Journal articles on the topic 'Edificio intelligente'

Ripercorrendo la lunga e ben nota ecfrasi che Pio II dedicò a Pienza nei Commentarii, il contributo intende evidenziare che Enea Silvio Piccolomini progettò e mise in atto - tramite Bernardo Rossellino - un progetto di città in carne e ossa estremamente razionale, che egli seppe finanziare e costruire mattone per mattone, pietra per pietra, edificio per edificio; una città che innalzò a centro di una nuova diocesi e descrisse senza alcuna retorica. Più che il sogno umanistico di una città “ideale” - come di norma si usa dire - Pienza può dunque apparire come un modello pragmatico e virtuoso di grande attualità, particolarmente a fronte delle elaborazioni troppo spesso fumose e tutte concettuali sul tema della “smart city” che tanta fortuna tendono a riscuotere nella società contemporanea.

Information from Theory towards Science, the professor Stefan Vlăduţescu’s book from University of Craiova, is a confirmation of high intelligence level and propensity of author’s cognition. From various semiotic materials (words, images, gestures, drawings, etc.), following certain principles, under different procedures (operations, actions, movements, maneuvers, mechanisms, strategies) using means (languages​​, codes, subcodes) and specific tools (knowledge, concepts, categories) adapted aim between earth (with autocorrection by feedback) and firmament (as anticipation by feed-forward) rises an imposing edifice, a cognitive construction: this is information. It has systemic and procedural character and is organized on four coordinates: metric, semantic, structural and pragmatic.

Between 1969 and 1979, Edward Said redefined American comparative literature, coining phrases, supplying a new critical pantheon (Vico, Schwab), and, above all, devising a method. Falling between generations and facing two different kinds of continental èèmigrèè——one philological, the other textualist——Said outmaneuvered the latter by reinterpreting the former. In a two-pronged move, he unleashed an arsenal of arguments against both new critical formalism and its latter-day avatars in ““theory.”” With these arguments, his authority was penetrating and atmospherically felt as he chipped away at the edifice of traditional comparative literature by emphasizing the situatedness of form and the transitive intelligence of humanist intellectuals.

Resumen Definimos estructura inteligente como aquella estructura dotada de unos sensores (en especial continuos y de fibra óptica), de manera que es capaz de transmitir datos de interés sobre su estado de salud (deformaciones, fisuraciones, oxidaciones, etc.). Esta tecnología puede facilitar el mantenimiento preventivo de los edificios y la gestión de su salud estructural. Por ello, un aspecto de interés necesario a analizar para saber si la tecnología es aplicable o no, es evaluar su rentabilidad. Así, el objeto de este artículo es realizar un análisis coste-beneficio de las estructuras inteligentes, estudiando por un lado cuál es el incremento de coste inicial que supone la implementación de la propuesta, y por otro lado evaluar cuál es el ahorro de dinero a lo largo del tiempo que supone la aplicación de la misma, lo que permite establecer el periodo de retorno de la inversión inicial, y a partir de qué momento se pueden esperar beneficios netos. Abstract Smart structure is defined as that structure equipped with sensors (especially continuous and composed of fiber optic), so that it is capable of transmitting data of interest about its state of health (deformations, cracks, oxidations, etc.). This technology can facilitate the preventive maintenance of buildings and the management of their structural health. Therefore, an aspect of interest necessary to analyze in order to know if the technology is applicable or not, is to evaluate its profitability. Thus, the objective of this article is to perform a cost-benefit analysis of smart structures, studying on the one hand which is the initial cost increase involved in the implementation of the proposal, and on the other hand to evaluate which is the saving of money to over the time that the application of it represents, what allows to establish the payback period of the initial investment, and from which moment you can expect net benefits.

El uso de la IA está provocando, también en Italia, una metamorfosis de la relación entre el contribuyente y la Administración tributaria tanto en la fase de aplicación de los impuestos (por ejemplo, los borradores del impuesto sobre la renta y del IVA) como en los procesos de verificación y control. Este cambio, si no se «gobierna» adecuadamente, podría sin embargo tener un alto coste en términos de vulneración de algunos derechos fundamentales de los contribuyentes, sobre todo cuando se «confía» a sistemas de inteligencia artificial la adopción de decisiones que tienen efectos inmediatos sobre la situación jurídica de los destinatarios. Esta es la característica que distingue a la medida introducida por el legislador italiano para atajar el fraude perpetrado a través de la transferencia de créditos fiscales por intervenciones destinadas a mejorar la eficiencia energética de los edificios y que es objeto de investigación en este trabajo.

Las metrópolis latinoamericanas han experimentado el surgimiento de nuevas formas de apropiación del espacio urbano. Aparecen en el espacio la construcción de edificios inteligentes, urbanizaciones cerradas y proyectos de elitización residencial. Si bien estos elementos se estudiaron para caracterizar las grandes metrópolis, es poco lo que se conoce respecto a las ciudades intermedias.En este estudio se examina si los caracteres desarrollados para definir el avance de las urbanizaciones cerradas en las grandes metrópolis pueden adaptarse al análisis de una ciudad intermedia como el Gran San Miguel de Tucumán (Argentina). Dada su dotación de infraestructura y servicios, esta ciudad es la más importante del noroeste de Argentina y a menudo funciona como capital regional. AbstractLatin American metropolises have experienced the emergence of new forms of appropriation of urban space. This space has witnessed the construction of intelligent buildings, closed urbanizations and residential elitization projects. Although these elements were studied to characterize large metropolises, little is known about intermediate cities.This study examines whether the characters developed to define the advance of gated communities in large metropolises can adapt to the analysis of an intermediate city such as Gran San Miguel de Tucumán (Argentina) Its supply of infrastructure and services makes this the most important city in the northeast of Argentina and it often functions as a regional capital.

Universities and higher educational institutions, in the country or across the globe create new knowledge through their study of the existing ecosystems along with the constraints and challenges that lie therein. The most crucial tool in the box towards solving these gaping issues happens to be academic research. The knowledge generated at these epicentres address the problems, related to health, climate change, sustainability among many others. The findings of the research offer substantial breakthroughs to enhance the living standards of the people, better utilization of the limited resources and preservation of the planet. With the changing and ever-growing role of the institutions of higher learning and universities in particular research has become all the more crucial. There is hardly any domain where universities and the scholars don’t have a role to play. With spectacularly arrayed disciplines coming under the ambit of education, the researchers have a ringside view of the world problems. If we pick up any instance of authorities dealing with contemporary issues, we are sure to find a few academics in the core team. Academics and particularly the hard research has emerged as the new go-to guy. With so much riding on the research, any dilution of its sanctity would bring down the entire edifice of progress and development. Any laxity on the rigorous methodologies or standards procedures may prove very catastrophic for all the stakeholders and the community as a whole. Sadly it has been observed worldwide that researchers often indulge in misconduct while pursuing their education and research enterprises. Misconduct refers to a gamut of wrong practices like plagiarizing, fabricating or falsifying data, manipulating images or pictures to substantiate their finding; reporting selectively to support their research objectives. The menace of gift and ghost authorship is also prevalent across academic and research intelligence. Any of this dilutes the quality of research and questions the authenticity of the resulting knowledge.

