Development and Assessment of the Competence Creativity Applied to Technical Drawing

The results obtained after incorporating the competence “creativity��� to the subject Technical Drawing of the first course of the Degree in Forestry, Technical University of Madrid, are presented in this study.At first, learning activities which could serve two functions at the same time -developing students’ creativity and developing other specific competences of the subject- were considered. Besides, changes in the assessment procedure were made and a method which analyzes two aspects of the assessment of the competence creativity was established. On the one hand, the products are evaluated by analyzing the outcomes obtained by students in the essays suggested and by establishing a parameter to assess the creativity expressed in those essays. On the other, an assessment of the student is directly carried out through a psychometric test which has been previously chosen by the team.Moreover, these results can be applied to similar or could be of general application

The evolution of the brain, the human nature of cortical circuits and intellectual creativity

The tremendous expansion and the differentiation of the neocortex constitute two major events in the evolution of the mammalian brain. The increase in size and complexity of our brains opened the way to a spectacular development of cognitive and mental skills. This expansion during evolution facilitated the addition of microcircuits with a similar basic structure, which increased the complexity of the human brain and contributed to its uniqueness. However, fundamental differences even exist between distinct mammalian species. Here, we shall discuss the issue of our humanity from a neurobiological and historical perspective.

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.

Understanding the main drivers of value creation in an open innovation program

Innovation has been identified as the single most relevant element in fuelling corporations’ competitive advantage and ultimate value creation. Corporations no longer rely on a single, linear structure of innovation; the new paradigm of open innovation opens up new possibilities of organizing innovation within the ecosystem, thus giving rise to new drivers for value creation. These value drivers have an impact on the strategic position of the firm and have the ability to create superior financial performance. In this paper we explore the close relationship between open innovation and value creation and propose a framework to analyze this process as well as the most critical elements involved.

Assessing Creativity In Engineering Students: A Comparative Between Degrees and Sudents In First And Last Year

An online open access test (CREAX self-assessment) has been used in this work so that students from degrees in engineering in the Universidad Polite¿cnica of Madrid (UPM) could self-assess their creative competence after several classroom activities. Different groups from the first year course have been statistically compared using data from their assessment. These first year students had different professors in the subject ?Technical Drawing? and belonged to several degrees in the UPM. They were as well compared regarding sex and a group of first year students was also compared to another last year group of the degree so as to observe possible differences in the achievement of this competence. Only one difference was detected concerning sex in one of the degrees. Among degrees, the higher marks obtained by students who had done specific exercises for the development of creativity in class is highlighted. Finally, a significantly high mark was observed in students during their last year of degree with respect to first year students. The tool CREAX has become very useful in the assessment of this competence in the UPM degrees in which it has been implemented.

Do Classes in Cooperative Classrooms Have a Positive Influence on Creativity and Teamwork Skills for Engineering Students?

Contributing to the acquisition of professional creativity and teamwork skills has been a special challenge for some of the subjects taught at the Technical University of Madrid (UPM), and this has been a starting point for the work described in this paper. Some professors have intuited that the use of cooperative classrooms could facilitate the acquisition of these skills. We describe the new methodologies applied within cooperative classrooms by some professors, and present the procedure for measuring students’ perception of their own learning outcomes, skill improvements, and overall satisfaction with the use of this kind of classroom. For this project, 250 students enrolled in several subjects answered a questionnaire. The featuresof thesubjectsinvolved intheproject arewidely disparate. We present the results of the statistical analysis with special emphasis on creativity and teamwork skills, and we conclude that the use of cooperative classroom has a positive influence on the acquisition of these skills. This work has the added value of being the first analysis of student perception of the use of cooperative classroom in the acquisition of creativity and teamwork skills.

Arquitectura modal o ensamblaje de repertorios, procesos y disposiciones

En muchas ocasiones se ha establecido una crítica sobre la excesiva disposicionalidad estética del arquitecto: el abuso subjetivista, un innatismo desligado del entorno socioambiental o su desafección hacia las necesidades y los requerimientos pertinentes del usuario final, buscando, principalmente, la objetivación cultural como expresión personal e individualista. Criticas que responden a un malestar persistente, que subyace a la práctica arquitectónica. En otras ocasiones se han ideado y propuesto tentativas o aproximaciones para la corrección y regulación de dicho “exceso”. En busca de la “pretendida objetividad”, éstas han recurrido a un pasado prístino, a una tradición inconsciente, colectiva e impersonal, a la ausencia de autoría, a lo artesanal y a lo vernáculo. También hacia un futuro tecnocrático: al mesianismo basado en la máquina, la ciencia, los métodos y el progreso tecnológico. La búsqueda de un lenguaje compartido, de un diseño sistemático y de una adecuación funcional han establecido nuevos excesos –repertoriales-, relegando la creatividad y la concepción estética a un plano casi inexistente, subordinándolo a variables de diseño externas a la autoría y la expresión subjetiva del diseñador. Esta tensión se ha saldado en una pugna de binomios categoriales que reducen la realidad a un dualismo aporético y contrapuesto, difícilmente superable. El propósito articulatorio de dichas posturas, en modelos ontológicos integrales, permite la incorporación de dichas categorías bajo estructuras y ensamblajes que despliegan los modos de relación, mediación y producción arquitectónicas. Estos ensamblajes combinan los distintos agentes –disposicionalidades- y sus repertorios en cada una de las fases del proceso arquitectónico, construyendo modos de acción y relación en base a los acoplamientos diferenciales, que devienen en técnicas y dinámicas de producción arquitectónica. Cada modo integrará diversas variables en base a los modelos propuestos -estratos, períodos y polos- y a la elección intencional –“situada”- de cada práctica: la Autonomía Modal Arquitectónica. El producto final de cada modo –o ensamblaje- será inconmensurable, estableciendo sistemas y métodos diversos para la práctica estética, sin que por ello esté garantizado el valor o éxito del resultado. ABSTRACT On many occasions an aesthetic criticism of the excessive disposition of the architect´s subjectivist abuse, innate posture detached from socioenvironmental issues or disaffection regarding the needs and requirements of who -or what- will finally use it has been brought up mainly in pursuit of a cultural objectification as a personal expression and an individualistic one. It is a criticism which goes hand in hand with a persistent uneasiness which is interwoven in the architectural practice. On other occasions we have seen ideas, attempts and approaches developed and proposed in order to correct, improve or adjust that so-called “excess”. In the search for this " expected objectivity" theorists have resorted to delving into a pristine past, an unconscious tradition both collective and personal, to the absence of authorship, regarding craft and vernacular. The pursuit of a common language, a systematic design and a functional adequacy has established new excesses -repertoires-, leaving behind creativity and aesthetic conception at an almost nonexistent level and subordinating it to variables outside the authoring design and subjective expression of the designer. This tension has resulted in a conflict between categorical binomial, which reduces reality to an aporetic and opposed dualism which is not easily overcome. The purpose of such articulatory positions in comprehensive ontological modals allows for the incorporation of those categories under structures and assemblies which display and unfold different models of relationship, mediation and production of architecture. These assemblies combine different agents - disposition - and their repertoires in each of the phases of the architectural process, building actions and relational modes based on the differential couplings, which become techniques and dynamics in architectural production. Each mode will integrate several variables within the proposed ontological models - strata, periods and poles - based on an intentional choice –“situated knowledge”- of each practice: Architectural Modal Autonomy. The final product of each mode -or assembly- will be immeasurable, establishing different systems and methods for aesthetic practice without the value or success of the outcome ever being guaranteed.

