�ݺ�ߣshows by User: oaod2010

�ݺ�ߣshows by User: oaod2010 / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: oaod2010 / Wed, 15 Dec 2010 01:27:46 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: oaod2010 Guido F. Herrmann: /slideshow/guido-f-herrmann/6171128 presentationguidofherrmanncologne2010-101215012748-phpapp01
The talk presents Thieme's activities in the context of Open Access and Open Data. The presentation also looks at the authors' und the users' perspective and Thieme's practical experiences with both.]]>
The talk presents Thieme's activities in the context of Open Access and Open Data. The presentation also looks at the authors' und the users' perspective and Thieme's practical experiences with both.]]> Wed, 15 Dec 2010 01:27:46 GMT /slideshow/guido-f-herrmann/6171128 oaod2010@slideshare.net(oaod2010) Guido F. Herrmann: oaod2010 The talk presents Thieme's activities in the context of Open Access and Open Data. The presentation also looks at the authors' und the users' perspective and Thieme's practical experiences with both. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/presentationguidofherrmanncologne2010-101215012748-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> The talk presents Thieme's activities in the context of Open Access and Open Data. The presentation also looks at the authors' und the users' perspective and Thieme's practical experiences with both.

Guido F. Herrmann: from "Open Access - Open Data" conference, 13th/14th December, 2010

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0 Jan Velterop: Science publishing: the different interests of record keeping and knowledge transfer /slideshow/jan-velterop-nanopublications-record-keeping-knowledge-transfer/6160175 colognenanopublications-recordkeepingknowledgetransfer-101214085833-phpapp01
Science publications used to have the joint function of keeping the 'Minutes of Science' as well as transferring knowledge. The sheer amounts of material published (2 new articles in PubMed every minute of every day) make comprehensive knowledge transfer via reading of articles virtually impossible. When the literature is open, though, much of the essential knowledge it contains can be distilled and the big picture obtained without having to read all the articles, so that reading can then be reserved for those key articles that give insight in the reasoning and argumentation that leads to consensus. The result is a much more efficient knowledge transfer that doesn't have to compromise on comprehensiveness.]]>
Science publications used to have the joint function of keeping the 'Minutes of Science' as well as transferring knowledge. The sheer amounts of material published (2 new articles in PubMed every minute of every day) make comprehensive knowledge transfer via reading of articles virtually impossible. When the literature is open, though, much of the essential knowledge it contains can be distilled and the big picture obtained without having to read all the articles, so that reading can then be reserved for those key articles that give insight in the reasoning and argumentation that leads to consensus. The result is a much more efficient knowledge transfer that doesn't have to compromise on comprehensiveness.]]> Tue, 14 Dec 2010 08:58:11 GMT /slideshow/jan-velterop-nanopublications-record-keeping-knowledge-transfer/6160175 oaod2010@slideshare.net(oaod2010) Jan Velterop: Science publishing: the different interests of record keeping and knowledge transfer oaod2010 Science publications used to have the joint function of keeping the 'Minutes of Science' as well as transferring knowledge. The sheer amounts of material published (2 new articles in PubMed every minute of every day) make comprehensive knowledge transfer via reading of articles virtually impossible. When the literature is open, though, much of the essential knowledge it contains can be distilled and the big picture obtained without having to read all the articles, so that reading can then be reserved for those key articles that give insight in the reasoning and argumentation that leads to consensus. The result is a much more efficient knowledge transfer that doesn't have to compromise on comprehensiveness. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/colognenanopublications-recordkeepingknowledgetransfer-101214085833-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Science publications used to have the joint function of keeping the 'Minutes of Science' as well as transferring knowledge. The sheer amounts of material published (2 new articles in PubMed every minute of every day) make comprehensive knowledge transfer via reading of articles virtually impossible. When the literature is open, though, much of the essential knowledge it contains can be distilled and the big picture obtained without having to read all the articles, so that reading can then be reserved for those key articles that give insight in the reasoning and argumentation that leads to consensus. The result is a much more efficient knowledge transfer that doesn't have to compromise on comprehensiveness.

Jan Velterop: Science publishing: the different interests of record keeping and knowledge transfer from "Open Access - Open Data" conference, 13th/14th December, 2010