AbstractInnovative teaching and learning methodologies challenge conventional architectural design education for improved students´ creativity, knowledge, skills and competences. These new strategies can improve students´ engagement, motivation, and attainment, but they also demand a teaching team´s great effort and are linked to a set of difficulties. This article analyses and unfolds the keys of an innovative teaching project proposal conceived as a workshop, which promotes Nature´s interaction with the architecture of the future. The proposal has been devised and planned by me to be developed as a lecturer and postdoctoral researcher, at an Architecture Research and Educational Institution. The project, where the classroom is understood as an architectural laboratory in which the meeting between the subjects Architectural Design and Building Construction takes place, integrates a variety of innovative education methodologies: Gamification, Flipped Classroom, Learning Based on Challenges, Design Thinking and Collective Intelligence. Through it, architecture students are able to improve their creativity and achieve diverse knowledge, strengths and complementary skills. This offers resources for innovative teaching good practice and implementation, to facilitate innovation at the classroom level. It presents tools to overcome the challenges facing innovative learning models in Architecture education. Above all, it aims to foster innovation in architectural design education by empowering and inspiring teachers and other education staff to use innovative teaching methods while sharing best practices and experiences.ResumenLas metodologías innovadoras de educación y aprendizaje desafían la educación convencional del diseño arquitectónico para mejorar la creatividad, el conocimiento, las habilidades y las competencias de los estudiantes de arquitectura. Estas nuevas estrategias pueden mejorar el compromiso, la motivación y los resultados de los estudiantes, además de lograr la permanencia en el tiempo de lo aprendido. Sin embargo, exigen un gran esfuerzo por parte del equipo docente e implican un conjunto de dificultades. Este artículo analiza y revela las claves de una propuesta de proyecto de innovación educativa concebido como taller, que promueve la interacción con la Naturaleza de las arquitecturas del futuro. La misma ha sido ideada por mí para ser desarrollada como profesora e investigadora postdoctoral en una Institución de Educación e Investigación de la Arquitectura. El proyecto, donde el aula se entiende como un laboratorio arquitectónico lugar de encuentro entre las asignaturas de Diseño Arquitectónico y Construcción de Edificios, integra una variedad de metodologías educativas innovadoras: Gamificación, Aula Invertida, Aprendizaje Basado en Retos, Pensamiento de Diseño e Inteligencia Colectiva. A través de él los estudiantes de arquitectura son capaces de mejorar su creatividad y adquirir diversos conocimientos, fortalezas y habilidades complementarias. Este ofrece recursos para la buena práctica e implementación de la innovación educativa, para facilitar la innovación a nivel del aula. Presenta herramientas para superar los desafíos que enfrentan los modelos de aprendizaje innovadores en la educación de Arquitectura. Pero sobre todo fomenta la innovación en la educación del diseño arquitectónico al empoderar e inspirar a los profesores y otros miembros del personal educativo, para que utilicen métodos de enseñanza innovadora mientras comparten su mejor praxis y experiencia.

Este artículo analiza y revela las claves de una propuesta de proyecto de innovación educativa, ideada y planeada por mí para ser desarrollada, como profesora e investigadora postdoctoral, en la Escuela de Arquitectura integrada en la Royal Danish Academy of Fine Arts de Copenhague (KADK), en el Instituto de Arquitectura y Diseño (IAD). El proyecto, donde el aula se concibe como un laboratorio de arquitectura lugar de encuentro entre las asignaturas de Diseño Arquitectónico y Construcción de Edificios, integra una variedad de metodologías educativas innovadoras: Gamificación, Aula Invertida (Flipped Classroom), Aprendizaje Basado en Retos, Pensamiento de Diseño (Design Thinking), Inteligencia Colectiva, etc… A través de él, los estudiantes de arquitectura son capaces de mejorar su creatividad y adquirir diversos conocimientos, fortalezas y habilidades complementarias, entre ellas: La creación de un espacio privado, la reflexión sobre la idea de habitar; la exploración del diseño arquitectónico conectado con la naturaleza; nociones acerca de diseño sostenible y reciclaje; la progresión de su pensamiento crítico y creativo; el desarrollo de sus habilidades de comunicación gráfica, escrita y oral; la activación de su pensamiento independiente y original; y la mejora de sus habilidades de liderazgo y organización, co-diseño, gestión del tiempo, habilidades de resolución de conflictos/problemas y toma de decisiones. El artículo ofrece recursos para la buena práctica e implementación de la innovación educativa, y, por lo tanto, para facilitar la innovación a nivel del aula. Facilita herramientas para superar los desafíos que enfrentan los modelos de aprendizaje innovadores en la educación de Arquitectura. Pero sobre todo tiene como objetivo fomentar la innovación en la educación del diseño arquitectónico al empoderar e inspirar a los profesores y otros miembros del personal educativo para que utilicen métodos de enseñanza innovadora, mientras comparten su mejor praxis y experiencia con sus colegas.AbstractThis article analyzes and reveals the keys to an educational innovation project proposal, conceived and planned by me to be developed, as a professor and postdoctoral researcher, at the Integrated School of Architecture at the Royal Danish Academy of Fine Arts in Copenhagen (KADK) , at the Institute of Architecture and Design (IAD). The project, where the classroom is conceived as an architecture laboratory, a meeting place between the subjects of Architectural Design and Building Construction, integrates a variety of innovative educational methodologies: Gamification, Flipped Classroom, Challenge-Based Learning, Thinking of Design (Design Thinking), Collective Intelligence, etc ... Through it, architecture students are able to improve their creativity and acquire various knowledge, strengths and complementary skills, including: The creation of a private space, reflection on the idea of inhabiting; the exploration of architectural design connected with nature; notions about sustainable design and recycling; the progression of your critical and creative thinking; the development of your graphic, written and oral communication skills; the activation of your independent and original thinking; and improving your leadership and organization skills, co-design, time management, conflict / problem solving skills, and decision making. The article offers resources for good practice and implementation of educational innovation, and therefore to facilitate innovation at the classroom level. It provides tools to overcome the challenges faced by innovative learning models in Architecture education. But above all it aims to foster innovation in architectural design education by empowering and inspiring teachers and other educational staff to use innovative teaching methods, while sharing their best practice and experience with their colleagues

A strong and insightful interpretation of scientific knowledge and practice must take into consideration how human cognitive skills and constraints enable as well restrict the scientific enterprise's activities and products. While existing deep learning systems are outstanding in functions such as object classification, language processing, and gameplay but few can create or transform a complex system like a Frame Pyramid. Assume that what these systems lack is a "Cognitive Inductive Prejudice": an ability to justify inter-object relationships and make decisions about an organized description of the incident. In order to assess this premise, this paper concentrated on a work involving stapling together stacks of frames to balance a castle and quantify how well hominids are doing. Then for analyzing contraption capability, our work introduce the Significant Stimulus Learning Tool that utilizes object-and interactioncentered scene and policy representations, these apply to the task. Our results shows that these structural portrayals enable the tool to perform both hominids and contraption for more naive methods, indicating that cognitive inductive effect is a significant element in solving structured reasoning issues and building more intelligent also flexible for machines.