Trans arquitectura : imaginación, invención e individuación del objeto técnico arquitectónico : transferencia tecnológica desde la industria del transporte al proyecto arquitectónico (1900-1973)

Se presenta la tesis doctoral, titulada ‘TRANS Arquitectura. Imaginación, Invención e individuación del objeto tecnico arquitectónico. Transferencia tecnológica desde la Industria del Transporte al Proyecto de Arquitectura [1900-1973]'’, que aborda la relación entre la Arquitectura y el Objeto Técnico durante la Modernidad.1 La temática de la tesis gravita en torno a la cultura técnica, la cultura material y la historia de la Tecnología del siglo XX. Hipótesis Se sostiene aquí la existencia de unas arquitecturas que se definen como Objetos Técnicos. Para demostrarlo se estudia si éstas comparten las mismas propiedades ontológicas de los objetos técnicos. Industria y Arquitectura La historia de la Arquitectura Moderna es la historia de la Industria Moderna y sus instalaciones industriales, sus productos y artefactos o sus procedimientos y procesos productivos. Fábricas, talleres, acerías, astilleros, minas, refinerías, laboratorios, automóviles, veleros, aviones, dirigibles, transbordadores, estaciones espaciales, electrodomésticos, ordenadores personales, teléfonos móviles, motores, baterías, turbinas, aparejos, cascos, chassis, carrocerías, fuselajes, composites, materiales sintéticos, la cadena de montaje, la fabricación modular, la cadena de suministros, la ingeniería de procesos, la obsolescencia programada… Todos estos objetos técnicos evolucionan constantemente gracias al inconformismo de la imaginación humana, y como intermediarios que son, cambian nuestra manera de relacionarnos con el mundo. La Arquitectura, al igual que otros objetos técnicos, media entre el hombre y el mundo. Con el objetivo de reducir el ámbito tan vasto de la investigación, éste se ha filtrado a partir de varios parámetros y cualidades de la Industria, estableciendo un marco temporal, vinculado con un determinado modo de hacer, basado en la ciencia. El inicio del desarrollo industrial basado en el conocimiento científico se da desde la Segunda Revolución Industrial, por consenso en el último tercio del siglo XIX. Este marco centra el foco de la tesis en el proceso de industrialización experimentado por la Arquitectura desde entonces, y durante aproximadamente un siglo, recorriendo la Modernidad durante los 75 primeros años del siglo XX. Durante este tiempo, los arquitectos han realizado transferencias de imágenes, técnicas, procesos y materiales desde la Industria, que ha servido como fuente de conocimiento para la Arquitectura, y ha evolucionado como disciplina. Para poder abordar más razonablemente un periodo tan amplio, se ha elegido el sector industrial del transporte, que históricamente ha sido, no sólo fuente de inspiración para los Arquitectos, sino también fuente de transferencia tecnológica para la Arquitectura. Conjuntos técnicos como los astilleros, fábricas de automóviles o hangares de aviones, individuos técnicos como barcos, coches o aviones, y elementos técnicos como las estructuras que les dan forma y soporte, son todos ellos objetos técnicos que comparten propiedades con las arquitecturas que aquí se presentan. La puesta en marcha de la cadena móvil de montaje en 1913, se toma instrumentalmente como primer foco temporal desde el que relatar la evolución de numerosos objetos técnicos en la Primera Era de la Máquina; un segundo foco se sitúa en 19582, año de la creación de la Agencia Espacial norteamericana (NASA), que sirve de referencia para situar la Segunda Era de la Máquina. La mayoría de los objetos técnicos arquitectónicos utilizados para probar la hipótesis planteada, gravitan en torno a estas fechas, con un rango de más menos 25 años, con una clara intención de sincronizar el tiempo de la acción y el tiempo del pensamiento. Arquitectura y objeto técnico Los objetos técnicos han estado siempre relacionados con la Arquitectura. En el pasado, el mismo técnico que proyectaba y supervisaba una estructura, se ocupaba de inventar los ingenios y máquinas para llevarlas a cabo. Los maestros de obra, eran verdaderos ‘agentes de transferencia tecnológica’ de la Industria y su conocimiento relacionaba técnicas de fabricación de diferentes objetos técnicos. Brunelleschi inventó varia grúas para construir la cúpula de Santa Maria dei Fiori (ca.1461), seguramente inspirado por la reedición del tratado de Vitruvio, De Architectura (15 A.C.), cuyo último capítulo estaba dedicado a las máquinas de la arquitectura clásica romana, y citaba a inventores como Archimedes. El arquitecto florentino fue el primero en patentar un invento en 1421: una embarcación anfibia que serviría para transportar mármol de Carrara por el río Arno, para su obra en Florencia. J. Paxton. Crystal Palace. London 1851. Viga-columna. Robert McCormick. Cosechadora 1831. 2ª patente, 1845. La Segunda Revolución Industrial nos dejó un primitivo ejemplo moderno de la relación entre la Arquitectura y el objeto técnico. El mayor edificio industrializado hasta la fecha, el Crystal Palace de Londres, obra de Joseph Paxton, fue montado en Londres con motivo de la Gran Exposición sobre la Industria Mundial de 1851, y siempre estará asociado a la cosechadora McCormick, merecedora del Gran Premio del Jurado. De ambos objetos técnicos, podrían destacarse características similares, como su origen industrial, y ser el complejo resultado de un ensamblaje simple de elementos técnicos. Desde la entonces, el desarrollo tecnológico ha experimentado una aceleración continuada, dando lugar a una creciente especialización y separación del conocimiento sobre las técnicas antes naturalmente unidas. Este proceso se ha dado a expensas del conocimiento integrador y en detrimento de la promiscuidad entre la Industria y la Arquitectura. Este es, sin lugar a dudas, un signo consustancial a nuestro tiempo, que provoca un natural interés de los arquitectos y otros tecnólogos, por las transferencias, trans e inter-disciplinareidades que tratan de re-establecer los canales de relación entre los diferentes campos del conocimiento. La emergencia de objetos técnicos como los vehículos modernos a principios del siglo XX (el automóvil, el trasatlántico, el dirigible o el aeroplano) está relacionada directamente con la Arquitectura de la Primera Era de la Máquina. La fascinación de los arquitectos modernos por aquellas nuevas estructuras habitables, se ha mantenido durante más de un siglo, con diferente intensidad y prestando atención a unos objetos técnicos u otros, oscilando entre el dominio del valor simbólico de los vehículos como objetosimágenes, durante el periodo heroico de la Primera Era de la Máquina, y la mirada más inquisitiva durante la Segunda, que perseguía un conocimiento más profundo de la organización de los mismos y del sistema técnico en el que estaban incluidos. La relación homóloga que existe entre arquitecturas y vehículos, por su condición de estructuras habitables, es algo de sobra conocido desde que Le Corbusier utilizara aquellas imágenes de barcos, coches y aviones para ilustrar su manifiesto Vers une architecture, de 1923. Los vehículos modernos han sido los medios con los que transmitir los conceptos que ansiaban transformar las propiedades tradicionales de la Arquitectura, relativas a su factura, su habitabilidad, su duración, su funcionalidad o su estética. Destaca particularmente el caso del automóvil en las décadas de los años 30 y 50, y los vehículos del programa espacial en las décadas de los 60 y 70. El conocimiento y la documentación previa de estos hechos, fueron un buen indicio para identificar y confirmar que el sector industrial del transporte, era un especialmente trascendente y fértil proveedor de casos de transferencia tecnológica para la Arquitectura. La tradición Moderna inaugurada por Le Corbusier en los años 20, ha sido mantenida y defendida por una multitud de arquitectos modernos como Albert Frey, Richard Neutra, Ralph Soriano, Charles Eames o Craig Ellwood, cuyo trabajo, animado por el legado de anteriores tecnólogos como Bucky Fuller o Jean Prouvé, fue fundamental y referencia obligada para la siguiente generación de arquitectos como Cedric Price, Archigram, Norman Foster, Richard Rogers, Renzo Piano, Jean Kaplicky o Richard Horden, entre otros. Todos ellos han contribuido a engrosar el imaginario del objeto técnico, aportando sus obras arquitectónicas. Estos arquitectos que aparecen repetidamente en el discurrir de la tesis, pertenecen a un mismo linaje, y son agrupados según una estructura ‘genealógica’, que se ha denominado ‘Estirpe Técnica’. Unidos por intereses comunes y similares enfoques o actitudes ante el proyecto de arquitectura, entendida como objeto Técnico, han operado mediante la práctica de la transferencia tecnológica, sin limitarse a las técnicas compositivas propias de la disciplina arquitectónica. Durante la investigación, se ha recopilado una selección de menciones explícitas -hechas por arquitectos- sobre otros objetos técnicos para referirse a la Arquitectura, mostrando las constantes y las variaciones de sus intereses a lo largo del siglo, lo que nos ha llevado a conclusiones como por ejemplo, que los conjuntos técnicos (fábricas