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0 Rainer Kuhlen: A commons-based foundation of open access and other open models /slideshow/rainer-kuhlen/6157287 open-colognefinal-141210-101214045814-phpapp01
Open Access is not only a model for organizing the production, distribution, and usage of knowledge but is also the expression of a new value system which is being developed in electronic environment. This system is mainly based on the concept of knowledge as a commons. Commons is the central concept of knowledge ecology. This is a still an unusual concept. Ecology in general is concerned with the sustainability of natural resources (for instance water, air/climate, forests) by protecting these resources from overuse, and knowledge ecology aims at the same objective of sustainability. But rather than making the immaterial resources of knowledge and information a scarce good (as is necessary with natural resources) sustainability of immaterial goods can only be achieved by the opposite, by open and free access and unrestricted use. The central objective of knowledge ecology is to achieve the goal of people-centered, inclusive and sustainable knowledge societies. In the commons paradigm, a new consensus needs to be achieved concerning traditional concepts such as freedom of information and science, intellectual property, authorship and the nature of knowledge objects in general. Today, with the evident crisis of the market paradigm, not only in the finance markets, but also with respect to the disabling effects of commercialized information markets, with damaging effects not only for education and science and for the private consumer markets, but also for the innovation potential of the entire economy, there is a chance for a renaissance of the old idea of the commons, a renaissance of the primacy of common property rights as opposed to private property rights. The concept of information ecology and in its context the idea of open access provides an alternative both to existing commercial publishing models on the international information markets and to international copyright regulations, which, in the last 20 years, have mainly emphasized the economic impact of knowledge and information. Neither the markets nor regulation by law have taken sufficiently into account the genuine character of knowledge as a common-pool resource. Information ecology does not object to the commercial use of knowledge produced in public environments such as universities and research centers, but suggests that publishing models are only acceptable when they acknowledge the status of knowledge as a commons, allowing free and open access for everyone. This commons must be based on sharing knowledge, producing new knowledge collaboratively, and providing future generations with the same access and usage rights.]]>
Open Access is not only a model for organizing the production, distribution, and usage of knowledge but is also the expression of a new value system which is being developed in electronic environment. This system is mainly based on the concept of knowledge as a commons. Commons is the central concept of knowledge ecology. This is a still an unusual concept. Ecology in general is concerned with the sustainability of natural resources (for instance water, air/climate, forests) by protecting these resources from overuse, and knowledge ecology aims at the same objective of sustainability. But rather than making the immaterial resources of knowledge and information a scarce good (as is necessary with natural resources) sustainability of immaterial goods can only be achieved by the opposite, by open and free access and unrestricted use. The central objective of knowledge ecology is to achieve the goal of people-centered, inclusive and sustainable knowledge societies. In the commons paradigm, a new consensus needs to be achieved concerning traditional concepts such as freedom of information and science, intellectual property, authorship and the nature of knowledge objects in general. Today, with the evident crisis of the market paradigm, not only in the finance markets, but also with respect to the disabling effects of commercialized information markets, with damaging effects not only for education and science and for the private consumer markets, but also for the innovation potential of the entire economy, there is a chance for a renaissance of the old idea of the commons, a renaissance of the primacy of common property rights as opposed to private property rights. The concept of information ecology and in its context the idea of open access provides an alternative both to existing commercial publishing models on the international information markets and to international copyright regulations, which, in the last 20 years, have mainly emphasized the economic impact of knowledge and information. Neither the markets nor regulation by law have taken sufficiently into account the genuine character of knowledge as a common-pool resource. Information ecology does not object to the commercial use of knowledge produced in public environments such as universities and research centers, but suggests that publishing models are only acceptable when they acknowledge the status of knowledge as a commons, allowing free and open access for everyone. This commons must be based on sharing knowledge, producing new knowledge collaboratively, and providing future generations with the same access and usage rights.]]> Tue, 14 Dec 2010 04:58:07 GMT /slideshow/rainer-kuhlen/6157287 oaod2010@slideshare.net(oaod2010) Rainer Kuhlen: A commons-based foundation of open access and other open models oaod2010 Open Access is not only a model for organizing the production, distribution, and usage of knowledge but is also the expression of a new value system which is being developed in electronic environment. This system is mainly based on the concept of knowledge as a commons. Commons is the central concept of knowledge ecology. This is a still an unusual concept. Ecology in general is concerned with the sustainability of natural resources (for instance water, air/climate, forests) by protecting these resources from overuse, and knowledge ecology aims at the same objective of sustainability. But rather than making the immaterial resources of knowledge and information a scarce good (as is necessary with natural resources) sustainability of immaterial goods can only be achieved by the opposite, by open and free access and unrestricted use. The central objective of knowledge ecology is to achieve the goal of people-centered, inclusive and sustainable knowledge societies. In the commons paradigm, a new consensus needs to be achieved concerning traditional concepts such as freedom of information and science, intellectual property, authorship and the nature of knowledge objects in general. Today, with the evident crisis of the market paradigm, not only in the finance markets, but also with respect to the disabling effects of commercialized information markets, with damaging effects not only for education and science and for the private consumer markets, but also for the innovation potential of the entire economy, there is a chance for a renaissance of the old idea of the commons, a renaissance of the primacy of common property rights as opposed to private property rights. The concept of information ecology and in its context the idea of open access provides an alternative both to existing commercial publishing models on the international information markets and to international copyright regulations, which, in the last 20 years, have mainly emphasized the economic impact of knowledge and information. Neither the markets nor regulation by law have taken sufficiently into account the genuine character of knowledge as a common-pool resource. Information ecology does not object to the commercial use of knowledge produced in public environments such as universities and research centers, but suggests that publishing models are only acceptable when they acknowledge the status of knowledge as a commons, allowing free and open access for everyone. This commons must be based on sharing knowledge, producing new knowledge collaboratively, and providing future generations with the same access and usage rights. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/open-colognefinal-141210-101214045814-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Open Access is not only a model for organizing the production, distribution, and usage of knowledge but is also the expression of a new value system which is being developed in electronic environment. This system is mainly based on the concept of knowledge as a commons. Commons is the central concept of knowledge ecology. This is a still an unusual concept. Ecology in general is concerned with the sustainability of natural resources (for instance water, air/climate, forests) by protecting these resources from overuse, and knowledge ecology aims at the same objective of sustainability. But rather than making the immaterial resources of knowledge and information a scarce good (as is necessary with natural resources) sustainability of immaterial goods can only be achieved by the opposite, by open and free access and unrestricted use. The central objective of knowledge ecology is to achieve the goal of people-centered, inclusive and sustainable knowledge societies. In the commons paradigm, a new consensus needs to be achieved concerning traditional concepts such as freedom of information and science, intellectual property, authorship and the nature of knowledge objects in general. Today, with the evident crisis of the market paradigm, not only in the finance markets, but also with respect to the disabling effects of commercialized information markets, with damaging effects not only for education and science and for the private consumer markets, but also for the innovation potential of the entire economy, there is a chance for a renaissance of the old idea of the commons, a renaissance of the primacy of common property rights as opposed to private property rights. The concept of information ecology and in its context the idea of open access provides an alternative both to existing commercial publishing models on the international information markets and to international copyright regulations, which, in the last 20 years, have mainly emphasized the economic impact of knowledge and information. Neither the markets nor regulation by law have taken sufficiently into account the genuine character of knowledge as a common-pool resource. Information ecology does not object to the commercial use of knowledge produced in public environments such as universities and research centers, but suggests that publishing models are only acceptable when they acknowledge the status of knowledge as a commons, allowing free and open access for everyone. This commons must be based on sharing knowledge, producing new knowledge collaboratively, and providing future generations with the same access and usage rights.

Rainer Kuhlen: A commons-based foundation of open access and other open models from "Open Access - Open Data" conference, 13th/14th December, 2010

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0 Derk Haank: Open Access publishing at Springer /slideshow/derk-haank-publishers-open-access-and-open-data-has-anything-changed/6157225 20101214springeropenaccesskoelnderkhaank-101214045533-phpapp02
Mr. Haank addresses Springer's position on Open Access. What has changed over the last years, what has stayed the same? Is hybrid developing into fully open, or will the models co-exist? He also touches upon the issue of (open) data. Making data available in a structured, useful way is much more complex than the current practice of article publishing.]]>
Mr. Haank addresses Springer's position on Open Access. What has changed over the last years, what has stayed the same? Is hybrid developing into fully open, or will the models co-exist? He also touches upon the issue of (open) data. Making data available in a structured, useful way is much more complex than the current practice of article publishing.]]> Tue, 14 Dec 2010 04:55:31 GMT /slideshow/derk-haank-publishers-open-access-and-open-data-has-anything-changed/6157225 oaod2010@slideshare.net(oaod2010) Derk Haank: Open Access publishing at Springer oaod2010 Mr. Haank addresses Springer's position on Open Access. What has changed over the last years, what has stayed the same? Is hybrid developing into fully open, or will the models co-exist? He also touches upon the issue of (open) data. Making data available in a structured, useful way is much more complex than the current practice of article publishing. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/20101214springeropenaccesskoelnderkhaank-101214045533-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Mr. Haank addresses Springer's position on Open Access. What has changed over the last years, what has stayed the same? Is hybrid developing into fully open, or will the models co-exist? He also touches upon the issue of (open) data. Making data available in a structured, useful way is much more complex than the current practice of article publishing.

