Universität Innsbruck - Data Repository
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St. LEO V: Speech -> Text on LEO5
No full text<h3>About this dataset</h3>
<p>This project was created to provide the Faculty of Social and Political Sciences at the University of Innsbruck with a tool for transcribing audio-recorded interviews and attributing speakers, as well as enabling automatic translation if required. </p>
<h3>Purpose</h3>
<p>This dataset documents version 1.1 of the corresponding GitLab repository, which was used to develop and distribute the tool. Since it is general enough to be useful to other operators of high-performance clusters who want to provide a similar setup, it is made available here. </p>
<h3>Creation</h3>
<p>This is done by generating a tagged v1.1 in the GitLab repository <a href="https://git.uibk.ac.at/zid/hpc/st-leo-v/-/tree/072190574b8e96be514d85a20dabe1923d440377/" rel="noopener">https://git.uibk.ac.at/zid/hpc/st-leo-v/-/tree/072190574b8e96be514d85a20dabe1923d440377/</a></p>
<h3>Technical details</h3>
<p>README.md directly mirrors v1.1 of the gitlab readme, the archive contains the corresponding repo (for decompression please resort to standard tools for your operating system). </p>
<h3>Funding</h3>
<p>This work got support from EuroCC Austria, the Austrian National Competence Centre for High-Performance Computing, High-Performance Data Analytics and Artificial Intelligence, which has received funding from the European High Performance Computing Joint Undertaking (JU) and Germany, Bulgaria, Austria, Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, Greece, Hungary, Ireland, Italy, Lithuania, Latvia, Poland, Portugal, Romania, Slovenia, Spain, Sweden, France, Netherlands, Belgium, Luxembourg, Slovakia, Norway, Türkiye, Republic of North Macedonia, Iceland, Montenegro, Serbia under grant agreement No 101101903.</p>
DIGIdat - IAQ Raumberichte
No full text<h2>DIGIdat - IAQ Raumberichte</h2>
<p>Sammlung von Luftqualitätsauswertungen in Form eines Berichts von ausgewählten Tiroler Klassenräumen aus dem Projekt DIGIdat. <br>Basierend auf der Datenbank "DIGIdata Metadata and Measurements".</p>
Mathematica scripts for 'Time-dependent dynamics in the confined lattice Lorentz gas'
No full text<p>Mathematica files </p>
NanoBioRS-Continuous reporting R1-SOP for working with MC3T3 cell line
No full text<h2>Scope</h2>
<p>This document was created in order to facilitate knowledge transfer between the ER and the host institution (UIBK) as part of NanoBioRS-MSCA action. This is in line with data sharing as delineated in the data management plan of NanoBioRS (D2.1-ORDP-NanoBioRS).</p>
<p>The cell line MC3T3-E1 Subclone 4 (MC3T3-E1) acquired through NanoBioRS project was not previously available at the Drug Delivery and Powder Technology Group (DDPT-UIBK). The ER characterized this cell line and set up different techniques presented in this SOP. This encompasses the manipulation, characterization, preservation, and application of experimental techniques used to investigate drug delivery systems relevant to the project and their potential extensions beyond its current scope.</p>
<p>All the methods were applied on the frame of NanoBioRS and this SOP will be made public once the outcomes of the projects are published.</p>
Back into the Circle: A Spectroscopic and Mycological Study on the Strength of Biochar derived from Naturally Decayed Wood
No full text<h3>This dataset compiles the raw data connected to the study: Back into the Circle: A Spectroscopic and Mycological Study on the Strength of Biochar derived from Naturally Decayed Wood by the authors: <span>Clara Mühlegger, </span>Markus Neurauter, Anna Szepannek, David Gurtner, Christoph Kappacher, Christoph Pfeifer, Maraike Probst, Judith Ascher-Jenull, Christian W. Huck, Ursula Peintner, Angela Hofmann, Sabine M. Podmirseg - </h3>
<p>The collection is split into four excel files containing:</p>
<p>-ASV abundance and taxonomy data of Fungi</p>
<p>-FTIR raw spectral data</p>
<p>-NIR raw spectral data</p>
<p>-Masterfile on wood and biochar raw data</p>
A Novel Substrate for CYP3A4 Phenotyping: In Vitro Biotransformation of Hubamine into Butanone for Breath Testing
No full text<p>GC-IMS:</p>
<p>The data used for the experiments are available as .txt files. As many control measurements were carried out, there are often more data in the files than was used for analysis. The data were measured using a BreathSpec (G.A.S. mbH, Dortmund, Germany). The data obtained from these measurements were analysed using VOCal software (version 0.2.9, G.A.S mbH) and saved as a .txt file. For quantification of butanone the volume above area minimum of the dimer peak was selected.</p>