de zepelines, aviones, automóviles o trasatlánticos) eran tomados por los arquitectos de la primera Modernidad, como un modelo imaginario, formal y compositivo, mientras que los de la Segunda Era de la Máquina los tomaban como modelo espacial y organizativo para la arquitectura. La mencionada estirpe de tecnólogos incluye líneas de descendencia conocidas, como: EiffelSuchovBehrens GropiusMiesLeCorbusierLodsProuve, en la Europa continental, o una rama británica como: LoudonPaxtonWilliamsStirlingGowan SmithsonsPriceArchigramFosterRogersPiano KaplickyHorden. También podemos encontrar conexiones intercontinentales como Fuller EamesRudolphFosterRogers, o ramificaciones menos previsibles como: LeRicolaisKahn PianoKaplicky, o LeCorbusierFreyLacaton Vassal… Seguramente muchos más merecerían incluirse en esta lista, y de hecho, la tesis asume la imposibilidad de incluirlo todo (por motivos prácticos) aunque contempla la posibilidad de ser ampliada en un futuro. Con lo aquí incluido, se pretende mostrar la continuidad en los enfoques, planteamientos y técnicas de proyectos aplicadas, de los que podemos deducir algunas conclusiones, como por ejemplo, que en los periodos inmediatamente posteriores a las dos Guerras Mundiales, aumentó la intensidad de aportaciones de nuevas imágenes de vehículos, al imaginario del objeto técnico utilizado por los arquitectos, a través de publicaciones y exposiciones. Hoy, cien años después de que Ford pusiera en marcha la cadena móvil de montaje, aún encontramos viva esta tradición en las palabras de un arquitecto, Richard Horden, cuyo trabajo porta consigo –como la información embebida en los elementos técnicos- toda una cultura técnica de una tradición moderna. Horden representa uno de los exponentes de la que he denominado estirpe de tecnólogos. Es por ello que he querido concluir la tesis con una entrevista, realizada en Mayo de 2015, en su estudio de Berkeley Square en Londres (ver Apéndices). Guías Para el desarrollo de la presente tesis, se ha tomado, como principal obra de referencia, otra tesis, titulada El modo de existencia de los objetos técnicos, leída y publicada en 1958 por el filósofo francés Gilbert Simondon [1924-89], dedicada a la ontología del objeto técnico. Esta obra enmarca el enfoque intelectual de la tesis, que entronca con la fenomenología, para movilizar una visión particular de la Arquitectura, a la que sirve como modelo de análisis ontológico para estudiar sus procesos de génesis, invención e individuación. Para el desarrollo de éstos, se ha utilizado como complemento bibliográfico, otra obra del mismo autor, titulada Imaginación e invención 1965-66. En cuanto a las fuentes historiográficas disciplinares, se ha elegido utilizar a Reyner P. Banham [1922-1988] y a Martin E. Pawley [1938-2008] como guías a través de la arquitectura del siglo XX. Sus crónicas sobre la Primera y Segunda Era de la Máquina3 y su obra crítica, han servido como índices desde los que reconstruir el imaginario del objeto técnico moderno, y del que aprovisionarse de proyectos y obras de Arquitectura como casos de estudio para la tesis. Estas obras han servido además como índices de otra bibliografía, que ha sido complementaria a la de éstos. Objetivos de la Tesis El principal objetivo de la tesis es demostrar la hipótesis: si una obra de arquitectura puede ser considerada un objeto técnico y bajo qué condiciones, construyendo un criterio que permita reconocer cuándo una obra de Arquitectura responde a la definición de objeto técnico. Otro objetivo es demostrar la importancia y potencia de la Transferencia tecnológica en el proceso evolutivo de la Arquitectura, y para ello se presentan ejemplos de una metodología de proyecto por ensamblaje, que Martin Pawley denominaba ‘Design by Assembly’. También es un objetivo el de reconstruir un Atlas del Imaginario del objeto técnico moderno, con el fin de conocer mejor las causas, razones y finalidades que llevaron a los arquitectos modernos a perseguir una arquitectura como objeto técnico. Este Atlas permite relacionar panópticamente los distintos objetos técnicos entre sí, revelando la verdadera importancia y trascendencia de aquéllos y las arquitecturas con las que se relacionan. En él, las arquitecturas vuelven a situarse en el contexto más extenso y complejo de la industria y la historia de la tecnología, al que siempre pertenecieron. De este modo, éstas son capaces de desvelar todo el conocimiento -en forma de información- que portan en su propio código ‘genético’, desplegando capítulos completos de cultura tecnológica, tan antigua como la Humanidad y en constante y creciente evolución. Estructura de la tesis Tras una Introducción en la que se presentan algunos de los conceptos principales que se instrumentalizan en la tesis sobre la ontología Simondoniana del objeto técnico y sobre la transferencia tecnológica aplicada al proyecto de Arquitectura, el texto principal de la tesis consta de tres partes: La primera se dedica a la Imaginación, una segunda parte a la Invención y una tercera a Individuación o evolución del objeto técnico. Se termina con una Discusión de la tesis y un apartado de Conclusiones. En la Introducción al objeto técnico, éste se define ontológicamente y se distinguen sus diferentes categorías (conjuntos técnicos, individuos técnicos y elementos técnicos). Se explica el proceso de génesis del objeto técnico y sus fases de imaginación, invención e individuación. También se presentan los conceptos de transducción, tecnicidad y sistema técnico, fundamentales para entender el concepto de transferencia tecnológica que se desarrollará después. La concretización, explica el modo particular de individuación y evolución de los objetos técnicos, un proceso por el que las diferentes partes de un objeto técnico, se integran y tienden hacia la propia convergencia. Aquí se comprueba la efectividad del concepto simondoniano de Transducción, como señal o información transmitida y transformada, y se relaciona con la Transferencia Tecnológica - un proceso sinergético, por el que un sector industrial se beneficia del desarrollo de otro sector- a la que se han referido explícitamente arquitectos e historiadores para explicar sus obras, durante la Segunda Era de la Máquina, y que es determinante para el desarrollo de la Industria. La transferencia tecnológica sería la transmisión del conjunto de conocimientos sobre la técnica, que incluyen su esfera fáctica, pero también la esfera sensible de la experiencia. En su aplicación a la arquitectura, las transferencias se han clasificado según tres tipos: Eidéticas, Tectónicas, Orgánicas. En la primera parte dedicada a la Imaginación del objeto técnico arquitectónico se realiza una reconstrucción ‘arqueológica’ –y parcial- del imaginario del objeto técnico moderno, con la intención de conocer mejor su génesis y la relación con otros objetos técnicos. Las fuentes de ese imaginario se buscan en las instalaciones de la Industria de principios de siglo XX, en particular en las fábricas de vehículos, con la finalidad de comprobar hasta qué punto, esos objetos técnicos fueron importantes para imaginar la Arquitectura moderna. La reconstrucción se continúa hasta la Segunda Era de la Máquina, cuando una nueva mirada más inquisitiva y precisa, se dirige a otras fábricas, vehículos y componentes, interesándose por sus cualidades materiales y organizativas. Transferencias Eidéticas, que operan desde un conocimiento intuitivo y son útiles para transmitir información sobre la esencia de un objeto técnico que sirve de fuente. Conceptos abstractos se transmiten por medio de las imágenes—objeto, para producir una transformación en su equivalente arquitectónico. Fruto de la investigación, se han detectado un grupo de conceptos que han sido objeto de transferencias tecnológicas de naturaleza eidética, provenientes del imaginario del objeto técnico moderno: FABRICADO, HABITABLE, FUNCIONAL, EFICIENTE, OBSOLESCENTE y BELLO. En la segunda parte dedicada a la Invención del objeto técnico arquitectónico, las transferencias también pueden ser Tectónicas, cuando lo que se transmite es una técnica constructiva o estructural aplicada mediante MATERIALES artificiales (como los metales, los composites como el ferrocemento, y el plywood, o las aleaciones como el aluminio) o mediante el ensamblaje de ESTRUCTURAS o partes componentes de otro objeto técnico, (como cascos, fuselajes, carrocerías o aparejos) y tiene como resultado la invención de un nuevo objeto técnico arquitectónico. En la tercera parte dedicada a la individuación, se abordan las transferencias ORGÁNICAS, lo que se transfiere es una técnica organizativa, aplicada a través de PROCEDIMIENTOS que definen la actividad del arquitecto como tecnólogo e inventor de objetos técnicos. Estos procedimientos tienen un efecto transformador en tres instituciones tradicionales para la Arquitectura: la Escuela, el Estudio y la Obra, y sus resultados se resumen en nuevos modelos de organización de la Educación de la Arquitectura, con la aparición de los Talleres de proyectos; nuevos modelos de organización del ejercicio de arquitecto: la Oficina técnica; nuevos modelos de organización del espacio, basados en la organización espacial de la Industria, que da lugar a patrones o Matrices