Derk Haank: Open Access publishing at Springer from "Open Access - Open Data" conference, 13th/14th December, 2010

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0 Jan Brase: Data and Libraries - the DataCite consortium /slideshow/jan-brase-data-and-libraries-the-datacite-consortium/6157106 oaod-brase-101214044626-phpapp02
Today libraries face more and new challenges when enabling access to information. The growing amount of information in combination with new non-textual media-types demands a constant changing of grown workflows and standard definitions. Knowledge, as published through scientific literature, is the last step in a process originating from primary scientific data. These data are analysed, synthesised, interpreted, and the outcome of this process is published as a scientific article. Access to the original data as the foundation of knowledge has become an important issue throughout the world and different projects have started to find solutions. Nevertheless science itself is international; scientists are involved in global unions and projects, they share their scientific information with colleagues all over the world, they use national as well as foreign information providers. When facing the challenge of increasing access to research data, a possible approach should be global cooperation for data access via national representatives: * a global cooperation, because scientists work globally, scientific data are created and accessed globally. * with national representatives, because most scientists are embedded in their national funding structures and research organisations. DataCite was officially launched on December 1st 2009 in London and has 12 information institutions and libraries from nine countries as members. By assigning DOI names to data sets, data becomes citable and can easily be linked to from scientific publications. Data integration with text is an important aspect of scientific collaboration. DataCite takes global leadership for promoting the use of persistent identifiers for datasets, to satisfy the needs of scientists. Through its members, it establishs and promotes common methods, best practices, and guidance. The member organisations work independently with data centres and other holders of research data sets in their own domains. Based on the work of the German National Library of Science and Technology (TIB) as the first DOI-Registration Agency for data, DataCite has registered over 850,000 research objects with DOI names, thus starting to bridge the gap between data centers, publishers and libraries. This presentation will introduce the work of DataCite and give examples how scientific data can be included in library catalogues and linked to from scholarly publications.]]>
Today libraries face more and new challenges when enabling access to information. The growing amount of information in combination with new non-textual media-types demands a constant changing of grown workflows and standard definitions. Knowledge, as published through scientific literature, is the last step in a process originating from primary scientific data. These data are analysed, synthesised, interpreted, and the outcome of this process is published as a scientific article. Access to the original data as the foundation of knowledge has become an important issue throughout the world and different projects have started to find solutions. Nevertheless science itself is international; scientists are involved in global unions and projects, they share their scientific information with colleagues all over the world, they use national as well as foreign information providers. When facing the challenge of increasing access to research data, a possible approach should be global cooperation for data access via national representatives: * a global cooperation, because scientists work globally, scientific data are created and accessed globally. * with national representatives, because most scientists are embedded in their national funding structures and research organisations. DataCite was officially launched on December 1st 2009 in London and has 12 information institutions and libraries from nine countries as members. By assigning DOI names to data sets, data becomes citable and can easily be linked to from scientific publications. Data integration with text is an important aspect of scientific collaboration. DataCite takes global leadership for promoting the use of persistent identifiers for datasets, to satisfy the needs of scientists. Through its members, it establishs and promotes common methods, best practices, and guidance. The member organisations work independently with data centres and other holders of research data sets in their own domains. Based on the work of the German National Library of Science and Technology (TIB) as the first DOI-Registration Agency for data, DataCite has registered over 850,000 research objects with DOI names, thus starting to bridge the gap between data centers, publishers and libraries. This presentation will introduce the work of DataCite and give examples how scientific data can be included in library catalogues and linked to from scholarly publications.]]> Tue, 14 Dec 2010 04:46:20 GMT /slideshow/jan-brase-data-and-libraries-the-datacite-consortium/6157106 oaod2010@slideshare.net(oaod2010) Jan Brase: Data and Libraries - the DataCite consortium oaod2010 Today libraries face more and new challenges when enabling access to information. The growing amount of information in combination with new non-textual media-types demands a constant changing of grown workflows and standard definitions. Knowledge, as published through scientific literature, is the last step in a process originating from primary scientific data. These data are analysed, synthesised, interpreted, and the outcome of this process is published as a scientific article. Access to the original data as the foundation of knowledge has become an important issue throughout the world and different projects have started to find solutions. Nevertheless science itself is international; scientists are involved in global unions and projects, they share their scientific information with colleagues all over the world, they use national as well as foreign information providers. When facing the challenge of increasing access to research data, a possible approach should be global cooperation for data access via national representatives: * a global cooperation, because scientists work globally, scientific data are created and accessed globally. * with national representatives, because most scientists are embedded in their national funding structures and research organisations. DataCite was officially launched on December 1st 2009 in London and has 12 information institutions and libraries from nine countries as members. By assigning DOI names to data sets, data becomes citable and can easily be linked to from scientific publications. Data integration with text is an important aspect of scientific collaboration. DataCite takes global leadership for promoting the use of persistent identifiers for datasets, to satisfy the needs of scientists. Through its members, it establishs and promotes common methods, best practices, and guidance. The member organisations work independently with data centres and other holders of research data sets in their own domains. Based on the work of the German National Library of Science and Technology (TIB) as the first DOI-Registration Agency for data, DataCite has registered over 850,000 research objects with DOI names, thus starting to bridge the gap between data centers, publishers and libraries. This presentation will introduce the work of DataCite and give examples how scientific data can be included in library catalogues and linked to from scholarly publications. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/oaod-brase-101214044626-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Today libraries face more and new challenges when enabling access to information. The growing amount of information in combination with new non-textual media-types demands a constant changing of grown workflows and standard definitions. Knowledge, as published through scientific literature, is the last step in a process originating from primary scientific data. These data are analysed, synthesised, interpreted, and the outcome of this process is published as a scientific article. Access to the original data as the foundation of knowledge has become an important issue throughout the world and different projects have started to find solutions. Nevertheless science itself is international; scientists are involved in global unions and projects, they share their scientific information with colleagues all over the world, they use national as well as foreign information providers. When facing the challenge of increasing access to research data, a possible approach should be global cooperation for data access via national representatives: * a global cooperation, because scientists work globally, scientific data are created and accessed globally. * with national representatives, because most scientists are embedded in their national funding structures and research organisations. DataCite was officially launched on December 1st 2009 in London and has 12 information institutions and libraries from nine countries as members. By assigning DOI names to data sets, data becomes citable and can easily be linked to from scientific publications. Data integration with text is an important aspect of scientific collaboration. DataCite takes global leadership for promoting the use of persistent identifiers for datasets, to satisfy the needs of scientists. Through its members, it establishs and promotes common methods, best practices, and guidance. The member organisations work independently with data centres and other holders of research data sets in their own domains. Based on the work of the German National Library of Science and Technology (TIB) as the first DOI-Registration Agency for data, DataCite has registered over 850,000 research objects with DOI names, thus starting to bridge the gap between data centers, publishers and libraries. This presentation will introduce the work of DataCite and give examples how scientific data can be included in library catalogues and linked to from scholarly publications.

