of the ICT artefacts that are commonly adopted and a model representing the typical data that need to be formalized among pHealth systems. The functional model includes a set of 18 scenarios, divided into assisted person's view, caregiver's view, developer's view, technology and services providers' view and authority's view, and a set of 52 Use Cases grouped in 6 categories: assisted person's activities, system reactions, caregiver's activities, user engagement, developer's activities and deployer's activities. For what concerns the validation of the model, a total of 65 people participated in the online survey providing their level of agreement in all the assessed dimensions and a total of 248 comments on how to improve and complete the model. Participants' background spanned from engineering and software development (70%) to medical specialities (15%), with declared interest in the fields of eHealth (24%), mHealth (16%), Ambient Assisted Living (21%), Personalized Medicine (5%), Personal Health Systems (15%), Medical Informatics (10%) and Biomedical Engineering (8%) with an average of 7.25_4.99 years of experience in these fields. From the analysis of the answers it is possible to observe that the contacted experts considered the model easily readable (average of 1.89_0.79 being 1 the most favourable scoring and 5 the worst), sufficiently abstract (1.99_0.88) and formal (2.13_0.77) for its purpose, with a sufficient coverage of the domain (2.26_0.95), useful for describing the domain (2.02_0.7) and for generating more specific systems (2_0.75) and they reported a partial interest in using the model in their job (2.48_0.91). Thanks to their comments, the model was improved and enriched with concepts that were missing at the beginning, nonetheless it was not possible to prove an improvement among the iterations, due to the diversity of the participants in the three rounds. From the model, a development platform for the pHealth domain was generated called pHealth Patient Platform (pHPP). The platform includes a set of libraries, programming and deployment tools, a tutorial and a sample application. The main four modules of the architecture are: the Data Collection Engine, which allows abstracting sources of information like sensors or external services, mapping data to databases and ontologies, and allowing event-based interaction and filtering, the GUI Engine, which abstracts the user interface in a message-like interaction model, the Workow Engine, which allows programming the application's user interaction ows with graphical workows, and the Rule Engine, which gives developers a simple means for programming the application's logic in the form of \if-then" rules. After the 5 years experience of HeartCycle, partially programmed with pHPP, 5 developers were joined in a focus group to discuss the advantages and drawbacks of the platform. The view that emerged from the training course and the focus group was that the platform is well-suited to the needs of the engineers working in the field, it allowed the separation of concerns among the different specialities and it simplified some common development tasks like data management and asynchronous interaction. Nevertheless, some deficiencies were pointed out in terms of a lack of maturity of some technological choices, and for the absence of some domain-specific tools, e.g. for data processing or for health-related communication protocols. Within HeartCycle, the platform was used to develop part of the Guided Exercise system, a composition of ICT tools for the physical rehabilitation of patients who suffered from myocardial infarction. The system developed using the platform was tested in a randomized controlled clinical trial, in which 55 patients used the system for 21 weeks. The technical results of this trial showed that the system was stable and reliable. Some minor bugs were detected, but these were promptly corrected using the platform. This shows that the platform, as well as facilitating the development task, can be successfully used to produce reliable software. Conclusions The research work carried out in developing this thesis provides responses to the three three research questions that were the motivation for the work. RQ1 A model was developed representing the domain of personalised health systems, and the assessment of experts in the field was that it represents the domain accurately, with an appropriate balance between abstraction and detail. RQ2 A development platform based on the model was successfully developed. RQ3 The platform has been shown to assist developers create complex pHealth software. This was demonstrated within the scope of one large-scale project, but the generic approach adopted provides indications that it would offer benefits more widely. The results of these evaluations provide indications that both the model and the platform are good candidates for being a reference for future pHealth developments.

Digital libraries for the preservation of research methods and associated artifacts

New digital artifacts are emerging in data-intensive science. For example, scientific workflows are executable descriptions of scientific procedures that define the sequence of computational steps in an automated data analysis, supporting reproducible research and the sharing and replication of best-practice and know-how through reuse. Workflows are specified at design time and interpreted through their execution in a variety of situations, environments, and domains. Hence it is essential to preserve both their static and dynamic aspects, along with the research context in which they are used. To achieve this, we propose the use of multidimensional digital objects (Research Objects) that aggregate the resources used and/or produced in scientific investigations, including workflow models, provenance of their executions, and links to the relevant associated resources, along with the provision of technological support for their preservation and efficient retrieval and reuse. In this direction, we specified a software architecture for the design and implementation of a Research Object preservation system, and realized this architecture with a set of services and clients, drawing together practices in digital libraries, preservation systems, workflow management, social networking and Semantic Web technologies. In this paper, we describe the backbone system of this realization, a digital library system built on top of dLibra.

On-line MRI sequences for the evaluation of apple internal quality.

On-line dynamic MRI, which is oriented to industrial grading lines, requires high-speed sequences with motion correction artefacts. In this study two different types of motion correction sequences have been used and have been implemented in real-time (FLASH and UFLARE). They are based on T2* and T2 respectively and their selection depends on the expected contrast effect of the disorder: while watercore enhances bright areas due to higher fluid mobility, internal breakdown potentiates low signal due to texture degradation. For watercore study, five different apple cultivars were used (Normanda-18-, Fuji-35-, Helada-36-, Verde Doncella-54-, Esperiega-75-) along two seasons (2011 and 2012). In total 218 fruits were measured under both, static conditions (20 slices per fruit) and under dynamic conditions (3 repetitions without slice selection). For internal breakdown, Braeburn cultivar has been studied (in total 106 fruits) under both static (20 slices per fruit) and dynamic conditions (3 replicates with slice selection). Metrological aspects such as repeatability of dynamic images and subsequent histogram feature stability become of major interest for further industrial application. Segregation ability among varying degrees of disorder is also analyzed.