espaciales; un nuevo modelo de organización del proyecto, que utiliza las herramientas gráficas de la industria y el ensamblaje como metodología; y un nuevo modelo de producción arquitectónica, basado en la Industrialización. Tras explicar los conceptos y la génesis del ensamblaje y el montaje, se presenta el proyecto por ensamblaje (Design by assembly) como un método que promueve la invención arquitectónica. Se demuestra utilizando algunos casos analizados en la tesis, en los que se ha realizado alguna transferencia conceptual, constructiva u organizativa. Tras analizar las arquitecturas estudiadas en la tesis, se ha utilizado el método genético propuesto por Simondon para comprender cada evolución particular, reconstruyendo las líneas genealógicas hasta sus ancestros, e identificando una serie de linajes genéticos, que corresponderían con los conjuntos técnicos estudiados en la tesis: el astillero, la fábrica de coches, y la fábrica de aeronaves: los Ancestros de la Modernidad. Los sistemas de organización espacial de estos conjuntos técnicos, están directamente relacionados con el objeto técnico que se produce en él. A partir de ellos se definen una serie de matrices operativas (MILL, SHOP, SHED), que sirven para hacer una taxonomía del objeto técnico arquitectónico. Esto se ejemplifica con algunos proyectos de Norman Foster, Richard Rogers, Renzo Piano, Nicholas Grimshaw, Jean Kaplicky y Richard Horden. Tesis: Comprobación de la hipótesis Simondon definía ontológicamente el Objeto técnico como aquello de lo que existe génesis y que desarrolla una tendencia hacia la solidaridad y unidad. Para que una Arquitectura pueda ser reconocida como un Objeto técnico, se deben dar una serie de condiciones, en las sucesivas fases que intervienen en su modo de existencia: Imaginación. Estas arquitecturas remiten a un imaginario protagonizado por imágenes-objeto de otros objetos técnicos (conjuntos técnicos, individuos técnicos y elementos técnicos). Esas imágenes-objeto vehiculizan una transferencia eidética de los objetos técnicos que simbolizan. Invención. Estas arquitecturas son el resultado de transferencias tectónicas, que se producen durante el proceso de proyecto, mediante el ensamblaje de materiales, componentes o procedimientos, utilizados en la industria para la producción de otros objetos técnicos. Individuación. Estas arquitecturas evolucionan y se individualizan por concretización, un proceso por el que los objetos técnicos se organizan para seguir su tendencia hacia la integración de sus partes, con el fin de alcanzar la convergencia de funciones en una única estructura. Esta integración tiende hacia la naturalización del objeto técnico, mediante la inclusión simbiótica de sus medios naturales asociados. En este caso, veremos cómo se ha producido transferencias orgánicas, o lo que es lo mismo, cómo los objetos técnicos –en el nivel de los conjuntos técnicos- se han tomado como modelo de organización por la arquitectura. Tras comprobar que de ellas existe una génesis, que evoluciona por las fases de imaginación e invención y concretización, se analiza su imaginario, su materialidad, sus estructuras y su organización, con el fin de detectar patrones y principios organizativos comunes a otros objetos técnicos. Interés de la tesis Desde el comienzo del nuevo siglo, diversos autores han demostrado un renovado interés por definir qué es el proyecto, qué lo constituye para qué sirve. Las aproximaciones al tema provienen de la filosofía analítica (Galle, 2008) o de la filosofía de la tecnología (Verbeek, 2005; Vermaas, 2009) y a menudo versan sobre la relación entre diseño y la cultura material (Dorschel 2003, Boradkar 2010 o Preston 2012). Es importante indicar el reciente y también creciente interés suscitado por la obra del filósofo francés, Gilbert Simondon [1924-1989], reconocida por su importante contribución a la filosofía de la técnica y la fenomenología, y por la influencia en el pensamiento de filósofos como Gilles Deleuze, autor presente en multitud de tesis doctorales e investigaciones teóricas llevadas a cabo en las principales escuelas de Arquitectura de todo el mundo desde los años 90 hasta el presente. La reedición y traducción de la obra de Simondon (ing. 1980, esp. 2008) ha recibido la atención de filósofos actuales como Paolo Virno, Bruno Latour o Bernard Stiegler, que siguen recurriendo a su estudio y análisis para avanzar en su pensamiento, estando por tanto presente en el debate contemporáneo sobre la técnica. Tras su reciente traducción al español, el pensamiento de Simondon ha despertado un gran interés en América Latina, como demuestra la organización de varios congresos y simposios, así como la proliferación de publicaciones en torno a su obra y pensamiento. Las futuras traducciones del resto de sus principales obras, asegurarán una introducción cada vez mayor en la comunidad académica. Se ha procurado presentar una mirada alternativa de la Historia de la Arquitectura Moderna, utilizando como guía a un cronista como Reyner Banham. La Era de la Máquina se ha cruzado con la Mecanología y el “vitalismo técnico” de Simondon, obteniendo como resultado una interpretación fresca, renovada y optimista de algunas de las más importantes obras de Arquitectura del siglo XX, que seguro contribuirán al desarrollo de la del siglo XXI, inmerso ya en el cambio de paradigma hacia la sostenibilidad y la ecología. ABSTRACT 'TRANS architecture. Imagination, invention and technical individuation of the architectural technical object. Technology transfer from the Transport Industry to Architectural Design [1900- 1973]' is a thesis dealing with the relationship between Architecture and the Technical Object during Modernity5. The theme of the thesis revolves around the technical culture, material culture and the history of twentieth-century technology. Hypothesis Held here is the existence of some architectures defined as technical objects. A study has been developed to prove if those architectures share the ontological properties of a technical object. Industry and Architecture The history of Modern Architecture is also the history of modern industry and its facilities, its products and devices, its procedures and production processes. Factories, workshops, steel mills, shipyards, mines, refineries, laboratories, cars, yachts, airplanes, airships, shuttles, space stations, home appliances, personal computers, mobile phones, motors, batteries, turbines, rigs, hulls, chassis, bodies, fuselages , composites and synthetic materials, the assembly line, modular manufacturing, the supply chain, process engineering, the planned obsolescence ... All these technical objects are constantly evolving thanks to the inconsistency of the human imagination and, as our intermediates, keep changing our way of relating and being in the world. Architecture, alike other technical objects, mediates between man and the World. In order to frame the vast field of the research, it has been filtered according to various parameters and qualities of Industry, establishing also a time frame which is related to a particular science-based way of making. The start of an industrial development, based on scientific knowledge is given from the Second Industrial Revolution -by consensus on the last third of the nineteenth century. This frame puts the focus of the thesis in the process of industrialization experienced by the Architecture of at least one century, and tours through Modernity during the first 75 years of the twenieth century. During this time, architects have made transfers of images, techniques, processes and materials from Industry, serving as a source of knowledge and thus allowing Architecture to evolve as a discipline. To reasonably address the enormous scope of the thesis, the industrial sector of transportation has ben chosen. It is not only a historical source of inspiration for architects, but also a traditional source of technology transfer for Modern Architecture. Technical sets such as shipyards, automobile factories or aircraft hangars, technical individuals as boats, cars or planes, and technical elements like the structures shaping and supporting them, are all technical objects which share properties with the architectures here presented. The launch of the moving assembly line in 1913, is instrumentally taken as a first time focus, from which to describe the evolution of many technical objects in the First Machine Age; a second focus could be found in 19586, year of the creation of the North American Space Agency (NASA), serving as a reference to the Second Machine Age. Most architectural technical objects used to test the hypothesis, gravitate around this second focus, in a range of plus or minus 25 years, with a clear intention to synchronize the time for action and time of thought. Architecture and Technical Object Technical objects have always been related to Architecture. In the past, the same technician who planned and oversaw a building structure, invented the devices and machines to carry them out. The foremen were the true 'technology transfer agents' from Industry. Their knowledge naturally related different manufacturing techniques to make diverse technical objects. Brunelleschi invented various cranes