Jan Brase: Data and Libraries - the DataCite consortium from "Open Access - Open Data" conference, 13th/14th December, 2010

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0 Martin Rasmussen: Ensuring availability and quality of research data through Open Access and public peer review /slideshow/martin-rasmussen-ensuring-availability-and-quality-of-research-data-through-open-access-and-public-peer-review/6157050 oaod2010rasmussen2010-12-13-101214044127-phpapp01
The scientific and economic value of research data is enormous. To ensure successful subsequent usage, the scientific community needs efficient access to data, the data has to be reliable and persistent, and the quality of the data has to be proved. One solution to these preconditions is to apply the techniques of today’s scientific publishing to research data. Besides its publication in a data repository together with some metadata, the data should undergo a transparent public peer-review using a publication platform. The presentation discusses two approaches. On the one hand, the data can be the basis for a research article and undergoes a review parallel to the review of the manuscript. The data is then a reviewed supplement to a scientific publication. On the other hand, the data itself can be the subject of a publication whose quality is then assured by peers. The presentation provides practical experience, especially with the latter strategy, realized through an established open access journal.]]>
The scientific and economic value of research data is enormous. To ensure successful subsequent usage, the scientific community needs efficient access to data, the data has to be reliable and persistent, and the quality of the data has to be proved. One solution to these preconditions is to apply the techniques of today’s scientific publishing to research data. Besides its publication in a data repository together with some metadata, the data should undergo a transparent public peer-review using a publication platform. The presentation discusses two approaches. On the one hand, the data can be the basis for a research article and undergoes a review parallel to the review of the manuscript. The data is then a reviewed supplement to a scientific publication. On the other hand, the data itself can be the subject of a publication whose quality is then assured by peers. The presentation provides practical experience, especially with the latter strategy, realized through an established open access journal.]]> Tue, 14 Dec 2010 04:41:21 GMT /slideshow/martin-rasmussen-ensuring-availability-and-quality-of-research-data-through-open-access-and-public-peer-review/6157050 oaod2010@slideshare.net(oaod2010) Martin Rasmussen: Ensuring availability and quality of research data through Open Access and public peer review oaod2010 The scientific and economic value of research data is enormous. To ensure successful subsequent usage, the scientific community needs efficient access to data, the data has to be reliable and persistent, and the quality of the data has to be proved. One solution to these preconditions is to apply the techniques of today’s scientific publishing to research data. Besides its publication in a data repository together with some metadata, the data should undergo a transparent public peer-review using a publication platform. The presentation discusses two approaches. On the one hand, the data can be the basis for a research article and undergoes a review parallel to the review of the manuscript. The data is then a reviewed supplement to a scientific publication. On the other hand, the data itself can be the subject of a publication whose quality is then assured by peers. The presentation provides practical experience, especially with the latter strategy, realized through an established open access journal. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/oaod2010rasmussen2010-12-13-101214044127-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> The scientific and economic value of research data is enormous. To ensure successful subsequent usage, the scientific community needs efficient access to data, the data has to be reliable and persistent, and the quality of the data has to be proved. One solution to these preconditions is to apply the techniques of today’s scientific publishing to research data. Besides its publication in a data repository together with some metadata, the data should undergo a transparent public peer-review using a publication platform. The presentation discusses two approaches. On the one hand, the data can be the basis for a research article and undergoes a review parallel to the review of the manuscript. The data is then a reviewed supplement to a scientific publication. On the other hand, the data itself can be the subject of a publication whose quality is then assured by peers. The presentation provides practical experience, especially with the latter strategy, realized through an established open access journal.

Martin Rasmussen: Ensuring availability and quality of research data through Open Access and public peer review from "Open Access - Open Data" conference, 13th/14th December, 2010

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0 Andreas Hense: Climate data for our future – acquired, analysed, archived /slideshow/andreas-hense/6155984 20101213andreashensecologne-101214030404-phpapp01
Publication and long term archival of observational data in the field of environmental sciences is a challenging topic of today's eScience research. The amount of effort that goes into technical and scientific quality assurance prior to publication is considerable and might well turn out to be a barrier to data publication. Our project's goal is to lower the amount of manual effort and, at the same time, increase data quality in the process of submitting observational data for publication – in this case meteorological observational data. This goal is divided into the following subgoals: Establish a standard procedure for the publication of observational data in the area of meteorology including quality information. Develop a workflow system for the automatisation of the publication process. Make the procedure usable for environmental sciences in general. Integration of the procedure into an existing central data repository for meteorology (CERA data base at the World Data Center for Climate). This talk is about the current state of the project from an eResearch and technical point of view.]]>
Publication and long term archival of observational data in the field of environmental sciences is a challenging topic of today's eScience research. The amount of effort that goes into technical and scientific quality assurance prior to publication is considerable and might well turn out to be a barrier to data publication. Our project's goal is to lower the amount of manual effort and, at the same time, increase data quality in the process of submitting observational data for publication – in this case meteorological observational data. This goal is divided into the following subgoals: Establish a standard procedure for the publication of observational data in the area of meteorology including quality information. Develop a workflow system for the automatisation of the publication process. Make the procedure usable for environmental sciences in general. Integration of the procedure into an existing central data repository for meteorology (CERA data base at the World Data Center for Climate). This talk is about the current state of the project from an eResearch and technical point of view.]]> Tue, 14 Dec 2010 03:03:59 GMT /slideshow/andreas-hense/6155984 oaod2010@slideshare.net(oaod2010) Andreas Hense: Climate data for our future – acquired, analysed, archived oaod2010 Publication and long term archival of observational data in the field of environmental sciences is a challenging topic of today's eScience research. The amount of effort that goes into technical and scientific quality assurance prior to publication is considerable and might well turn out to be a barrier to data publication. Our project's goal is to lower the amount of manual effort and, at the same time, increase data quality in the process of submitting observational data for publication – in this case meteorological observational data. This goal is divided into the following subgoals: Establish a standard procedure for the publication of observational data in the area of meteorology including quality information. Develop a workflow system for the automatisation of the publication process. Make the procedure usable for environmental sciences in general. Integration of the procedure into an existing central data repository for meteorology (CERA data base at the World Data Center for Climate). This talk is about the current state of the project from an eResearch and technical point of view. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/20101213andreashensecologne-101214030404-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Publication and long term archival of observational data in the field of environmental sciences is a challenging topic of today's eScience research. The amount of effort that goes into technical and scientific quality assurance prior to publication is considerable and might well turn out to be a barrier to data publication. Our project's goal is to lower the amount of manual effort and, at the same time, increase data quality in the process of submitting observational data for publication – in this case meteorological observational data. This goal is divided into the following subgoals: Establish a standard procedure for the publication of observational data in the area of meteorology including quality information. Develop a workflow system for the automatisation of the publication process. Make the procedure usable for environmental sciences in general. Integration of the procedure into an existing central data repository for meteorology (CERA data base at the World Data Center for Climate). This talk is about the current state of the project from an eResearch and technical point of view.