Resumen La Domótica aplicada a inmuebles como los hoteles es una disciplina que se pone en práctica cada día más en las sociedades actuales, para lograr mejores servicios de gestión energética, seguridad, bienestar y comunicación en estas instalaciones. El uso de los Sistemas de Control Supervisorio y Adquisición de Datos, SCADA, es uno de los pilares fundamentales en la aplicación de las técnicas modernas de automatización en el área de los edificios inteligentes. Una de las principales funcionalidades que debe brindar un SCADA es el Sistema de Alarmas. El presente trabajo propone la definición de las alarmas con sus atributos del módulo de Gestión de Alarmas para un SCADA aplicado a la domótica en un hotel. Palabras ClaveAtributos de Alarmas, Gestión de Alarmas, SCADA, Domótica en hoteles. Abstract Domotics (Home Automation) applied to buildings such as hotels is a discipline that is put into practice every day in today's society, for better energy management services, safety, welfare and communication in these facilities. The use of Supervisory Control Systems and Data Acquisition, SCADA, is one of the cornerstones in the application of modern techniques in the field of automation of intelligent buildings. One of the main features that should make a SCADA is the Alarms System. This paper proposes the definition of the attributes of alarms Alarm Management Module for SCADA automation applied to a hotel.Keywords Alarm Attributes, Alarm Management, SCADA, Domotics in hotels.

Abstract Computer vision aims to produce an understanding of digital image’s content and the generation or transformation of images through software. Today, a significant amount of computer vision algorithms rely on techniques of machine learning which require large amounts of data assembled in collections, or named data sets. To build these data sets a large population of precarious workers label and classify photographs around the clock at high speed. For computers to learn how to see, a scale articulates macro and micro dimensions: the millions of images culled from the internet with the few milliseconds given to the workers to perform a task for which they are paid a few cents. This paper engages in details with the production of this scale and the labour it relies on: its elaboration. This elaboration does not only require hands and retinas, it also crucially zes mobilises the photographic apparatus. To understand the specific character of the scale created by computer vision scientists, the paper compares it with a previous enterprise of scaling, Malraux’s Le Musée Imaginaire, where photography was used as a device to undo the boundaries of the museum’s collection and open it to an unlimited access to the world’s visual production. Drawing on Douglas Crimp’s argument that the “musée imaginaire”, a hyperbole of the museum, relied simultaneously on the active role of the photographic apparatus for its existence and on its negation, the paper identifies a similar problem in computer vision’s understanding of photography. The double dismissal of the role played by the workers and the agency of the photographic apparatus in the elaboration of computer vision foreground the inherent fragility of the edifice of machine vision and a necessary rethinking of its scale.

What is the countercultural potential of citizen science? As a participant in the wider citizen science movement, I can attest that contemporary citizen science initiatives rarely characterise themselves as countercultural. Rather, the goal of most citizen science projects is to be seen as producing orthodox scientific knowledge: the ethos is respectability rather than rebellion (NERC). I will suggest instead that there are resonances with the counterculture that emerged in the 1960s, most visibly through an emphasis on participatory experimentation and the principles of environmental sustainability and social justice. This will be illustrated by example, through two citizen science projects that have a commitment to combining social values with scientific practice. I will then describe the explicitly countercultural organisation, Science for the People, which arose from within the scientific community itself, out of opposition to the Vietnam War. Methodological and conceptual weaknesses in the authoritative model of science are explored, suggesting that there is an opportunity for citizen science to become anti-hegemonic by challenging the hegemony of science itself. This reformulation will be expressed through Deleuze and Guattari's notion of nomadic science, the means through which citizen science could become countercultural. Counterculture Before examining the countercultural potential of citizen science, I set out some of the grounds for identifying a counterculture drawing on the ideas of Theodore Roszak, who invented the term counterculture to describe the new forms of youth movements that emerged in the 1960s (Roszak). This was a perspective that allowed the carnivalesque procession of beatniks, hippies and the New Left to be seen as a single paradigm shift combining psychic and social revolution. But just as striking and more often forgotten is the way Roszak characterised the role of the counterculture as mobilising a vital critique of the scientific worldview (Roszak 273-274). The concept of counterculture has been taken up in diverse ways since its original formation. We can draw, for example, on Lawrence Grossberg's more contemporary analysis of counterculture (Grossberg) to clarify the main concepts and contrast them with a scientific approach. Firstly, a counterculture works on and through cultural formations. This positions it as something the scientific community would see as the other, as the opposite to the objective, repeatable and quantitative truth-seeking of science. Secondly, a counterculture is a diverse and hybrid space without a unitary identity. Again, scientists would often see science as a singular activity applied in modulated forms depending on the context, although in practice the different sciences can experience each other as different tribes. Thirdly, a counterculture is lived as a transformative experience where the participant is fundamentally changed at a psychic level through participation in unique events. Contrast this with the scientific idea of the separation of observer and observed, and the objective repeatability of the experiment irrespective of the experimenter. Fourthly, a counterculture is associated with a unique moment in time, a point of shift from the old to the new. For the counterculture of the 1960s this was the Age of Aquarius. In general, the aim of science and scientists is to contribute to a form of truth that is essentially timeless, in that a physical law is assumed to hold across all time (and space), although science also has moments of radical change with regard to scientific paradigms. Finally, and significantly for the conclusions of this paper, according to Roszak a counterculture stands against the mainstream. It offers a challenge not at the level of detail but, to the fundamental assumptions of the status quo. This is what “science” cannot do, in as much as science itself has become the mainstream. It was the character of science as the bedrock of all values that Roszak himself opposed and for which he named and welcomed the counterculture. Although critical of some of the more shallow aspects of its psychedelic experimentation or political militancy, he shared its criticism of the technocratic society (the technocracy) and the egocentric mode of consciousness. His hope was that the counterculture could help restore a visionary imagination along with a more human sense of community. What Is Citizen Science? In recent years the concept of citizen science has grown massively in popularity, but is still an open and unstable term with many variants. Current moves towards institutionalisation (Citizen Science Association) are attempting to marry growth and stabilisation, with the first Annual General Meeting of the European Citizen Science Association securing a tentative agreement on the common principles of citizen science (Haklay, "European"). Key papers and presentations in the mainstream of the movement emphasise that citizen science is not a new activity (Bonney et al.) with much being made of the fact that the National Audubon Society started its annual Christmas Bird Count in 1900 (National Audubon Society). However, this elides the key role of the Internet in the current surge, which takes two distinct forms; the organisation of distributed fieldwork, and the online