<p>HPLC-MS:</p>
<p>The data used for the experiments are available in CSV files. As many control measurements were carried out, there are often more data in the files than was used for analysis. Each file contains a calibration, as well as blank and unknown sample measurements. The data were measured using a Vanquish HPLC Flex system with a binary pump, coupled to an Orbitrap Q-Exactive mass spectrometer (both from Thermo Fisher Scientific). Evaluation was performed using the ‘QuanBrowser’ software (Thermo Xcalibur 4.2.47, Thermo Fisher Scientific).</p>
<p>PTR-ToF-MS:</p>
<p>The data used for the experiments are available as .txt files. As many control measurements were carried out, there are often more data in the files than was used for analysis. The data were measured using a PTR-ToF 6000 X2 (Ionicon Analytik GmbH, Innsbruck, Austria). The data obtained from these measurements were analysed using PTR-ToF-MS Viewer software (version 3.4.4.22, Ionicon Analytik GmbH) and saved as a .txt file. The butanone product ion signal (C₄H₉O⁺) was normalised to a reagent ion signal of 10⁶ ions per second.</p>
Optically trapped Feshbach molecules of fermionic 161Dy and 40K: Role of light-induced and collisional losses
No full textGeologic 3D model of the Trattberg rise, Salzburg, Austria, European Alps
No full text<p class="MsoNormal"><a name="_GoBack"></a><strong><span>Geologic 3D model of the Trattberg rise, Salzburg, Austria, European Alps</span></strong></p>
<p class="MsoNormal"><span>The Trattberg rise is the southern margin of the Osterhorn group of the Northern Calcareous Alps of Salzburg. The Northern Calcareous Alps are the Jurassic-Cretaceous external fold-and-thrust belt of the Eastern Alps (Fernandez et al., 2025). It is a zone of Late Jurassic to Early Cretaceous uplift, and has been enigmatic for many years. Geologic interpretations have varied significantly and have been controversial (e.g., Gawlick et al., 1999; Plöchinger, 1953). New detailed field mapping and serial cross sections reveal an updated view of the area.</span></p>
<p class="MsoNormal"><span>The 3D model of the Trattberg rise documents the 3D geometry of the Trattberg thrust and Alpbichl normal fault. The Trattberg thrust (surfaces shown in dark to light blue) is a concave fault and is reminiscent of the geometry of a positive flower structure having three splays in its eastern part (Sylvester, 1988). It was active during the Late Jurassic, based on the observation of growth strata in its footwall (see, e.g., cross section 2). The Alpbichl fault (surfaces shown in green) is the upper- and southernmost splay branching off the Trattberg fault and has a normal offset in cross section. It was active during the Early Cretaceous.</span></p>
<p class="MsoNormal"><span>The 3D model can be spinned, all elements switched off and on. As it is an exploded model, only the coordinates in the center of the model are true coordinates. The coordinate system is MGI/Austria GK M31 (EPSG 31258). The two western parts have been shifted 3 and 6 km toward the West, respectively, and the two eastern parts have been shifted 3 and 6 km toward the East, respectively</span><span>.</span></p>
<p class="MsoNormal"><strong>Context and methodology</strong></p>
<ul>
<li class="MsoNormal"><span>What is the research domain or project in which this dataset was created?</span></li>
</ul>
<p class="MsoNormal"><span>The regional geology of the Trattberg area is documented on two maps sheets of the Austrian geologic survey, sheets Hallein and Wolfgangsee (Plöchinger, 1982a, b, 1987, 1990). This mapping is significantly older than the recent introduction of salt tectonic concepts in this part of the Northern Calcareous Alps (Fernandez et al., 2025; Fernandez et al., 2024). A better understanding of regional geology in three dimensions is documented in the dataset published.</span></p>
<ul>
<li class="MsoNormal"><span>Which purpose does this dataset serve?</span></li>
</ul>
<p class="MsoNormal"><span>The data give information on three-dimensional geology.</span></p>
<ul>
<li class="MsoNormal"><span>How was this dataset created?</span></li>
</ul>
<p class="MsoNormal"><span>The 3D-model was created in the 2024 version of Petroleum Experts IPM Move software. It has several components:</span></p>
<p class="MsoNormal"><strong><span>Surface topography</span></strong><span> has been taken from the 5 m resolution Digital Elevation Model (DEM) of the Salzburg state </span><span>(data source: </span><a href="https://www.salzburg.gv.at/landkarten"><span>https://www.salzburg.gv.at/landkarten</span></a><span>). This topography is draped either by the geologic map or the hillshade of the 1 m resolution DEM. </span></p>
