Ycasd - a tool for capturing and scaling data from graphical representations

Gross, Arnd, Schirm, Sibylle, Scholz, Markus

02 July 2014

Background: Mathematical modelling of biological processes often requires a large variety of different data sets for parameter estimation and validation. It is common practice that clinical data are not available in raw formats but are provided as graphical representations. Hence, in order to include these data into environments used for model simulations and statistical analyses, it is necessary to extract them from their presentations in the literature. For this purpose, we developed the freely available open source tool ycasd. After establishing a coordinate system by simple axes definitions, it supports convenient retrieval of data points from arbitrary figures. Results: After describing the general functionality and providing an overview of the programme interface, we demonstrate on an example how to use ycasd. A major advantage of ycasd is that it does not require a certain input file format to open and process figures. All options of ycasd are accessible through a single window which eases handling and speeds up data extraction. For subsequent processing of extracted data points, results can be formatted as a Matlab or an R matrix. We extensively compare the functionality and other features of ycasd with other publically available tools. Finally, we provide a short summary of our experiences with ycasd in the context of modelling. Conclusions: We conclude that our tool is suitable for convenient and accurate data retrievals from graphical representations such as papers. Comparison of tools reveals that ycasd is a good compromise between easy and quick capturing of scientific data from publications and complexity. Our tool is routinely applied in the context of biological modelling, where numerous time series data are required to develop models. The software can also be useful for other kinds of analyses for which published data are required but are not available in raw formats such as systematic reviews and meta-analyses.

Ycasd

Daten

Graphiken

Auswertung

Ycasd

data

graphs

analysis

ddc:610

Ycasd - a tool for capturing and scaling data from graphical representations

Gross, Arnd, Schirm, Sibylle, Scholz, Markus

18 August 2014

Background: Mathematical modelling of biological processes often requires a large variety of different data sets for parameter estimation and validation. It is common practice that clinical data are not available in raw formats but are provided as graphical representations. Hence, in order to include these data into environments used for model simulations and statistical analyses, it is necessary to extract them from their presentations in the literature. For this purpose, we developed the freely available open source tool ycasd. After establishing a coordinate system by simple axes definitions, it supports convenient retrieval of data points from arbitrary figures. Results: After describing the general functionality and providing an overview of the programme interface, we demonstrate on an example how to use ycasd. A major advantage of ycasd is that it does not require a certain input file format to open and process figures. All options of ycasd are accessible through a single window which eases handling and speeds up data extraction. For subsequent processing of extracted data points, results can be formatted as a Matlab or an R matrix. We extensively compare the functionality and other features of ycasd with other publically available tools. Finally, we provide a short summary of our experiences with ycasd in the context of modelling. Conclusions: We conclude that our tool is suitable for convenient and accurate data retrievals from graphical representations such as papers. Comparison of tools reveals that ycasd is a good compromise between easy and quick capturing of scientific data from publications and complexity. Our tool is routinely applied in the context of biological modelling, where numerous time series data are required to develop models. The software can also be useful for other kinds of analyses for which published data are required but are not available in raw formats such as systematic reviews and meta-analyses.