crowdsourcing of data analysis. To scientists, the appeal of citizen science fieldwork follows from its distributed character; they can research patterns over large scales and across latitudes in ways that would be impossible for a researcher at a single study site (Toomey). Gathering together the volunteer, observations are made possible by an infrastructure of web tools. The role of the citizen in this is to be a careful observer; the eyes and ears of the scientist in cyberspace. In online crowdsourcing, the internet is used to present pattern recognition tasks; enrolling users in searching images for signs of new planets or the jets of material from black holes. The growth of science crowdsourcing is exponential; one of the largest sites facilitating this kind of citizen science now has well in excess of a million registered users (Zooniverse). Such is the force of the technological aura around crowdsourced science that mainstream publications often conflate it with the whole of citizen science (Parr). There are projects within citizen science which share core values with the counterculture as originally defined by Roszak, in particular open participation and social justice. These projects also show characteristics from Grossberg's analysis of counterculture; they are diverse and hybrid spaces, carry a sense of moving from an old era to a new one, and have cultural forms of their own. They open up the full range of the scientific method to participation, including problem definition, research design, analysis and action. Citizen science projects that aim for participation in all these areas include the Extreme Citizen Science research group (ExCiteS) at University College London (UCL), the associated social enterprise Mapping for Change (Mapping for Change), and the Public Laboratory for Open Technology and Science (Public Lab). ExCiteS sees its version of citizen science as "a situated, bottom-up practice" that "takes into account local needs, practices and culture". Public Lab, meanwhile, argue that many citizen science projects only offer non-scientists token forms of participation in scientific inquiry that rarely amount to more that data collection and record keeping. They counter this through an open process which tries to involve communities all the way from framing the research questions, to prototyping tools, to collating and interpreting the measurements. ExCiteS and Public Lab also share an implicit commitment to social justice through scientific activity. The Public Lab mission is to "put scientific inquiry at the heart of civic life" and the UCL research group strive for "new devices and knowledge creation processes that can transform the world". All of their work is framed by environmental sustainability and care for the planet, whether it's enabling environmental monitoring by indigenous communities in the Congo (ExCiteS) or developing do-it-yourself spectrometry kits to detect crude oil pollution (Public Lab, "Homebrew"). Having provided a case for elements of countercultural DNA being present in bottom-up and problem-driven citizen science, we can contrast this with Science for the People, a scientific movement that was born out of the counterculture. Countercultural Science from the 1970s: Science for the People Science for the People (SftP) was a scientific movement seeded by a rebellion of young physicists against the role of US science in the Vietnam War. Young members of the American Physical Society (APS) lobbied for it to take a position against the war but were heavily criticised by other members, whose written complaints in the communications of the APS focused on the importance of scientific neutrality and the need to maintain the association's purely scientific nature rather than allowing science to become contaminated by politics (Sarah Bridger, in Plenary 2, 0:46 to 1:04). The counter-narrative from the dissidents argued that science is not neutral, invoking the example of Nazi science as a justification for taking a stand. After losing the internal vote the young radicals left to form Scientists and Engineers for Social and Political Action (SESPA), which later became Science for the People (SftP). As well as opposition to the Vietnam War, SftP embodied from the start other key themes of the counterculture, such as civil rights and feminism. For example, the first edition of Science for the People magazine (appearing as Vol. 2, No. 2 of the SESPA Newsletter) included an article about leading Black Panther, Bobby Seale, alongside a piece entitled “Women Demand Equality in Science.” The final articles in the same issue are indicators of SftP's dual approach to science and change; both the radicalisation of professionals (“Computer Professionals for Peace”) and the demystification of technical practices (“Statistics for the People”) (Science for the People). Science for the People was by no means just a magazine. For example, their technical assistance programme provided practical support to street health clinics run by the Black Panthers, and brought SftP under FBI surveillance (Herb Fox, in Plenary 1, 0:25 to 0:35). Both as a magazine and as a movement, SftP showed a tenacious longevity, with the publication being produced every two months between August 1970 and May/June 1989. It mutated through a network of affiliated local groups and international links, and was deeply involved in constructing early critiques of nuclear power and genetic determinism. SftP itself seems to have had a consistent commitment to non-hierarchical processes and, as one of the founders expressed it, a “shit kicking” approach to putting its principles in to practice (Al Weinrub, in Plenary 1, 0:25 to 0:35). SftP criticised power, front and centre. It is this opposition to hegemony that puts the “counter” into counterculture, and is missing from citizen science as currently practised. Cracks in the authority of orthodox science, which can be traced to both methodologies and basic concepts, follow in this paper. These can be seen as an opportunity for citizen science to directly challenge orthodox science and thus establish an anti-hegemonic stance of its own. Weaknesses of Scientific Hegemony In this section I argue that the weaknesses of scientific hegemony are in proportion to its claims to authority (Feyerabend). Through my scientific training as an experimental particle physicist I have participated in many discussions about the ontological and epistemological grounds for scientific authority. While most scientists choose to present their practice publicly as an infallible machine for the production of truths, the opinions behind the curtain are far more mixed. Physicist Lee Somolin has written a devastating critique of science-in-practice that focuses on the capture of the institutional economy of science by an ideological grouping of string theorists (Smolin), and his account is replete with questions about science itself and ethnographic details that bring to life the messy behind-the-scenes conflicts in scientific-knowledge making. Knowledge of this messiness has prompted some citizen science advocates to take science to task, for example for demanding higher standards in data consistency from citizen science than is often the case in orthodox science (Haklay, "Assertions"; Freitag, "Good Science"). Scientists will also and invariably refer to reproducibility as the basis for the authority of scientific truths. The principle that the same experiments always get the same results, irrespective of who is doing the experiment, and as long as they follow the same method, is a foundation of scientific objectivity. However, a 2012 study of landmark results in cancer science was able to reproduce only 11 per cent of the original findings (Begley and Ellis). While this may be an outlier case, there are broader issues with statistics and falsification, a bias on positive results, weaknesses in peer review and the “publish or perish” academic culture (The Economist). While the pressures are all-too-human, the resulting distortions are rarely acknowledged in public by scientists themselves. On the other hand, citizen science has been slow to pick up the gauntlet. For example, while some scientists involved in citizen science have commented on the inequality and inappropriateness of orthodox peer review for citizen science papers (Freitag, “What Is the Role”) there has been no direct challenge to any significant part of the scientific edifice. I argue that the nearest thing to a real challenge to orthodox science is the proposal for a post-normal science, which pre-dates the