to build the dome of Santa Maria dei Fiori in Florence (ca.1461). Probably inspired by the reedition of Vitruvius’ treaty De Architectura (15 BC), whose last chapter was dedicated to the machines of classical Roman architecture and quoted inventors as Archimedes, the florentine architect was the first to patent an invention in 1421: an amphibious craft serving as a means of transportation for Carrara marble along the Arno river. At the daw of the Second Industrial Revolution, whose development was based on the scientific knowledge, we find a primitive modern example of the relationship between Architecture and a Technical Object: The Crystal Palace, built in London for the Great Exhibition of 1851 World Industry and designed by Joseph Paxton, was the largest to date industrialized building, and it will be always associated with the McCormick Reaper, worthy of the Grand Jury’s Prize. Similar characteristics could be emphasized of both technical objects, such as their industrial origin and for being be the complex result of a simple assembly of technical elements. Since then, technological development has experienced a continued acceleration, resulting in an increasing specialization and separation of knowledge about techniques which were naturally attached in the past. This process has happened at the expense of an integrative knowledge and against promiscuity between Industry and Architecture. This is, undoubtedly, an inherent sign of our time, which causes the natural and interest of architects and other technicians about transfers, trans-disciplinarity and inter-disciplinarity, as a reaction to reestablish channels of relationships between these different fields of knowledge. The emergence of technical objects as modern vehicles in the early twentieth century (the car, the Ocean liner, the airship or the airplane) is directly related to the Architecture of the First Machine Age. Modern architects’ fascination for those new ‘inhabitable’ structures has been maintained for over a century, with different intensity and paying attention to one and other technical objets, ranging from the domain of the symbolic value of the vehicles as objectsimages, during heroic period of the First Machine Age, to the more inquisitive glance characterizing the Second Machine Age, which sought a deeper understanding of the organization of such objects and the technical system to which they belonged. The periods immediately following both World Wars, showed a concentrated effort to bring new images of vehicles to the imaginary of architects, by means of publications and exhibitions. The homologous relationship between architectures and vehicles, in their capacity as living structures, is something well known since Le Corbusier used the images of cars, boats and airplanes to illustrate his manifesto, Towards an architecture in 1923. Modern vehicles have been the means by which to convey the concepts eager to transform the traditional attributes of Architecture: those relating to its manufacture, habitability, duration, functionality or aesthetics. The automobile stands out during the 30s and 50s, and the new vehicles of the Space Program satnd in the 60s and 70s. The prior knowledge and documentation of these events were a good indication to identify the industrial sector of Transportation as one of especial importance and as a fertile provider of technology transfer cases for Architecture. The Modern tradition, inaugurated by Le Corbusier in the 20s, has been maintained and defended by a host of modern architects like Albert Frey, Richard Neutra, Ralph Soriano, Charles Eames and Craig Ellwood, whose work - inspired by the legacy of previous technologists as Bucky Fuller or Jean Prouvé- was fundamental and a mandatory reference for the next generation of architects like Cedric Price, Archigram, Norman Foster, Richard Rogers, Renzo Piano, Jean and Richard Horden Kaplicky, among others. They have all contributed to increase the imaginary of the technical object, adding to it their architectural works. In the passage of the thesis, we repeatedly find a number of architects, who have been grouped according to a 'genealogical' structure, which has been called 'Technical Lineage'. Gathered by common interests and similar views or attitudes to the architectural design, understood as a technical object, they have operated through the practice of technology transfer, without limiting itself to specific compositional techniques of the architectural discipline. During the investigation, a selection of explicit references made by those architects, about other technical objects referring to their Architecture, has been compiled, showing constants and variations in their interests throughout the century, which has led to conclusions such as, having technicians sets (zeppelins factories, airships factories, car factories and shipyards) been taken by the architects of the first Modernity, as their main formal, compositional and imaginary models, while the Second Machine Age had taken them as a spatial and organizational model for their architecture. The above mentioned lineage of technologists includes weel-known ‘seed lines’ as: Eiffel- Suchov-Behrens, Gropius-Mies-LeCorbusier- Lods-Prouve, in continental Europe; British branches as Loudon-Paxton-Williams-Stirling- Gowan-Smithsons-Price-Archigram-Foster- Rogers-Piano-Kaplicky-Horden. And we could also find intercontinental connections as Fuller- Eames-Rudolph-Foster-Rogers, or other less predictable ramifications as LeRicolais-Kahn Piano-Kaplicky, or LeCorbusier-Frey-Lacaton & Vassal... Many more would surely deserve to be included in this list, and indeed, the thesis assumes the impossibility of including them all (for practical reasons) and even contemplates possible future extensions. The material included herein is to demonstrate the continuity in the approaches, statements and in the applied architectural design techniques, from which we can draw some conclusions. Today, one hundred years after Ford put up the moving assembly line, we still find this tradition alive in the words of the architect Richard Horden, whose work carries with it –as with the information embedded in every technical element- the whole techncial culture of a modern tradition. Horden is represented here as one of the exponents of what I have called the lineage of technologists. That is why I wanted to conclude the thesis with an interview to Richard Horden, held in May 2015 in his studio in London's Berkeley Square (see Appendices). Guides For the development of this thesis, another thesis, entitled: The mode of existence of technical objects, is taken as the main reference work. Read and published in 1958 by the French philosopher Gilbert Simondon [1924- 1989], it was dedicated to the ontology of the technical object. This work frames the intellectual approach of the thesis, which connects with phenomenology to mobilize a particular vision of Architecture. It is used as a model of ontological analysis to study its genesis, invention and evolutionary processes. To develop these, another work by the same author, titled Imagination and Invention (1965- 1966) has been used as a bibliographical complement. As for the disciplinary historical sources, Reyner P. Banham [1922-1988] and Martin E. Pawley [1938-2008] have been chosen as guides through the modern Architecture of the twentieth century. Their cronical reports on the First and Second Machine Age and their critical works have served as an index from which to reconstruct the imaginary of the modern technical object in the Machine Age7, and to stock up on projects and works of architecture, used as case studies for the thesis. These works have also been used as triggers for other literatures, which has been complementary to the former. Objectives of the Thesis The main objective of the thesis is to prove its hypothesis: if a work of architecture can be considered a technical object and under what conditions, building then a criterion for recognizing when a work of architecture meets the definition of a technical object. Another aim is to demonstrate the importance and power of Technology Transfer in the evolutionary process of Architecture, and to do it, some examples of a methodology for architectural design that Martin Pawley called 'Design by Assembly' are presented. It is also an objective to reconstruct an Atlas of the imaginary of the modern technical object, in order to better understand the causes, reasons and purposes that led modern architects to pursue architecture as a technical object. This Atlas allows to panoptically relate the various technical objects, revealing the true importance and significance of those and the architecture with whom they interact. Architectures are again at the largest and most complex industrial context and the history of technology, which always belonged. Thus, they are able to reveal all the knowledge-in the shape of information-carried in their own 'genetic' code, displaying full chapters of technological culture as old as mankind and constantly growing and evolving. Thesis: Proving the Hypothesis Simondon ontologically defined the technical object as ‘that of which genesis exists’ and that develops ‘a tendency towards solidarity