Andreas Hense: Climate data for our future – acquired, analysed, archived from "Open Access - Open Data" conference, 13th/14th December, 2010

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0 Anita Eppelin: Open Access and Open Data in Germany: current political developments and grassroots approaches /slideshow/anita-eppelin-open-access-and-open-data-in-germany-current-political-developments-and-grassroots-approaches/6155911 eppelinoaod2010neu-101214025659-phpapp02
In scientific communication, we observe a complex interaction of several stakeholder groups, each of which have distinct interests, strategies and approaches for Open Access and Open Data. The German government initiated a “Commission for the Future of the Information Infrastructure” (KII) in Germany. In this commission, most of the stakeholders are working together in order to design a future scenario for the supply of scientific information. The KII’s evaluation and recommendations for Open Access as well as research data will be particularly highly recognized and will significantly influence Open Access and Open Data developments in Germany. I will outline the current situation in Germany – players and their interactions in terms of Open Access and Open Data – and present two initiatives and their work in detail. One of them, the KII process, will show the official site, the other one will show the grassroots site of the story.]]>
In scientific communication, we observe a complex interaction of several stakeholder groups, each of which have distinct interests, strategies and approaches for Open Access and Open Data. The German government initiated a “Commission for the Future of the Information Infrastructure” (KII) in Germany. In this commission, most of the stakeholders are working together in order to design a future scenario for the supply of scientific information. The KII’s evaluation and recommendations for Open Access as well as research data will be particularly highly recognized and will significantly influence Open Access and Open Data developments in Germany. I will outline the current situation in Germany – players and their interactions in terms of Open Access and Open Data – and present two initiatives and their work in detail. One of them, the KII process, will show the official site, the other one will show the grassroots site of the story.]]> Tue, 14 Dec 2010 02:56:45 GMT /slideshow/anita-eppelin-open-access-and-open-data-in-germany-current-political-developments-and-grassroots-approaches/6155911 oaod2010@slideshare.net(oaod2010) Anita Eppelin: Open Access and Open Data in Germany: current political developments and grassroots approaches oaod2010 In scientific communication, we observe a complex interaction of several stakeholder groups, each of which have distinct interests, strategies and approaches for Open Access and Open Data. The German government initiated a “Commission for the Future of the Information Infrastructure” (KII) in Germany. In this commission, most of the stakeholders are working together in order to design a future scenario for the supply of scientific information. The KII’s evaluation and recommendations for Open Access as well as research data will be particularly highly recognized and will significantly influence Open Access and Open Data developments in Germany. I will outline the current situation in Germany – players and their interactions in terms of Open Access and Open Data – and present two initiatives and their work in detail. One of them, the KII process, will show the official site, the other one will show the grassroots site of the story. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/eppelinoaod2010neu-101214025659-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> In scientific communication, we observe a complex interaction of several stakeholder groups, each of which have distinct interests, strategies and approaches for Open Access and Open Data. The German government initiated a “Commission for the Future of the Information Infrastructure” (KII) in Germany. In this commission, most of the stakeholders are working together in order to design a future scenario for the supply of scientific information. The KII’s evaluation and recommendations for Open Access as well as research data will be particularly highly recognized and will significantly influence Open Access and Open Data developments in Germany. I will outline the current situation in Germany – players and their interactions in terms of Open Access and Open Data – and present two initiatives and their work in detail. One of them, the KII process, will show the official site, the other one will show the grassroots site of the story.

Anita Eppelin: Open Access and Open Data in Germany: current political developments and grassroots approaches from "Open Access - Open Data" conference, 13th/14th December, 2010

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0 Sünje Dallmeier-Tiessen: Research data "publishing": models, roles and responsibilities /slideshow/snje-dallmeiertiessen-research-data-models-roles-and-responsibilities/6155834 openaccessopendatasdtsnjedallmeier-tiessen-101214025444-phpapp02
Research data as the main product of research can be unique and is often the result of a complex and cost-intensive research process. Reuse and reinterpretation of such material is envisioned, not only to maintain research integrity, but also to accelerate the advancement of science by sharing results in an early stage. Generally speaking, there is little general experience with preservation, provision and publishing of research data. Thus so far little research has been done when it comes to researching data publishing models. In history, this has partly been due to the limited existing infrastructures, but with current information technologies, modern and tailored research data provision and publishing are facilitated. Why tailored? Characteristics of research data vary across and within disciplines. This results in more complex prerequisites/specification when compared to the process of paper publication which is very similar across disciplines. Thus, tailored models are necessary to match the individual characteristics of research data across disciplines. Within this presentation three different approaches are distinguished: object centric, text centric and data centric. Prerequisites and limitations regarding timing and room of the data provision will be discussed and experiences with each of the different models presented. Regardless of these models, it becomes apparent that due to the individual characteristics of research data, its provision and publication is only possible with the support and knowhow of the research community. This know-how needs to be linked to the competences of infrastructure facilities.]]>
Research data as the main product of research can be unique and is often the result of a complex and cost-intensive research process. Reuse and reinterpretation of such material is envisioned, not only to maintain research integrity, but also to accelerate the advancement of science by sharing results in an early stage. Generally speaking, there is little general experience with preservation, provision and publishing of research data. Thus so far little research has been done when it comes to researching data publishing models. In history, this has partly been due to the limited existing infrastructures, but with current information technologies, modern and tailored research data provision and publishing are facilitated. Why tailored? Characteristics of research data vary across and within disciplines. This results in more complex prerequisites/specification when compared to the process of paper publication which is very similar across disciplines. Thus, tailored models are necessary to match the individual characteristics of research data across disciplines. Within this presentation three different approaches are distinguished: object centric, text centric and data centric. Prerequisites and limitations regarding timing and room of the data provision will be discussed and experiences with each of the different models presented. Regardless of these models, it becomes apparent that due to the individual characteristics of research data, its provision and publication is only possible with the support and knowhow of the research community. This know-how needs to be linked to the competences of infrastructure facilities.]]> Tue, 14 Dec 2010 02:53:16 GMT /slideshow/snje-dallmeiertiessen-research-data-models-roles-and-responsibilities/6155834 oaod2010@slideshare.net(oaod2010) Sünje Dallmeier-Tiessen: Research data "publishing": models, roles and responsibilities oaod2010 Research data as the main product of research can be unique and is often the result of a complex and cost-intensive research process. Reuse and reinterpretation of such material is envisioned, not only to maintain research integrity, but also to accelerate the advancement of science by sharing results in an early stage. Generally speaking, there is little general experience with preservation, provision and publishing of research data. Thus so far little research has been done when it comes to researching data publishing models. In history, this has partly been due to the limited existing infrastructures, but with current information technologies, modern and tailored research data provision and publishing are facilitated. Why tailored? Characteristics of research data vary across and within disciplines. This results in more complex prerequisites/specification when compared to the process of paper publication which is very similar across disciplines. Thus, tailored models are necessary to match the individual characteristics of research data across disciplines. Within this presentation three different approaches are distinguished: object centric, text centric and data centric. Prerequisites and limitations regarding timing and room of the data provision will be discussed and experiences with each of the different models presented. Regardless of these models, it becomes apparent that due to the individual characteristics of research data, its provision and publication is only possible with the support and knowhow of the research community. This know-how needs to be linked to the competences of infrastructure facilities. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/openaccessopendatasdtsnjedallmeier-tiessen-101214025444-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Research data as the main product of research can be unique and is often the result of a complex and cost-intensive research process. Reuse and reinterpretation of such material is envisioned, not only to maintain research integrity, but also to accelerate the advancement of science by sharing results in an early stage. Generally speaking, there is little general experience with preservation, provision and publishing of research data. Thus so far little research has been done when it comes to researching data publishing models. In history, this has partly been due to the limited existing infrastructures, but with current information technologies, modern and tailored research data provision and publishing are facilitated. Why tailored? Characteristics of research data vary across and within disciplines. This results in more complex prerequisites/specification when compared to the process of paper publication which is very similar across disciplines. Thus, tailored models are necessary to match the individual characteristics of research data across disciplines. Within this presentation three different approaches are distinguished: object centric, text centric and data centric. Prerequisites and limitations regarding timing and room of the data provision will be discussed and experiences with each of the different models presented. Regardless of these models, it becomes apparent that due to the individual characteristics of research data, its provision and publication is only possible with the support and knowhow of the research community. This know-how needs to be linked to the competences of infrastructure facilities.

