The Experts below are selected from a list of 7800 Experts worldwide ranked by ideXlab platform
Marian Bubak - One of the best experts on this subject based on the ideXlab platform.
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the collage Authoring Environment from proof of concept prototype to pilot service
International Conference on Conceptual Structures, 2013Co-Authors: Eryk Ciepiela, Piotr Nowakowski, Daniel Harezlak, Marek Kasztelnik, Jan Meizner, Grzegorz Dyk, Marian BubakAbstract:Abstract The aim of this paper is to present the pilot service of the Collage Authoring Environment enabling executable scientific publications that is based on the GridSpace2 distributed computing platform and integrated with the online publisher platform ScienceDirect, provided under the auspices of Elsevier. The scope of this paper includes the work carried out when adapting Collage from a proof-of-concept prototype that was awarded the Grand Prize in the Elsevier Executable Paper Grand Challenge into a robust pilot service deployment supporting real-life use cases.
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ICCS - The Collage Authoring Environment: From Proof-of-Concept Prototype to Pilot Service☆
Procedia Computer Science, 2013Co-Authors: Eryk Ciepiela, Piotr Nowakowski, Daniel Harezlak, Marek Kasztelnik, Jan Meizner, Grzegorz Dyk, Marian BubakAbstract:AbstractThe aim of this paper is to present the pilot service of the Collage Authoring Environment enabling executable scientific publications that is based on the GridSpace2 distributed computing platform and integrated with the online publisher platform ScienceDirect, provided under the auspices of Elsevier. The scope of this paper includes the work carried out when adapting Collage from a proof-of-concept prototype that was awarded the Grand Prize in the Elsevier Executable Paper Grand Challenge into a robust pilot service deployment supporting real-life use cases
Eryk Ciepiela - One of the best experts on this subject based on the ideXlab platform.
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the collage Authoring Environment from proof of concept prototype to pilot service
International Conference on Conceptual Structures, 2013Co-Authors: Eryk Ciepiela, Piotr Nowakowski, Daniel Harezlak, Marek Kasztelnik, Jan Meizner, Grzegorz Dyk, Marian BubakAbstract:Abstract The aim of this paper is to present the pilot service of the Collage Authoring Environment enabling executable scientific publications that is based on the GridSpace2 distributed computing platform and integrated with the online publisher platform ScienceDirect, provided under the auspices of Elsevier. The scope of this paper includes the work carried out when adapting Collage from a proof-of-concept prototype that was awarded the Grand Prize in the Elsevier Executable Paper Grand Challenge into a robust pilot service deployment supporting real-life use cases.
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ICCS - The Collage Authoring Environment: From Proof-of-Concept Prototype to Pilot Service☆
Procedia Computer Science, 2013Co-Authors: Eryk Ciepiela, Piotr Nowakowski, Daniel Harezlak, Marek Kasztelnik, Jan Meizner, Grzegorz Dyk, Marian BubakAbstract:AbstractThe aim of this paper is to present the pilot service of the Collage Authoring Environment enabling executable scientific publications that is based on the GridSpace2 distributed computing platform and integrated with the online publisher platform ScienceDirect, provided under the auspices of Elsevier. The scope of this paper includes the work carried out when adapting Collage from a proof-of-concept prototype that was awarded the Grand Prize in the Elsevier Executable Paper Grand Challenge into a robust pilot service deployment supporting real-life use cases
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the collage Authoring Environment
International Conference on Conceptual Structures, 2011Co-Authors: Piotr Nowakowski, Eryk Ciepiela, Daniel Harezlak, J Kocot, Marek Kasztelnik, Tomasz Bartynski, Jan Meizner, Grzegorz Dyk, Maciej MalawskiAbstract:Abstract The Collage Authoring Environment is a software infrastructure which enables domain scientists to collaboratively develop and publish their work in the form of executable papers. It corresponds to the recent developments in both e-Science and computational technologies which call for a novel publishing paradigm. As part of this paradigm, static content (such as traditional scientific publications) should be supplemented with elements of interactivity, enabling reviewers and readers to reexamine the reported results by executing parts of the software on which such results are based as well as access primary scientific data. Taking into account the presented rationale we propose an Environment which enables authors to seamlessly embed chunks of executable code (called assets) into scientific publications and allow repeated execution of such assets on underlying computing and data storage resources, as required by scientists who wish to build upon the presented results. The Collage Authoring Environment can be deployed on arbitrary resources, including those belonging to high performance computing centers, scientific e-Infrastructures and resources contributed by the scientists themselves. The Environment provides access to static content, primary datasets (where exposed by authors) and executable assets. Execution features are provided by a dedicated engine (called the Collage Server) and embedded into an interactive view delivered to readers, resembling a traditional research publication but interactive and collaborative in its scope. Along with a textual description of the Collage Environment the authors also present a prototype implementation, which supports the features described in this paper. The functionality of this prototype is discussed along with theoretical assumptions underpinning the proposed system.