current wave of citizen science. Post-normal science tries to accommodate the philosophical implications of post-structuralism and at the same time position science to tackle problems such as climate change, intractable to reproducibility (Funtowicz and Ravetz). It accomplishes this by extending the domains in which science can provide meaningful answers to include issues such as global warming, which involve high decision stakes and high uncertainty. It extends traditional peer review into an extended peer community, which includes all the stakeholders in an issue, and may involve active research as well as quality assessment. The idea of extended peer review has obvious overlaps with community-oriented citizen science, but has yet to be widely mobilised as a theoretical buttress for citizen-led science. Prior even to post-normal science are the potential cracks in the core philosophy of science. In her book Cosmopolitics, Isabelle Stengers characterises the essential nature of scientific truth as the ability to disqualify and exclude other truth claims. This, she asserts, is the hegemony of physics and its singular claim to decide what is real and what is true. Stengers traces this, in part, to the confrontation more than one hundred years ago between Max Planck and Ernst Mach, whereas the latter argued that claims to an absolute truth should be replaced by formulations that tied physical laws to the human practices that produced them. Planck stood firmly for knowledge forms that were unbounded by time, space or specific social-material procedures (Stengers). Although contemporary understandings of science are based on Planck's version, citizen science has the potential to re-open these questions in a productive manner for its own practices, if it can re-conceive of itself as what Deleuze and Guattari would call nomadic science (Deleuze; Deleuze & Guattari). Citizen Science as Nomadic Science Deleuze and Guattari referred to orthodox science as Royal Science or Striated Science, referring in part to its state-like form of authority and practice, as well as its psycho-social character. Their alternative is a smooth or nomadic science that, importantly for citizen science, does not have the ambition to totalise knowledge. Nomadic science is a form of empirical investigation that has no need to be hooked up to a grand narrative. The concept of nomadic science is a natural fit for bottom-up citizen science because it can valorise truths that are non-dual and that go beyond objectivity to include the experiential. In this sense it is like the extended peer review of post-normal science but without the need to be limited to high-risk high-stakes questions. As there is no a priori problem with provisional knowledges, it naturally inclines towards the local, the situated and the culturally reflective. The apparent unreliability of citizen science in terms of participants and tools, which is solely a source of anxiety, can become heuristic for nomadic science when re-cast through the forgotten alternatives like Mach's formulation; that truths are never separated from the specifics of the context and process that produced them (Stengers 6-18; 223). Nomadic science, I believe, will start to emerge through projects that are prepared to tackle toxic epistemology as much as toxic pollutants. For example, the Community Based Auditing (CBA) developed by environmental activists in Tasmania (Tattersall) challenges local alliances of state and extractive industries by undermining their own truth claims with regards to environmental impact, a process described in the CBA Toolbox as disconfirmation. In CBA, this mixture of post-normal science and Stenger's critique is combined with forms of data collection and analysis known as Community Based Sampling (Tattersall et al.), which would be recognisable to any citizen science project. The change from citizen science to nomadic science is not a total rupture but a shift in the starting point: it is based on an overt critique of power. One way to bring this about is being tested in the “Kosovo Science for Change” project (Science for Change Kosovo), where I am a researcher and where we have adopted the critical pedagogy of Paulo Freire as the starting point for our empirical investigations (Freire). Critical pedagogy is learning as the co-operative activity of understanding—how our lived experience is constructed by power, and how to make a difference in the world. Taking a position such as nomadic science, openly critical of Royal Science, is the anti-hegemonic stance that could qualify citizen science as properly countercultural. Citizen Science and Counterculture Counterculture, as I have expressed it, stands against or rejects the hegemonic culture. However, there is a strong tendency in contemporary social movements to take a stance not only against the dominant structures but against hegemony itself. They contest what Richard Day calls the hegemony of hegemony (Day). I witnessed this during the counter-G8 mobilisation of 2001. Having been an activist in the 1980s and 1990s I was wearily familiar with the sectarian competitiveness of various radical narratives, each seeking to establish itself as the correct path. So it was a strongly affective experience to stand in the convergence centre and listen to so many divergent social groups and movements agree to support each other's tactics, expressing a solidarity based on a non-judgemental pluralism. Since then we have seen the emergence of similarly anti-hegemonic countercultures around the Occupy and Anonymous movements. It is in this context of counterculture that I will try to summarise and evaluate the countercultural potential of citizen science and what being countercultural might offer to citizen science itself. To be countercultural it is not enough for citizen science to counterpose participation against the institutional and hierarchical aspects of professional science. As an activity defined purely by engagement it offers to plug the legitimacy gap for science while still being wholly dependent on it. A countercultural citizen science must pose a strong challenge to the status quo, and I have suggested that a route to this would be to develop as nomadic science. This does not mean replacing or overthrowing science but constructing an other to science with its own claim to empirical methods. It is fair to ask what this would offer citizen science that it does not already have. At an abstract level it would gain a freedom of movement; an ability to occupy Deleuzian smooth spaces rather than be constrained by the striation of established science. The founders of Science for the People are clear that it could never have existed if it had not been able to draw on the mass movements of its time. Being countercultural would give citizen science an affinity with the bottom-up, local and community-based issues where empirical methods are likely to have the most social impact. One of many examples is the movement against fracking (the hydraulic fracturing of deep rock formations to release shale gas). Together, these benefits of being countercultural open up the possibility for forms of citizen science to spread rhizomatically in a way that is not about immaterial virtual labour but is itself part of a wider cultural change. The possibility of a nomadic science stands as a doorway to the change that Roszak saw at the heart of the counterculture, a renewal of the visionary imagination. References Begley, C. Glenn, and Lee M. Ellis. "Drug Development: Raise Standards for Preclinical Cancer Research." Nature 483.7391 (2012): 531–533. 8 Oct. 2014 ‹http://www.nature.com/nature/journal/v483/n7391/full/483531a.html›. Bonney, Rick, et al. "Citizen Science: A Developing Tool for Expanding Science Knowledge and Scientific Literacy." BioScience 59.11 (2009): 977–984. 6 Oct. 2014 ‹http://bioscience.oxfordjournals.org/content/59/11/977›. Citizen Science Association. "Citizen Science Association." 2014. 6 Oct. 2014 ‹http://citizenscienceassociation.org/›. Day, Richard J.F. Gramsci Is Dead: Anarchist Currents in the Newest Social Movements. London: Pluto Press, 2005. Deleuze, Giles. Nomadology: The War Machine. New York, NY: MIT Press, 1986. Deleuze, Gilles, and Felix Guattari. A Thousand Plateaus. London: Bloomsbury Academic, 2013. ExCiteS. "From Non-Literate Data Collection to Intelligent Maps." 26 Aug. 2013. 8 Oct. 2014 ‹http://www.ucl.ac.uk/excites/projects/excites-projects/intelligent-maps/intelligent-maps›. Feyerabend, Paul K. Against Method. 