and unity’. For an architecture to be recognized as a technical object, a number of conditions should be given, in the successive phases involved in their mode of existence: Imagination. These architectures refer to an imaginary featuring images-object other technical objects (technical sets, technical individuals and technical elements). These images are the means to an eidetic transfer of the technical objects which they symbolize. Invention. These architectures are the result of tectonic transfers, which occur during the architectural design process, by assembling materials, components or procedures used in industry for the production of other technical objects. Individuation. These architectures evolve and are individualized by ‘concretization’, a process leading to the full integration of its parts and aiming the full convergence of its functions into a single structure. This integration tends towards the naturalization of the technical object, by means of a symbiotic incorporation of their associated milieus. After checking if there is a genesis of them, which evolves through the phases of imagination and invention and concretization, their imaginary, materiality, structure and organization are analyzed in order to detect patterns and common organizational principles to other technical objects counterparts. Structure The main text of the thesis consists of three parts. Before there is an Introduction to the main concepts that are exploited in the thesis on ontology Simondonian technical object, and technology transfer applied to Architecture. Then a first part covers the Imaginary of the modern technical object, a second part is dedicated to the Invention and a third part to the individuation process The thesis ends with a section for the Discussion and the Conclusions. The Introduction to the technical object, this is ontologically defined and its different categories are distinguished. The process of genesis of the technical object and the phases of imagination, invention and indivuation are explained. Concepts as Transduction, Technicality and Technical system are presented for being fundamental to understand the concept of Technology Transfer that will take place later. The concretization is explained as the particular mode of individuation and evolution of technical objects, a process by which the different parts of a technical object, are integrated and begin a tendency towards a convergence in itself. The first part, dedicated to the Imagination of the architectural technical object presents a parcial "archaeological" reconstruction the imaginary of the modern technical object, intended to better understand its genesis and the relationship with other technical objects. The imaginary sources are searched in the premises of the Industry of the early twentieth century, and particularly in the factories of modern vehicles, in order to see, to what extent these technical objects were important to imagine modern architecture. The reconstruction is continued until the Second Machine Age, when a new, more inquisitive and precise gaze turns to other factories, other vehicles and other components and materials, inquiring now about their organizational qualities. The second part is devoted to the Invention of the architectural technical object. The effectiveness of the simondonian concept of Transduction is checked: a transmitted and transformed sign or information, which relates to Technology Transfer, a synergetic process by which an industrial sector benefits from the development of another sector, to which some architects and historians have explicitly referred to explain their works during Machine Age, and which is crucial for the development of the industry. Technology transfer would be the transmission of a set of information or knowledge about technique, including the factual sphere of technique, but also the sensitive sphere of experience. In their application to Architecture, these transfers have been classified according to three types: Eidetic, Tectonic and Organic. Eidetic Transfers operate from an intuitive knowledge and are useful for transmitting information about the essence of the technical object serving as a source. Abstract concepts are transmitted through the object-images to produce an equivalent transformation in Architecture. A group of concepts that have been the subject of technology transfers of eidetic nature, and have been originated in the imaginary of the modern technical object, have been detected as a result of the research: FABRICATED, INHABITABLE, FUNCTIONAL, EFFICIENT, OBSOLESCENT, and BEAUTIFUL. The transfers can also be Tectonic when, that which is transferred is a constructive or structural technique, applied through artificial MATERIALS such as metals, composites as the ferrocement, or plywood, or alloys such as aluminum; or by means of the assembly of STRUCTURES or parts of other technical objects such as hulls, fuselages, car bodies or rigs, resulting in the invention of a new architectural technical object. In the case of ORGANIC transfers, what is transferred is an organizational technique, applied by means of a set of PROCEDURES defining the activity of the architect as a technologist and inventor of technical objects. These procedures have a transformative effect on three traditional institutions for Architecture: the School, the Atelier and the Work, and the results are summarized in new models of organization of the Education of Architecture, with the onset of the Architectural Design Studios or workshops; new models of organization of the practice of architect: the technical office; and new models of space organization, based on the spatial organization of the industry, resulting in spatial patterns or spatial matrices; a new model of organization of the project, which uses graphical tools and industrail protocols as the assembly as a methodology; a new model of architectural production based on the industrialization. After explaining the concepts and the genesis of assembly and montage, Design by assembly is presented as a method that promotes architectural invention, and is shown using some case studies analyzed in the thesis, in which there has been made some conceptual, constructive or organizational transfer. After analyzing the architectures studied in the thesis, genetic method proposed by Simondon was used to understand every particular evolution, reconstructing their genealogical lines up to their ancestors, identifying a series of genetic lineages, which correspond to the technical sets studied in the thesis : the shipyard, the car factory, and aircraft factory. The real ancestors of Modernity. The spatial organization systems of these technical sets are directly related to the technical object that is fabricated within them. From that point, a number of operational matrices are defined (MILL, SHOP, SHED) and used to make a taxonomy of the architectural technical object. This is exemplified by some projects by architects as Norman Foster, Richard Rogers, Renzo Piano, Nicholas Grimshaw, Jean and Richard Horden Kaplicky. Interest of the thesis Since the beginning of the new century, several authors have shown a renewed interest in defining what a project is, how it is constituted and what it is for. The approaches to the subject are brought from analytic philosophy (Galle, 2008) or from the philosophy of technology (Verbeek, 2005; Vermaas, 2009) and they often speak about the relationship between design and material culture (Dorschel 2003, 2010 or Preston Boradkar 2012). It is also important to note the recent and growing interest in the work of French philosopher Gilbert Simondon [1924-1989], mainly known for its important contribution to the philosophy of technology and phenomenology of the technical object, and the influence on the thinking of contemporary philosophers as Paolo Virno, Bruno Latour or Gilles Deleuze, being the latter a author present in many doctoral theses and theoretical research conducted at major architecture schools around the world since the 90s to the present. The republication and translation of the work of Simondon (eng. 1980, spn. 2008) has received the attention from current philosophers such as Bernard Stiegler who continues to use its study and analysis to advance his thinking, thus being present in the contemporary debate about the technique. After its recent translation into Spanish, the thought of Simondon has aroused great interest in Latin America, as evidenced by the organization of various conferences and symposia, as well as the proliferation of publications about his work and thought8. Future translations of the rest of his major works, will ensure increased introduction in the academic community. Efforts have been made to present an alternative view of the History of Modern Architecture, using a reporter as Reyner P.Banham as a guide. The Machine Age intersects Simondon’s mechanology and his "technical vitalism", resulting in a fresh, renewed and optimistic interpretation of some of the most important works of Architecture of the twentieth century, which will surely contribute to the development of this century’s Architecture, already immersed in the paradigm shift towards sustainability and ecology.