Ycasd

Daten

Graphiken

Auswertung

Ycasd

data

graphs

analysis

ddc:610

Mitteilungen des URZ 2/2009

Anders, Jörg, Ehrig, Matthias, Riedel, Wolfgang, Ziegler, Christoph

13 May 2009

Informationen des Universitätsrechenzentrums

3D-Darstellung

Computerpools

Web-Dateimanager WFM

interaktive 3D-Graphiken

Actionscript

Backup

Restore

ddc:004

Computer

Datensicherung

Ycasd - a tool for capturing and scaling data from graphical representations

Gross, Arnd, Schirm, Sibylle, Scholz, Markus

January 2014

Background: Mathematical modelling of biological processes often requires a large variety of different data sets for parameter estimation and validation. It is common practice that clinical data are not available in raw formats but are provided as graphical representations. Hence, in order to include these data into environments used for model simulations and statistical analyses, it is necessary to extract them from their presentations in the literature. For this purpose, we developed the freely available open source tool ycasd. After establishing a coordinate system by simple axes definitions, it supports convenient retrieval of data points from arbitrary figures. Results: After describing the general functionality and providing an overview of the programme interface, we demonstrate on an example how to use ycasd. A major advantage of ycasd is that it does not require a certain input file format to open and process figures. All options of ycasd are accessible through a single window which eases handling and speeds up data extraction. For subsequent processing of extracted data points, results can be formatted as a Matlab or an R matrix. We extensively compare the functionality and other features of ycasd with other publically available tools. Finally, we provide a short summary of our experiences with ycasd in the context of modelling. Conclusions: We conclude that our tool is suitable for convenient and accurate data retrievals from graphical representations such as papers. Comparison of tools reveals that ycasd is a good compromise between easy and quick capturing of scientific data from publications and complexity. Our tool is routinely applied in the context of biological modelling, where numerous time series data are required to develop models. The software can also be useful for other kinds of analyses for which published data are required but are not available in raw formats such as systematic reviews and meta-analyses.

info:eu-repo/classification/ddc/610

ddc:610

Ycasd, Daten, Graphiken, Auswertung

Ycasd, data, graphs, analysis

Ycasd - a tool for capturing and scaling data from graphical representations

Gross, Arnd, Schirm, Sibylle, Scholz, Markus

January 2014

Background: Mathematical modelling of biological processes often requires a large variety of different data sets for parameter estimation and validation. It is common practice that clinical data are not available in raw formats but are provided as graphical representations. Hence, in order to include these data into environments used for model simulations and statistical analyses, it is necessary to extract them from their presentations in the literature. For this purpose, we developed the freely available open source tool ycasd. After establishing a coordinate system by simple axes definitions, it supports convenient retrieval of data points from arbitrary figures. Results: After describing the general functionality and providing an overview of the programme interface, we demonstrate on an example how to use ycasd. A major advantage of ycasd is that it does not require a certain input file format to open and process figures. All options of ycasd are accessible through a single window which eases handling and speeds up data extraction. For subsequent processing of extracted data points, results can be formatted as a Matlab or an R matrix. We extensively compare the functionality and other features of ycasd with other publically available tools. Finally, we provide a short summary of our experiences with ycasd in the context of modelling. Conclusions: We conclude that our tool is suitable for convenient and accurate data retrievals from graphical representations such as papers. Comparison of tools reveals that ycasd is a good compromise between easy and quick capturing of scientific data from publications and complexity. Our tool is routinely applied in the context of biological modelling, where numerous time series data are required to develop models. The software can also be useful for other kinds of analyses for which published data are required but are not available in raw formats such as systematic reviews and meta-analyses.

info:eu-repo/classification/ddc/610

ddc:610

Ycasd, Daten, Graphiken, Auswertung

Ycasd, data, graphs, analysis

Mitteilungen des URZ 2/2009

Anders, Jörg, Ehrig, Matthias, Riedel, Wolfgang, Ziegler, Christoph

13 May 2009

Informationen des Universitätsrechenzentrums:Web-Interface zum Restore von AFS-Dateien Effektive Datensicherung mit rsync Actionscript und 3D mit Linux Poolnutzung im Wintersemester 2009/2010 Kurzinformationen: ISSN für die 'Mitteilungen des URZ', Windows Server 2003 aktualisieren, USB Datenträger mit NTFS-Filesystemen, Redundante X-WiN-Anbindung, Neue PC-Technik in der Campusbibliothek I Software-News: ChemDRAW Ultra 11.0 auf WAPPS, Java-Update

Actionscript, Backup, Restore

info:eu-repo/classification/ddc/004

ddc:004

Computer; Datensicherung