4th ed. London: Verso, 2010. Freire, Paulo. Pedagogy of the Oppressed. Continuum International Publishing Group, 2000. Freitag, Amy. "Good Science and Bad Science in Democratized Science." Oceanspaces 22 Jan. 2014. 9 Oct. 2014 ‹http://oceanspaces.org/blog/good-science-and-bad-science-democratized-science›. ---. "What Is the Role of Peer-Reviewed Literature in Citizen Science?" Oceanspaces 29 Jan. 2014. 10 Oct. 2014 ‹http://oceanspaces.org/blog/what-role-peer-reviewed-literature-citizen-science›. Funtowicz, Silvio O., and Jerome R. Ravetz. "Science for the Post-Normal Age." Futures 25.7 (1993): 739–755. 8 Oct. 2014 ‹http://www.sciencedirect.com/science/article/pii/001632879390022L›. Grossberg, Lawrence. 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"Best Practice Guides to Choosing and Using Citizen Science for Environmental Projects." Centre for Ecology & Hydrology May 2014. 9 Oct. 2014 ‹http://www.ceh.ac.uk/products/publications/understanding-citizen-science.html›. Parr, Chris. "Why Citizen Scientists Help and How to Keep Them Hooked." Times Higher Education 6 June 2013. 6 Oct. 2014 ‹http://www.timeshighereducation.co.uk/news/why-citizen-scientists-help-and-how-to-keep-them-hooked/2004321.article›. Plenary 1: Stories from the Movement. Film. Science for the People, 2014. Plenary 2: The History and Lasting Significance of Science for the People. Film. Science for the People, 2014. Public Lab. "Public Lab: A DIY Environmental Science Community." 2014. 6 June 2014 ‹http://publiclab.org/›. ---. "The Homebrew Oil Testing Kit." Kickstarter 24 Sep. 2014. 8 Oct. 2014 ‹https://www.kickstarter.com/projects/publiclab/the-homebrew-oil-testing-kit›. Roszak, Theodore. The Making of a Counter Culture. Garden City, N.Y.: Anchor Books/Doubleday, 1969. Science for Change Kosovo. "Citizen Science Kosovo." Facebook, n.d. 17 Aug. 2014 ‹https://www.facebook.com/CitSciKS›. Science for the People. "SftP Magazine." 2013. 8 Oct. 2014 ‹http://science-for-the-people.org/sftp-resources/magazine/›. Smolin, Lee. The Trouble with Physics: The Rise of String Theory, the Fall of a Science, and What Comes Next. Reprint ed. Boston: Mariner Books, 2007. Stengers, Isabelle. Cosmopolitics I. Trans. Robert Bononno. Minneapolis: U of Minnesota P, 2010. Tattersall, Philip J. "What Is Community Based Auditing and How Does It Work?." Futures 42.5 (2010): 466–474. 9 Oct. 2014 ‹http://www.sciencedirect.com/science/article/pii/S0016328709002055›. ---, Kim Eastman, and Tasmanian Community Resource Auditors. Community Based Auditing: Tool Boxes: Training and Support Guides. Beauty Point, Tas.: Resource Publications, 2010. The Economist. 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At one point in Victor Hugo’s novel, The Hunchback of Notre Dame, the archdeacon, Claude Frollo, looked up from a book on his table to the edifice of the gothic cathedral, visible from his canon’s cell in the cloister of Notre Dame: “Alas!” he said, “this will kill that” (146). Frollo’s lament, that the book would destroy the edifice, captures the medieval cleric’s anxiety about the way in which Gutenberg’s print technology would become the new universal means for recording and communicating humanity’s ideas and artistic expression, replacing the grand monuments of architecture, human engineering, and craftsmanship. For Hugo, architecture was “the great handwriting of humankind” (149). The cathedral as the material outcome of human technology was being replaced by the first great machine—the printing press. At this point in the third millennium, some people undoubtedly have similar anxieties to Frollo: is it now the book’s turn to be destroyed by yet another great machine? The inclusion of “post print” in our title is not intended to sound the death knell of the book. Rather, we contend that despite the enduring value of print, digital publishing is “present and active” and is changing the way in which research, particularly in the humanities, is being undertaken. Our approach has three related parts. First, we consider how digital technologies are changing the way in which content is constructed, customised, modified, disseminated, and accessed within a global, distributed network. This section argues that the transition from print to electronic or digital publishing means both losses and gains, particularly with respect to shifts in our approaches to textuality, information, and innovative publishing. Second, we discuss the Children’s Literature Digital Resources (CLDR) project, with which we are involved. This case study of a digitising initiative opens out the transformative possibilities and challenges of digital publishing and e-scholarship for research communities. Third, we reflect on technology’s capacity to bring about major changes in the light of the theoretical and practical issues that have arisen from our discussion. I. Digitising in a “post-print age” We are living in an era that is commonly referred to as “the late age of print” (see Kho) or the “post-print age” (see Gunkel). According to Aarseth, we have reached a point whereby nearly all of our public and personal media have become more or less digital (37). As Kho notes, web newspapers are not only becoming increasingly more popular, but they are also making rather than losing money, and paper-based newspapers are finding it difficult to recruit new readers from the younger generations (37). Not only can such online-only publications update format, content, and structure more economically than print-based publications, but their wide distribution network, speed, and flexibility attract advertising revenue. Hype and hyperbole aside, publishers are not so much discarding their legacy of print, but recognising the folly of not embracing innovative technologies that can add value by presenting information in ways that satisfy users’ needs for content to-go or for edutainment. As Kho notes: “no longer able to satisfy customer demand by producing print-only products, or even by enabling online access to semi-static content, established publishers are embracing new models for publishing, web-style” (42). Advocates of online publishing contend that the major benefits of online publishing over print technology are that it is faster, more economical, and more interactive. However, as Hovav and Gray caution, “e-publishing also involves risks, hidden costs, and trade-offs” (79). The specific focus for these authors is e-journal publishing and they contend that while cost reduction is in editing, production and distribution, if the journal is not open access, then costs relating to storage and bandwith will be transferred to the user. If we put economics aside for the moment, the transition from print to electronic text (e-text), especially with electronic literary works, brings additional considerations, particularly in their ability to make available different reading strategies to print, such as “animation, rollovers, screen design, navigation strategies, and so on” (Hayles 38). Transition from print to e-text In his book, Writing Space, David Bolter follows Victor Hugo’s lead, but does not ask if print technology will be destroyed. Rather, he argues that “the idea and ideal of the book will change: print will no longer define the organization and presentation of knowledge, as it has for the past five centuries” (2). As Hayles noted above, one significant indicator of this change, which is a consequence of the shift from analogue to digital, is the addition of graphical, audio, visual, sonic, and kinetic elements to the written word. A significant consequence of this transition is the reinvention of the book in a networked environment. Unlike the printed book, the networked book is not bound by space and time. Rather, it is an evolving entity within an ecology of readers, authors, and texts. The Web 2.0 platform has enabled more experimentation with blending of digital technology and traditional writing, particularly in the use of blogs, which have spawned blogwriting and the wikinovel. Siva Vaidhyanathan’s The Googlization of Everything: How One Company is Disrupting Culture, Commerce and Community … and Why We Should Worry is a wikinovel or blog book that was produced over a series of weeks with contributions from other bloggers (see: http://www.sivacracy.net/). Penguin Books, in collaboration with a media company, “Six Stories to Start,” have developed six stories—“We Tell Stories,” which involve different forms of interactivity from users through blog entries, Twitter text messages, an interactive google map, and other features. For example, the story titled “Fairy Tales” allows users to customise the story using their own choice of names