Design and Optimization of Power Delivery and Distribution Systems Using Evolutionary Computation Techniques

Nowadays computing platforms consist of a very large number of components that require to be supplied with diferent voltage levels and power requirements. Even a very small platform, like a handheld computer, may contain more than twenty diferent loads and voltage regulators. The power delivery designers of these systems are required to provide, in a very short time, the right power architecture that optimizes the performance, meets electrical specifications plus cost and size targets. The appropriate selection of the architecture and converters directly defines the performance of a given solution. Therefore, the designer needs to be able to evaluate a significant number of options in order to know with good certainty whether the selected solutions meet the size, energy eficiency and cost targets. The design dificulties of selecting the right solution arise due to the wide range of power conversion products provided by diferent manufacturers. These products range from discrete components (to build converters) to complete power conversion modules that employ diferent manufacturing technologies. Consequently, in most cases it is not possible to analyze all the alternatives (combinations of power architectures and converters) that can be built. The designer has to select a limited number of converters in order to simplify the analysis. In this thesis, in order to overcome the mentioned dificulties, a new design methodology for power supply systems is proposed. This methodology integrates evolutionary computation techniques in order to make possible analyzing a large number of possibilities. This exhaustive analysis helps the designer to quickly define a set of feasible solutions and select the best trade-off in performance according to each application. The proposed approach consists of two key steps, one for the automatic generation of architectures and other for the optimized selection of components. In this thesis are detailed the implementation of these two steps. The usefulness of the methodology is corroborated by contrasting the results using real problems and experiments designed to test the limits of the algorithms.