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ICCS - The Collage Authoring Environment
Procedia Computer Science, 2011Co-Authors: Piotr Nowakowski, Eryk Ciepiela, Daniel Harezlak, J Kocot, Marek Kasztelnik, Tomasz Bartynski, Jan Meizner, Grzegorz Dyk, Maciej MalawskiAbstract:AbstractThe Collage Authoring Environment is a software infrastructure which enables domain scientists to collaboratively develop and publish their work in the form of executable papers. It corresponds to the recent developments in both e-Science and computational technologies which call for a novel publishing paradigm. As part of this paradigm, static content (such as traditional scientific publications) should be supplemented with elements of interactivity, enabling reviewers and readers to reexamine the reported results by executing parts of the software on which such results are based as well as access primary scientific data.Taking into account the presented rationale we propose an Environment which enables authors to seamlessly embed chunks of executable code (called assets) into scientific publications and allow repeated execution of such assets on underlying computing and data storage resources, as required by scientists who wish to build upon the presented results. The Collage Authoring Environment can be deployed on arbitrary resources, including those belonging to high performance computing centers, scientific e-Infrastructures and resources contributed by the scientists themselves. The Environment provides access to static content, primary datasets (where exposed by authors) and executable assets. Execution features are provided by a dedicated engine (called the Collage Server) and embedded into an interactive view delivered to readers, resembling a traditional research publication but interactive and collaborative in its scope.Along with a textual description of the Collage Environment the authors also present a prototype implementation, which supports the features described in this paper. The functionality of this prototype is discussed along with theoretical assumptions underpinning the proposed system
Shaaron Ainsworth - One of the best experts on this subject based on the ideXlab platform.
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Using a Single Authoring Environment across the Lifespan of Learning
Educational Technology & Society, 2007Co-Authors: Shaaron AinsworthAbstract:For a single Authoring Environment to be sufficiently general to be applicable to contexts across the whole lifespan of learning, some of the benefits that come from knowledge-rich domain specificity have to be sacrificed. Consequently, it is an open question as to whether it is possible to achieve effective learning Environments from a generic tool. REDEEM is an Authoring Environment that aims to achieve this by creating adapted and interactive learning Environments from existing courseware. In this paper, a 10-year research program is described that has assessed the usability, functionality, and effectiveness of REDEEM’s approach.
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using the redeem its Authoring Environment in naval training
International Conference on Advanced Learning Technologies, 2001Co-Authors: Shaaron Ainsworth, Bill Williams, D WoodAbstract:REDEEM is an ITS Authoring tool that allows instructors to create simple ITS from existing CBT. The authors consider the application of REDEEM to Naval training. Two subject matter experts created learning Environments for naval cadets and reservists. They did so, operating within a very different context to our prior experience of Authoring for the school classroom. The authors consider whether the adaptive pedagogical features that REDEEM provides are appropriate to the needs of adult trainers.
Giuseppe A. Trunfio - One of the best experts on this subject based on the ideXlab platform.
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CDVE - Towards a Cooperative Visual Authoring Environment for Storytelling
Lecture Notes in Computer Science, 1Co-Authors: Ivan Blecic, Arnaldo Cecchini, Giuseppe A. TrunfioAbstract:In this paper we present a methodological approach and a client-server software Authoring Environment for cooperative visual creation of story-outlines. The methodological approach adopted for story outlining facilitates the representation and visualisation of relevant aspects of stories in a way that is easy to use and understand, and enough general to admit a large number of types and genres of stories. Additional design objectives were set in order to support effective cooperative work and rapid story prototyping. © 2008 Springer-Verlag Berlin Heidelberg
Piotr Nowakowski - One of the best experts on this subject based on the ideXlab platform.