for characters and descriptions of character traits. Each story is loosely based on a classic story and links take users to synopses of these original stories and their authors and to online purchase of the texts through the Penguin Books sales website. These examples of digital stories are a small part of the digital environment, which exploits computer and online technologies’ capacity to be interactive and immersive. As Janet Murray notes, the interactive qualities of digital environments are characterised by their procedural and participatory abilities, while their immersive qualities are characterised by their spatial and encyclopedic dimensions (71–89). These immersive and interactive qualities highlight different ways of reading texts, which entail different embodied and cognitive functions from those that reading print texts requires. As Hayles argues: the advent of electronic textuality presents us with an unparalleled opportunity to reformulate fundamental ideas about texts and, in the process, to see print as well as electronic texts with fresh eyes (89–90). The transition to e-text also highlights how digitality is changing all aspects of everyday life both inside and outside the academy. Online teaching and e-research Another aspect of the commercial arm of publishing that is impacting on academe and other organisations is the digitising and indexing of print content for niche distribution. Kho offers the example of the Mark Logic Corporation, which uses its XML content platform to repurpose content, create new content, and distribute this content through multiple portals. As the promotional website video for Mark Logic explains, academics can use this service to customise their own textbooks for students by including only articles and book chapters that are relevant to their subject. These are then organised, bound, and distributed by Mark Logic for sale to students at a cost that is generally cheaper than most textbooks. A further example of how print and digital materials can form an integrated, customised source for teachers and students is eFictions (Trimmer, Jennings, & Patterson). eFictions was one of the first print and online short story anthologies that teachers of literature could customise to their own needs. Produced as both a print text collection and a website, eFictions offers popular short stories in English by well-known traditional and contemporary writers from the US, Australia, New Zealand, UK, and Europe, with summaries, notes on literary features, author biographies, and, in one instance, a YouTube movie of the story. In using the eFictions website, teachers can build a customised anthology of traditional and innovative stories to suit their teaching preferences. These examples provide useful indicators of how content is constructed, customised, modified, disseminated, and accessed within a distributed network. However, the question remains as to how to measure their impact and outcomes within teaching and learning communities. As Harley suggests in her study on the use and users of digital resources in the humanities and social sciences, several factors warrant attention, such as personal teaching style, philosophy, and specific disciplinary requirements. However, in terms of understanding the benefits of digital resources for teaching and learning, Harley notes that few providers in her sample had developed any plans to evaluate use and users in a systematic way. In addition to the problems raised in Harley’s study, another relates to how researchers can be supported to take full advantage of digital technologies for e-research. The transformation brought about by information and communication technologies extends and broadens the impact of research, by making its outputs more discoverable and usable by other researchers, and its benefits more available to industry, governments, and the wider community. Traditional repositories of knowledge and information, such as libraries, are juggling the space demands of books and computer hardware alongside increasing reader demand for anywhere, anytime, anyplace access to information. Researchers’ expectations about online access to journals, eprints, bibliographic data, and the views of others through wikis, blogs, and associated social and information networking sites such as YouTube compete with the traditional expectations of the institutions that fund libraries for paper-based archives and book repositories. While university libraries are finding it increasingly difficult to purchase all hardcover books relevant to numerous and varied disciplines, a significant proportion of their budgets goes towards digital repositories (e.g., STORS), indexes, and other resources, such as full-text electronic specialised and multidisciplinary journal databases (e.g., Project Muse and Proquest); electronic serials; e-books; and specialised information sources through fast (online) document delivery services. An area that is becoming increasingly significant for those working in the humanities is the digitising of historical and cultural texts. II. Bringing back the dead: The CLDR project The CLDR project is led by researchers and librarians at the Queensland University of Technology, in collaboration with Deakin University, University of Sydney, and members of the AustLit team at The University of Queensland. The CLDR project is a “Research Community” of the electronic bibliographic database AustLit: The Australian Literature Resource, which is working towards the goal of providing a complete bibliographic record of the nation’s literature. AustLit offers users with a single entry point to enhanced scholarly resources on Australian writers, their works, and other aspects of Australian literary culture and activities. AustLit and its Research Communities are supported by grants from the Australian Research Council and financial and in-kind contributions from a consortium of Australian universities, and by other external funding sources such as the National Collaborative Research Infrastructure Strategy. Like other more extensive digitisation projects, such as Project Gutenberg and the Rosetta Project, the CLDR project aims to provide a centralised access point for digital surrogates of early published works of Australian children’s literature, with access pathways to existing resources. The first stage of the CLDR project is to provide access to digitised, full-text, out-of-copyright Australian children’s literature from European settlement to 1945, with selected digitised critical works relevant to the field. Texts comprise a range of genres, including poetry, drama, and narrative for young readers and picture books, songs, and rhymes for infants. Currently, a selection of 75 e-texts and digital scans of original texts from Project Gutenberg and Internet Archive have been linked to the Children’s Literature Research Community. By the end of 2009, the CLDR will have digitised approximately 1000 literary texts and a significant number of critical works. Stage II and subsequent development will involve digitisation of selected texts from 1945 onwards. A precursor to the CLDR project has been undertaken by Deakin University in collaboration with the State Library of Victoria, whereby a digital bibliographic index comprising Victorian School Readers has been completed with plans for full-text digital surrogates of a selection of these texts. These texts provide valuable insights into citizenship, identity, and values formation from the 1930s onwards. At the time of writing, the CLDR is at an early stage of development. An extensive survey of out-of-copyright texts has been completed and the digitisation of these resources is about to commence. The project plans to make rich content searchable, allowing scholars from children’s literature studies and education to benefit from the many advantages of online scholarship. What digital publishing and associated digital archives, electronic texts, hypermedia, and so forth foreground is the fact that writers, readers, publishers, programmers, designers, critics, booksellers, teachers, and copyright laws operate within a context that is highly mediated by technology. In his article on large-scale digitisation projects carried out by Cornell and University of Michigan with the Making of America collection of 19th-century American serials and monographs, Hirtle notes that when special collections’ materials are available via the Web, with appropriate metadata and software, then they can “increase use of the material, contribute to new forms of research, and attract new users to the