S端nje Dallmeier-Tiessen: Research data "publishing": models, roles and responsibilities from "Open Access - Open Data" conference, 13th/14th December, 2010

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0 Celina Ramjoué: Open Access in the European Research Area (ERA) /slideshow/celina-ramjou-open-access-in-the-european-research-area-era/6155760 2010-12-13-open-datakoelnramjoue-101214024226-phpapp02
This presentation gives an overview of European Commission policies and initiatives aiming to promote open access to scientific information in the European Research Area (ERA). In this policy area, the Commission acts both as a policymaking and as a funding body. As policymaker, it defines policies within the context of European research and ICT policy. As a funding body, it lays down rules on access to the results of the research it funds within the Framework Programme for research development. This contribution introduces the European Commission's general approach regarding access to scientific information, presents specific initiatives in the field of open access to peer-reviewed scientific publications, and develops a first approach to open access to data.]]>
This presentation gives an overview of European Commission policies and initiatives aiming to promote open access to scientific information in the European Research Area (ERA). In this policy area, the Commission acts both as a policymaking and as a funding body. As policymaker, it defines policies within the context of European research and ICT policy. As a funding body, it lays down rules on access to the results of the research it funds within the Framework Programme for research development. This contribution introduces the European Commission's general approach regarding access to scientific information, presents specific initiatives in the field of open access to peer-reviewed scientific publications, and develops a first approach to open access to data.]]> Tue, 14 Dec 2010 02:41:53 GMT /slideshow/celina-ramjou-open-access-in-the-european-research-area-era/6155760 oaod2010@slideshare.net(oaod2010) Celina Ramjoué: Open Access in the European Research Area (ERA) oaod2010 This presentation gives an overview of European Commission policies and initiatives aiming to promote open access to scientific information in the European Research Area (ERA). In this policy area, the Commission acts both as a policymaking and as a funding body. As policymaker, it defines policies within the context of European research and ICT policy. As a funding body, it lays down rules on access to the results of the research it funds within the Framework Programme for research development. This contribution introduces the European Commission's general approach regarding access to scientific information, presents specific initiatives in the field of open access to peer-reviewed scientific publications, and develops a first approach to open access to data. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2010-12-13-open-datakoelnramjoue-101214024226-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> This presentation gives an overview of European Commission policies and initiatives aiming to promote open access to scientific information in the European Research Area (ERA). In this policy area, the Commission acts both as a policymaking and as a funding body. As policymaker, it defines policies within the context of European research and ICT policy. As a funding body, it lays down rules on access to the results of the research it funds within the Framework Programme for research development. This contribution introduces the European Commission's general approach regarding access to scientific information, presents specific initiatives in the field of open access to peer-reviewed scientific publications, and develops a first approach to open access to data.

Celina Ramjou辿: Open Access in the European Research Area (ERA) from "Open Access - Open Data" conference, 13th/14th December, 2010

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0 Toby Green: Data, data everywhere /slideshow/toby-green-data-data-everywhere/6155628 datadataeverywhereopenaccessoendatameetingkoln-101214022912-phpapp02
Open access promises a great deal, but will your dataset be lost in cyberspace and remain unused? What are you doing to ensure discovery and utility for a range of publics? In this session you'll learn about the work done at OECD to make data both discoverable and useful to experts and lay users alike. You'll be introduced to OECD's citation tool and see some of the visualizations being developed to make data tell stories. You'll also see how OECD is presenting its datasets alongside books and journals in a single, seamless, service that is part of the global information network for researchers and students. Finally, Christmas comes early for anyone with an iPhone or iPad. Open Data? There's an OECD App for that.]]>
Open access promises a great deal, but will your dataset be lost in cyberspace and remain unused? What are you doing to ensure discovery and utility for a range of publics? In this session you'll learn about the work done at OECD to make data both discoverable and useful to experts and lay users alike. You'll be introduced to OECD's citation tool and see some of the visualizations being developed to make data tell stories. You'll also see how OECD is presenting its datasets alongside books and journals in a single, seamless, service that is part of the global information network for researchers and students. Finally, Christmas comes early for anyone with an iPhone or iPad. Open Data? There's an OECD App for that.]]> Tue, 14 Dec 2010 02:29:09 GMT /slideshow/toby-green-data-data-everywhere/6155628 oaod2010@slideshare.net(oaod2010) Toby Green: Data, data everywhere oaod2010 Open access promises a great deal, but will your dataset be lost in cyberspace and remain unused? What are you doing to ensure discovery and utility for a range of publics? In this session you'll learn about the work done at OECD to make data both discoverable and useful to experts and lay users alike. You'll be introduced to OECD's citation tool and see some of the visualizations being developed to make data tell stories. You'll also see how OECD is presenting its datasets alongside books and journals in a single, seamless, service that is part of the global information network for researchers and students. Finally, Christmas comes early for anyone with an iPhone or iPad. Open Data? There's an OECD App for that. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/datadataeverywhereopenaccessoendatameetingkoln-101214022912-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Open access promises a great deal, but will your dataset be lost in cyberspace and remain unused? What are you doing to ensure discovery and utility for a range of publics? In this session you'll learn about the work done at OECD to make data both discoverable and useful to experts and lay users alike. You'll be introduced to OECD's citation tool and see some of the visualizations being developed to make data tell stories. You'll also see how OECD is presenting its datasets alongside books and journals in a single, seamless, service that is part of the global information network for researchers and students. Finally, Christmas comes early for anyone with an iPhone or iPad. Open Data? There's an OECD App for that.