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the collage Authoring Environment from proof of concept prototype to pilot service
International Conference on Conceptual Structures, 2013Co-Authors: Eryk Ciepiela, Piotr Nowakowski, Daniel Harezlak, Marek Kasztelnik, Jan Meizner, Grzegorz Dyk, Marian BubakAbstract:Abstract The aim of this paper is to present the pilot service of the Collage Authoring Environment enabling executable scientific publications that is based on the GridSpace2 distributed computing platform and integrated with the online publisher platform ScienceDirect, provided under the auspices of Elsevier. The scope of this paper includes the work carried out when adapting Collage from a proof-of-concept prototype that was awarded the Grand Prize in the Elsevier Executable Paper Grand Challenge into a robust pilot service deployment supporting real-life use cases.
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ICCS - The Collage Authoring Environment: From Proof-of-Concept Prototype to Pilot Service☆
Procedia Computer Science, 2013Co-Authors: Eryk Ciepiela, Piotr Nowakowski, Daniel Harezlak, Marek Kasztelnik, Jan Meizner, Grzegorz Dyk, Marian BubakAbstract:AbstractThe aim of this paper is to present the pilot service of the Collage Authoring Environment enabling executable scientific publications that is based on the GridSpace2 distributed computing platform and integrated with the online publisher platform ScienceDirect, provided under the auspices of Elsevier. The scope of this paper includes the work carried out when adapting Collage from a proof-of-concept prototype that was awarded the Grand Prize in the Elsevier Executable Paper Grand Challenge into a robust pilot service deployment supporting real-life use cases
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the collage Authoring Environment
International Conference on Conceptual Structures, 2011Co-Authors: Piotr Nowakowski, Eryk Ciepiela, Daniel Harezlak, J Kocot, Marek Kasztelnik, Tomasz Bartynski, Jan Meizner, Grzegorz Dyk, Maciej MalawskiAbstract:Abstract The Collage Authoring Environment is a software infrastructure which enables domain scientists to collaboratively develop and publish their work in the form of executable papers. It corresponds to the recent developments in both e-Science and computational technologies which call for a novel publishing paradigm. As part of this paradigm, static content (such as traditional scientific publications) should be supplemented with elements of interactivity, enabling reviewers and readers to reexamine the reported results by executing parts of the software on which such results are based as well as access primary scientific data. Taking into account the presented rationale we propose an Environment which enables authors to seamlessly embed chunks of executable code (called assets) into scientific publications and allow repeated execution of such assets on underlying computing and data storage resources, as required by scientists who wish to build upon the presented results. The Collage Authoring Environment can be deployed on arbitrary resources, including those belonging to high performance computing centers, scientific e-Infrastructures and resources contributed by the scientists themselves. The Environment provides access to static content, primary datasets (where exposed by authors) and executable assets. Execution features are provided by a dedicated engine (called the Collage Server) and embedded into an interactive view delivered to readers, resembling a traditional research publication but interactive and collaborative in its scope. Along with a textual description of the Collage Environment the authors also present a prototype implementation, which supports the features described in this paper. The functionality of this prototype is discussed along with theoretical assumptions underpinning the proposed system.
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ICCS - The Collage Authoring Environment
Procedia Computer Science, 2011Co-Authors: Piotr Nowakowski, Eryk Ciepiela, Daniel Harezlak, J Kocot, Marek Kasztelnik, Tomasz Bartynski, Jan Meizner, Grzegorz Dyk, Maciej MalawskiAbstract:AbstractThe Collage Authoring Environment is a software infrastructure which enables domain scientists to collaboratively develop and publish their work in the form of executable papers. It corresponds to the recent developments in both e-Science and computational technologies which call for a novel publishing paradigm. As part of this paradigm, static content (such as traditional scientific publications) should be supplemented with elements of interactivity, enabling reviewers and readers to reexamine the reported results by executing parts of the software on which such results are based as well as access primary scientific data.Taking into account the presented rationale we propose an Environment which enables authors to seamlessly embed chunks of executable code (called assets) into scientific publications and allow repeated execution of such assets on underlying computing and data storage resources, as required by scientists who wish to build upon the presented results. The Collage Authoring Environment can be deployed on arbitrary resources, including those belonging to high performance computing centers, scientific e-Infrastructures and resources contributed by the scientists themselves. The Environment provides access to static content, primary datasets (where exposed by authors) and executable assets. Execution features are provided by a dedicated engine (called the Collage Server) and embedded into an interactive view delivered to readers, resembling a traditional research publication but interactive and collaborative in its scope.Along with a textual description of the Collage Environment the authors also present a prototype implementation, which supports the features described in this paper. The functionality of this prototype is discussed along with theoretical assumptions underpinning the proposed system