An extended approach for service innovation study: an empirical research

Initially, service sector was defined as complementary to manufacturing sector. This situation has changed in recent times; services growth has resulted in a dominance of employment and economic activity in most developed nations and is becoming a key process for the competitiveness of their industrial sectors. New services related to commodities have become a strategy to differentiate their value proposition (Robinson et al., 2002). The service sector's importance is evident when evaluating its share in the gross domestic product. According to the World Bank (2011), in 2009, 74.8% of GDP in the euro area and 77.5% in United States were attributed to services. Globalization and use of information and communication technology has accelerated dissemination of knowledge and increasing customer expectations about services available worldwide. Innovation becomes essential to ensure that service organizations respond with appropriate products and services for each market segment. Customized and placed on time-tomarket new services require a more developed innovation process. Service innovation and new service development process are cited as one of the priorities for academic research in the following years (Karniouchina et al., 2005) This paper has the following objectives: -To present a model for the analysis of innovation process through the service value network, -To verify its applicability through an empirical research, and -To identify the path and mode of innovation for a group of studied organizations and to compare it with previous studies.

The Road from Community Ideas to Organisational Innovation: A Life Cycle Survey of Idea Management Systems

This paper introduces a new emerging software component, the idea management system, which helps to gather, organise, select and manage the innovative ideas provided by the communities gathered around organisations or enterprises. We define the notion of the idea life cycle, which provides a framework for characterising tools and techniques that drive the evolution of community submitted data inside idea management systems. Furthermore, we show the dependencies between the community-created information and the enterprise processes that are a result of using idea management systems and point out the possible benefits.

Knowledge pipeline in freight pipeline industry: competence- based model for open innovation

There is growing concern over the challenges for innovation in Freight Pipeline industry. Since the early works of Chesbrough a decade ago, we have learned a lot about the content, context and process of open innovation. However, much more research is needed in Freight Pipeline Industry. The reality is that few corporations have institutionalized open innovation practices in ways that have enabled substantial growth or industry leadership. Based on this, we pursue the following question: How does a firm’s integration into knowledge networks depend on its ability to manage knowledge? A competence-based model for freight pipeline organizations is analysed, this model should be understood by any organization in order to be successful in motivating professionals who carry out innovations and play a main role in collaborative knowledge creation processes. This paper aims to explain how can open innovation achieve its potential in most Freight Pipeline Industries.

An intelligent sales assistant for configurable products

Some of the recent proposals of web-based applications are oriented to provide advanced search services through virtual shops. Within this context, this paper proposes an advanced type of software application that simulates how a sales assistant dialogues with a consumer to dynamically configure a product according to particular needs. The paper presents the general knowl- edge model that uses artificial intelligence and knowledge-based techniques to simulate the configuration process. Finally, the paper illustrates the description with an example of an application in the field of photography equipment.

Some techniques for automated, resource-aware distributed and mobile computing in a multi-paradigm programming system

Distributed parallel execution systems speed up applications by splitting tasks into processes whose execution is assigned to different receiving nodes in a high-bandwidth network. On the distributing side, a fundamental problem is grouping and scheduling such tasks such that each one involves sufñcient computational cost when compared to the task creation and communication costs and other such practical overheads. On the receiving side, an important issue is to have some assurance of the correctness and characteristics of the code received and also of the kind of load the particular task is going to pose, which can be specified by means of certificates. In this paper we present in a tutorial way a number of general solutions to these problems, and illustrate them through their implementation in the Ciao multi-paradigm language and program development environment. This system includes facilities for parallel and distributed execution, an assertion language for specifying complex programs properties (including safety and resource-related properties), and compile-time and run-time tools for performing automated parallelization and resource control, as well as certification of programs with resource consumption assurances and efñcient checking of such certificates.

Mejoras tecnológicas en el reciclado de residuos de construcción y demolición (RCD)

La tesis doctoral “Mejoras Tecnológicas en el Reciclado de Residuos de Construcción y Demolición (RCD)” investiga la utilización de los separadores hidráulicos para mejorar la calidad de los áridos reciclados, y se demuestra que es un equipo más eficiente que las técnicas actuales basadas en la simple separación por densidad. En la tesisn se ha realizado inicialmente una revisión de la situación del sector, para a continuación centrarse en los sistemas de separación utilizados en las plantas de valorización españolas. Una vez analizados éstos y en particular los de tipo hidráulico, de los que se resume un estudio comparativo, se ha procedido a ensayar a escala de Laboratorio el comportamiento de un separador hidráulico de aceleración diferencial con diversos materiales procedentes de tres plantas de reciclaje. Adicionalmente fueron probadas otras técnicas, como es la separación magnética para mejorar la calidad de los productos reciclados. En vista de los buenos resultados de la investigación, se procede a escalar los ensayos con equipo piloto y distintas composiciones de naturaleza cerámica y hormigón. El equipo utilizado fue un jig de 3´x 1´ en el que se ensayaron las tres muestras con resultados diferentes. La limpieza de los materiales impropios y el yeso fue positiva en las tres muestras, y únicamente la separación entre sí de los componentes pétreos, resultó dependiente de su proporción en la mezcla, obteniéndose los mejores resultados en las muestras con menor cantidad de materiales cerámicos. Finalmente, se procede a analizar en un laboratorio reconocido las propiedades de los áridos reciclados obtenidos en la separación hidráulica por jig, y constatar las mejoras conseguidas para su utilización como materiales de construcción en usos ligados y no ligados. Todo lo anterior permite afirmar que los equipos de separación hidráulica con aceleración diferencial (jig) presentan una innovación tecnológica en el reciclado de los residuos de construcción y demolición (RCD). ABSTRACT The doctoral thesis “Technological Improvements in Recycling of Construction and Demolition Waste (C&DW)” researches the hydraulic separators utilization in order to improve the recycled aggregates quality, demonstrating that the equipment is more efficient than the current techniques based on the simple density separation. This doctoral thesis has been initially done reviewing the situation of the sector and focusing afterwards on the separation systems used at the Spanish recovery facilities. Once analyzed these and, particularly, the hydraulic type ones, from which a comparative study has been summarized, the behavior of a differential acceleration hydraulic separator with various materials coming from three recycling plants has been tested at laboratory scale. Additionally other techniques have been tested, such as the magnetic separation to improve the quality of recycled products. In view of the good investigation results, the testing process scaled up by using pilot equipment and different ceramics and concrete compositions. The equipment utilized was a jig 3” x 1”, in which the three samples were tested with different results. The unsuitable materials and gypsum cleanliness was positive on the three samples and only the separation among the stony components turned out to be dependent of its proportion in the mixing, obtaining the best results in the samples with less quantity of ceramic materials. Finally, the properties of the recycled aggregates obtained by jig hydraulic separation are analyzed at a recognized laboratory and the improvements gained for their utilization as construction materials, in bounded and unbounded uses, are stated. The facts cited are a basis for affirming that the hydraulic separator equipments with differential acceleration (jig) offer a technological innovation in the Recycling of Construction and Demolition Waste (C&DW).