Toby Green: Data, data everywhere from "Open Access - Open Data" conference, 13th/14th December, 2010

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0 Alma Swan: The Open Access advantage /slideshow/alma-swan-the-open-access-advantage/6155615 swan-colognedec2010-101214022726-phpapp02
Almost thirty studies have now been carried out to verify whether or not there is a citation advantage from Open Access. These will be reviewed and some conclusions drawn as to whether Open Access does produce such an advantage and what its nature is. In addition, other advantages - for authors, institutions and nations - from Open Access will be presented and discussed.]]>
Almost thirty studies have now been carried out to verify whether or not there is a citation advantage from Open Access. These will be reviewed and some conclusions drawn as to whether Open Access does produce such an advantage and what its nature is. In addition, other advantages - for authors, institutions and nations - from Open Access will be presented and discussed.]]> Tue, 14 Dec 2010 02:27:21 GMT /slideshow/alma-swan-the-open-access-advantage/6155615 oaod2010@slideshare.net(oaod2010) Alma Swan: The Open Access advantage oaod2010 Almost thirty studies have now been carried out to verify whether or not there is a citation advantage from Open Access. These will be reviewed and some conclusions drawn as to whether Open Access does produce such an advantage and what its nature is. In addition, other advantages - for authors, institutions and nations - from Open Access will be presented and discussed. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/swan-colognedec2010-101214022726-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> Almost thirty studies have now been carried out to verify whether or not there is a citation advantage from Open Access. These will be reviewed and some conclusions drawn as to whether Open Access does produce such an advantage and what its nature is. In addition, other advantages - for authors, institutions and nations - from Open Access will be presented and discussed.

Alma Swan: The Open Access advantage from "Open Access - Open Data" conference, 13th/14th December, 2010

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0 Stevan Harnad: Open Access - Open Data: similarities and differences /slideshow/oa-oa-self-archiving-oa-publishing-and-data-archiving/6155518 harnad-cologne-101214021904-phpapp01
Open Access (OA) means free online access to the 2.5 million articles published every year in the world's 25,000 peer-reviewed scholarly and scientific research journals. OA can be provided in two ways: To provide "Green OA," authors self-archive the final refereed drafts of their articles in their institutional OA repositories immediately upon acceptance for publication (by conventional, non-OA journals). To provide "Gold OA," authors publish their articles in OA journals that make all their articles free online immediately upon publication. (Sometimes a fee is charged to the author's institution for Gold OA.) Because of the benefits of OA (in terms of maximized visibility, accessibility, uptake, usage and impact) to research, researchers, their institutions and the taxpayers that fund them, institutions and funders worldwide are increasingly mandating (i.e. requiring) Green OA self-archiving. Gold OA publishing cannot be mandated by authors' institutions and funders, but universal Green OA self-archiving mandates may eventually lead to a global transition to Gold OA publishing; it depends on whether and how long subscriptions remain sustainable as the means of covering the costs of print and online publication; if subscriptions become unsustainable, authors' institutions will pay journal publishers for peer review out of a portion of their annual windfall subscription cancellation savings. Data-archiving cannot be mandated, because researchers must be allowed the exclusive right to mine their data they have collected if they wish; but as Green OA self-archiving grows, data-archiving too will grow, because of their natural complementarity and the power of global collaboration to accelerate and enhance research progress.]]>
Open Access (OA) means free online access to the 2.5 million articles published every year in the world's 25,000 peer-reviewed scholarly and scientific research journals. OA can be provided in two ways: To provide "Green OA," authors self-archive the final refereed drafts of their articles in their institutional OA repositories immediately upon acceptance for publication (by conventional, non-OA journals). To provide "Gold OA," authors publish their articles in OA journals that make all their articles free online immediately upon publication. (Sometimes a fee is charged to the author's institution for Gold OA.) Because of the benefits of OA (in terms of maximized visibility, accessibility, uptake, usage and impact) to research, researchers, their institutions and the taxpayers that fund them, institutions and funders worldwide are increasingly mandating (i.e. requiring) Green OA self-archiving. Gold OA publishing cannot be mandated by authors' institutions and funders, but universal Green OA self-archiving mandates may eventually lead to a global transition to Gold OA publishing; it depends on whether and how long subscriptions remain sustainable as the means of covering the costs of print and online publication; if subscriptions become unsustainable, authors' institutions will pay journal publishers for peer review out of a portion of their annual windfall subscription cancellation savings. Data-archiving cannot be mandated, because researchers must be allowed the exclusive right to mine their data they have collected if they wish; but as Green OA self-archiving grows, data-archiving too will grow, because of their natural complementarity and the power of global collaboration to accelerate and enhance research progress.]]> Tue, 14 Dec 2010 02:19:00 GMT /slideshow/oa-oa-self-archiving-oa-publishing-and-data-archiving/6155518 oaod2010@slideshare.net(oaod2010) Stevan Harnad: Open Access - Open Data: similarities and differences oaod2010 Open Access (OA) means free online access to the 2.5 million articles published every year in the world's 25,000 peer-reviewed scholarly and scientific research journals. OA can be provided in two ways: To provide "Green OA," authors self-archive the final refereed drafts of their articles in their institutional OA repositories immediately upon acceptance for publication (by conventional, non-OA journals). To provide "Gold OA," authors publish their articles in OA journals that make all their articles free online immediately upon publication. (Sometimes a fee is charged to the author's institution for Gold OA.) Because of the benefits of OA (in terms of maximized visibility, accessibility, uptake, usage and impact) to research, researchers, their institutions and the taxpayers that fund them, institutions and funders worldwide are increasingly mandating (i.e. requiring) Green OA self-archiving. Gold OA publishing cannot be mandated by authors' institutions and funders, but universal Green OA self-archiving mandates may eventually lead to a global transition to Gold OA publishing; it depends on whether and how long subscriptions remain sustainable as the means of covering the costs of print and online publication; if subscriptions become unsustainable, authors' institutions will pay journal publishers for peer review out of a portion of their annual windfall subscription cancellation savings. Data-archiving cannot be mandated, because researchers must be allowed the exclusive right to mine their data they have collected if they wish; but as Green OA self-archiving grows, data-archiving too will grow, because of their natural complementarity and the power of global collaboration to accelerate and enhance research progress. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/harnad-cologne-101214021904-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" /> Open Access (OA) means free online access to the 2.5 million articles published every year in the world's 25,000 peer-reviewed scholarly and scientific research journals. OA can be provided in two ways: To provide "Green OA," authors self-archive the final refereed drafts of their articles in their institutional OA repositories immediately upon acceptance for publication (by conventional, non-OA journals). To provide "Gold OA," authors publish their articles in OA journals that make all their articles free online immediately upon publication. (Sometimes a fee is charged to the author's institution for Gold OA.) Because of the benefits of OA (in terms of maximized visibility, accessibility, uptake, usage and impact) to research, researchers, their institutions and the taxpayers that fund them, institutions and funders worldwide are increasingly mandating (i.e. requiring) Green OA self-archiving. Gold OA publishing cannot be mandated by authors' institutions and funders, but universal Green OA self-archiving mandates may eventually lead to a global transition to Gold OA publishing; it depends on whether and how long subscriptions remain sustainable as the means of covering the costs of print and online publication; if subscriptions become unsustainable, authors' institutions will pay journal publishers for peer review out of a portion of their annual windfall subscription cancellation savings. Data-archiving cannot be mandated, because researchers must be allowed the exclusive right to mine their data they have collected if they wish; but as Green OA self-archiving grows, data-archiving too will grow, because of their natural complementarity and the power of global collaboration to accelerate and enhance research progress.