material” (44). Furthermore, Hirtle contends that despite the poor ergonomics associated with most electronic displays and e-book readers, “people will, when given the opportunity, consult an electronic text over the print original” (46). If this preference is universally accurate, especially for researchers and students, then it follows that not only will the preference for electronic surrogates of original material increase, but preference for other kinds of electronic texts will also increase. It is with this preference for electronic resources in mind that we approached the field of children’s literature in Australia and asked questions about how future generations of researchers would prefer to work. If electronic texts become the reference of choice for primary as well as secondary sources, then it seems sensible to assume that researchers would prefer to sit at the end of the keyboard than to travel considerable distances at considerable cost to access paper-based print texts in distant libraries and archives. We considered the best means for providing access to digitised primary and secondary, full text material, and digital pathways to existing online resources, particularly an extensive indexing and bibliographic database. Prior to the commencement of the CLDR project, AustLit had already indexed an extensive number of children’s literature. Challenges and dilemmas The CLDR project, even in its early stages of development, has encountered a number of challenges and dilemmas that centre on access, copyright, economic capital, and practical aspects of digitisation, and sustainability. These issues have relevance for digital publishing and e-research. A decision is yet to be made as to whether the digital texts in CLDR will be available on open or closed/tolled access. The preference is for open access. As Hayles argues, copyright is more than a legal basis for intellectual property, as it also entails ideas about authorship, creativity, and the work as an “immaterial mental construct” that goes “beyond the paper, binding, or ink” (144). Seeking copyright permission is therefore only part of the issue. Determining how the item will be accessed is a further matter, particularly as future technologies may impact upon how a digital item is used. In the case of e-journals, the issue of copyright payment structures are evolving towards a collective licensing system, pay-per-view, and other combinations of print and electronic subscription (see Hovav and Gray). For research purposes, digitisation of items for CLDR is not simply a scan and deliver process. Rather it is one that needs to ensure that the best quality is provided and that the item is both accessible and usable by researchers, and sustainable for future researchers. Sustainability is an important consideration and provides a challenge for institutions that host projects such as CLDR. Therefore, items need to be scanned to a high quality and this requires an expensive scanner and personnel costs. Files need to be in a variety of formats for preservation purposes and so that they may be manipulated to be useable in different technologies (for example, Archival Tiff, Tiff, Jpeg, PDF, HTML). Hovav and Gray warn that when technology becomes obsolete, then content becomes unreadable unless backward integration is maintained. The CLDR items will be annotatable given AustLit’s NeAt funded project: Aus-e-Lit. The Aus-e-Lit project will extend and enhance the existing AustLit web portal with data integration and search services, empirical reporting services, collaborative annotation services, and compound object authoring, editing, and publishing services. For users to be able to get the most out of a digital item, it needs to be searchable, either through double keying or OCR (optimal character recognition). The value of CLDR’s contribution The value of the CLDR project lies in its goal to provide a comprehensive, searchable body of texts (fictional and critical) to researchers across the humanities and social sciences. Other projects seem to be intent on putting up as many items as possible to be considered as a first resort for online texts. CLDR is more specific and is not interested in simply generating a presence on the Web. Rather, it is research driven both in its design and implementation, and in its focussed outcomes of assisting academics and students primarily in their e-research endeavours. To this end, we have concentrated on the following: an extensive survey of appropriate texts; best models for file location, distribution, and use; and high standards of digitising protocols. These issues that relate to data storage, digitisation, collections, management, and end-users of data are aligned with the “Development of an Australian Research Data Strategy” outlined in An Australian e-Research Strategy and Implementation Framework (2006). CLDR is not designed to simply replicate resources, as it has a distinct focus, audience, and research potential. In addition, it looks at resources that may be forgotten or are no longer available in reproduction by current publishing companies. Thus, the aim of CLDR is to preserve both the time and a period of Australian history and literary culture. It will also provide users with an accessible repository of rare and early texts written for children. III. Future directions It is now commonplace to recognize that the Web’s role as information provider has changed over the past decade. New forms of “collective intelligence” or “distributed cognition” (Oblinger and Lombardi) are emerging within and outside formal research communities. Technology’s capacity to initiate major cultural, social, educational, economic, political and commercial shifts has conditioned us to expect the “next big thing.” We have learnt to adapt swiftly to the many challenges that online technologies have presented, and we have reaped the benefits. As the examples in this discussion have highlighted, the changes in online publishing and digitisation have provided many material, network, pedagogical, and research possibilities: we teach online units providing students with access to e-journals, e-books, and customized archives of digitised materials; we communicate via various online technologies; we attend virtual conferences; and we participate in e-research through a global, digital network. In other words, technology is deeply engrained in our everyday lives. In returning to Frollo’s concern that the book would destroy architecture, Umberto Eco offers a placatory note: “in the history of culture it has never happened that something has simply killed something else. Something has profoundly changed something else” (n. pag.). Eco’s point has relevance to our discussion of digital publishing. The transition from print to digital necessitates a profound change that impacts on the ways we read, write, and research. As we have illustrated with our case study of the CLDR project, the move to creating digitised texts of print literature needs to be considered within a dynamic network of multiple causalities, emergent technological processes, and complex negotiations through which digital texts are created, stored, disseminated, and used. Technological changes in just the past five years have, in many ways, created an expectation in the minds of people that the future is no longer some distant time from the present. 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Centre for Studies in Higher Education. 12 June 2008 ‹http://www.themodernword.com/eco/eco_future_of_book.html>. Hayles, N. Katherine. My Mother was a Computer: Digital Subjects and Literary Texts. Chicago: U of Chicago P, 2005. Hirtle, Peter B. “The Impact of Digitization on Special Collections in Libraries.” Libraries & Culture 37.1 (2002): 42–52. Hovav, Anat and Paul Gray. “Managing Academic E-journals.” Communications of the ACM 47.4 (2004): 79–82. Hugo, Victor. The Hunchback of Notre Dame (Notre-Dame de Paris). Ware, Hertfordshire: Wordsworth editions, 1993. Kho, Nancy D. “The Medium Gets the Message: Post-Print Publishing Models.” EContent 30.6 (2007): 42–48. Oblinger, Diana and Marilyn Lombardi. “Common Knowledge: Openness in Higher Education.” Opening up Education: The Collective Advancement of Education Through Open Technology, Open Content and Open Knowledge. Ed. Toru Liyoshi and M. S. Vijay Kumar. Cambridge, MA: MIT Press, 2007. 389–400. Murray, Janet H. Hamlet on the Holodeck: The Future of Narrative in Cyberspace. Cambridge, MA: MIT Press, 2001. Trimmer, Joseph F., Wade Jennings, and Annette Patterson. eFictions. New York: Harcourt, 2001.