Stevan Harnad: Open Access - Open Data: similarities and differences from "Open Access - Open Data" conference, 13th/14th December, 2010

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0 Malcolm Read: Drivers for Open Access and Data - a funder's perspective /slideshow/cologne-open-access-slides-dec-2010-6079665/6079665 cologneopenaccessslidesdec2010-101208110518-phpapp02
There has long been a view that the outputs of publicly funded research should be publicly available. By this was meant research papers and findings, and it was not felt that publication in journals and monographs that were virtually unavailable at reasonable cost outside universities fully met this need. Open Access is not an attack on peer review or the scholarly publishing industry (although there are real concerns about escalating costs which can no longer be afforded by many universities). The move to open data is driven by more complex arguments bound up by the need to be more open in demonstrating the uncertain nature of many scientific findings, and the need to manage research data more professionally, yet ensure sensitive or commercially valuable data can be kept secure. This talk will explain the synergies and ambiguities between open policies and the individual drivers for career researchers and those of universities seeking to balance their responsibilities to society with commercial considerations. ]]>
There has long been a view that the outputs of publicly funded research should be publicly available. By this was meant research papers and findings, and it was not felt that publication in journals and monographs that were virtually unavailable at reasonable cost outside universities fully met this need. Open Access is not an attack on peer review or the scholarly publishing industry (although there are real concerns about escalating costs which can no longer be afforded by many universities). The move to open data is driven by more complex arguments bound up by the need to be more open in demonstrating the uncertain nature of many scientific findings, and the need to manage research data more professionally, yet ensure sensitive or commercially valuable data can be kept secure. This talk will explain the synergies and ambiguities between open policies and the individual drivers for career researchers and those of universities seeking to balance their responsibilities to society with commercial considerations. ]]> Wed, 08 Dec 2010 11:05:10 GMT /slideshow/cologne-open-access-slides-dec-2010-6079665/6079665 oaod2010@slideshare.net(oaod2010) Malcolm Read: Drivers for Open Access and Data - a funder's perspective oaod2010 There has long been a view that the outputs of publicly funded research should be publicly available. By this was meant research papers and findings, and it was not felt that publication in journals and monographs that were virtually unavailable at reasonable cost outside universities fully met this need. Open Access is not an attack on peer review or the scholarly publishing industry (although there are real concerns about escalating costs which can no longer be afforded by many universities). The move to open data is driven by more complex arguments bound up by the need to be more open in demonstrating the uncertain nature of many scientific findings, and the need to manage research data more professionally, yet ensure sensitive or commercially valuable data can be kept secure. This talk will explain the synergies and ambiguities between open policies and the individual drivers for career researchers and those of universities seeking to balance their responsibilities to society with commercial considerations. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/cologneopenaccessslidesdec2010-101208110518-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> There has long been a view that the outputs of publicly funded research should be publicly available. By this was meant research papers and findings, and it was not felt that publication in journals and monographs that were virtually unavailable at reasonable cost outside universities fully met this need. Open Access is not an attack on peer review or the scholarly publishing industry (although there are real concerns about escalating costs which can no longer be afforded by many universities). The move to open data is driven by more complex arguments bound up by the need to be more open in demonstrating the uncertain nature of many scientific findings, and the need to manage research data more professionally, yet ensure sensitive or commercially valuable data can be kept secure. This talk will explain the synergies and ambiguities between open policies and the individual drivers for career researchers and those of universities seeking to balance their responsibilities to society with commercial considerations.

Malcolm Read: Drivers for Open Access and Data - a funder's perspective from "Open Access - Open Data" conference, 13th/14th December, 2010

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0 Cologne open access slides dec 2010 /slideshow/cologne-open-access-slides-dec-2010/6079403 cologneopenaccessslidesdec2010-101208103840-phpapp01
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]]> Wed, 08 Dec 2010 10:38:34 GMT /slideshow/cologne-open-access-slides-dec-2010/6079403 oaod2010@slideshare.net(oaod2010) Cologne open access slides dec 2010 oaod2010 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/cologneopenaccessslidesdec2010-101208103840-phpapp01-thumbnail.jpg?width=120&height=120&fit=bounds" />

Cologne open access slides dec 2010 from "Open Access - Open Data" conference, 13th/14th December, 2010

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0 https://cdn.slidesharecdn.com/profile-photo-oaod2010-48x48.jpg?cb=1523006840 "Open Access - Open Data" is an expert conference that will take a closer look how the Open Access movement has developed within the last five years and what is going to happen within the next five to ten years. Additionally, we will investigate the "Open Data Movement" that is gaining more and more importance. Organized by Goportis (www.goportis.de). www.oaod2010.de https://cdn.slidesharecdn.com/ss_thumbnails/presentationguidofherrmanncologne2010-101215012748-phpapp01-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/guido-f-herrmann/6171128 Guido F. Herrmann: https://cdn.slidesharecdn.com/ss_thumbnails/colognenanopublications-recordkeepingknowledgetransfer-101214085833-phpapp01-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/jan-velterop-nanopublications-record-keeping-knowledge-transfer/6160175 Jan Velterop: Science ... https://cdn.slidesharecdn.com/ss_thumbnails/open-colognefinal-141210-101214045814-phpapp01-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/rainer-kuhlen/6157287 Rainer Kuhlen: A commo...