<p class="MsoNormal"><span>5<strong> serial cross sections</strong> have<strong> </strong>been constructed across the area. All cross sections start in the N in the undeformed part of the Osterhorn Group, cross the Trattberg rise, and end in the Lammer valley in the south.</span></p>
<p class="MsoNormal"><span>The 3D faults were created using the trace of the respective faults in adjacent cross sections, and the surface trace between the cross sections. </span></p>
<p class="MsoNormal"><strong>Technical details</strong></p>
<ul>
<li class="MsoNormal"><span>What is the structure of this dataset? Do the folders and files follow a certain naming convention?</span></li>
</ul>
<p class="MsoNormal"><span>Move data include an index file (*.move) and a data folder (*.movd). </span>Both are included in the zip-file.</p>
<ul>
<li class="MsoNormal"><span>Is any specific software required to open and work with this dataset?</span></li>
</ul>
<p class="MsoNormal"><span>The 3D-model can be opened in Petroleum experts IPM Move, version 2024, and more recent versions.</span></p>
<p class="MsoNormal"><span> </span></p>
<p class="EndNoteBibliographyTitle"><span>References</span></p>
<p class="EndNoteBibliographyTitle"><span> </span><span>Fernandez, O., Ortner, H., Munday, W. E. H., Moser, M., Sanders, D., Grasemann, B. & Leitner, T. (2025): Late Jurassic Initial Development of a Salt-Dominated Fold-And-Thrust Belt: The Inverted Passive Margin of the Eastern Alps (Austria).- Tectonics, 44 (1): e2024TC008358. https://doi.org/10.1029/2024TC008358</span></p>
<p class="EndNoteBibliography"><span>Fernandez, O., Ortner, H., Sanders, D., Grasemann, B. & Leitner, T. (2024): Salt-rich versus salt-poor structural scenarios in the central Northern Calcareous Alps: implications for the Hallstatt facies and early Alpine tectonic evolution (Eastern Alps, Austria).- Int. J. Earth. Sci., 113: 245–283. https://doi.org/10.1007/s00531-023-02377-4</span></p>
<p class="EndNoteBibliography"><span>Gawlick, H.-J., Frisch, W., Vecsei, A., Steiger, T. & Böhm, F. (1999): The change from rifting to thrusting in the Northern Calcareous Alps as recorded in Jurassic sediments.- Geol. Rundsch., 87: 644–657. https://doi.org/10.1007/s005310050237</span></p>
<p class="EndNoteBibliography"><span>Plöchinger, B. (1953): Der Bau der südlichen Osterhorngruppe und die Thiton-Neokomtransgression.- Jb. Geol. Bundesanst., 96: 257–273.</span></p>
<p class="EndNoteBibliography"><span>Plöchinger, B. (1982a): Erläuterungen zu Blatt 95 St. Wolfgang.- 74 S., Geologische Karte der Republik Österreich, Geologische Bundesanstalt, Wien.</span></p>
<p class="EndNoteBibliography"><span>Plöchinger, B. (1982b): Geologische Karte der Republik Österreich 1:50.000, Blatt 95 St. Wolfgang im Salzkammergut, Geologische Bundesanstalt, Wien.</span></p>
<p class="EndNoteBibliography"><span>Plöchinger, B. (1987): Geologische Karte der Republik Österreich 1:50.000, Blatt 94 Hallein, Geologische Bundesanstalt, Wien.</span></p>
<p class="EndNoteBibliography"><span>Plöchinger, B. (1990): Erläuterungen zu Blatt 94 Hallein.- 76 S., Geologische Karte der Republik Österreich, Geologische Bundesanstalt, Wien.</span></p>
<p class="EndNoteBibliography"><span>Sylvester, A. G. (1988): Strike Slip Faults.- Geologic Society of America Bulletin, 100: 1666–1703. https://doi.org/10.1130/0016-7606(1988)100<1666:SSF>2.3.CO;2</span></p>
First World war Habsburg Soldiers buried in Rome
No full text<p>It has been four years since I became aware of a site that sheds light on the horrors of war<br>and the long time it takes for the bereaved to learn about the fate of their loved ones. Sure<br>we had a list of the names of men buried far from their homes, but the majority of them<br>were marked “unidentified”. This means that the families were never informed of the resting<br>place. Therefore, the first part of our project aimed to work in an international team,<br>covering all the necessary languages from the Habsburg Monarchy, to try to identify them.<br>Part 1 ended with us managing to identify more than two hundred of them, and we<br>published a book in which we described the burial site, how it was set up, what the soldiers'<br>last months were like (they were prisoners of war in camps in and around Rome, most of<br>them died of the Spanish flu), and we also included some biographies with some family<br>stories we were told by descendants. The book was also made accessible online:<br>https://www.bmlv.gv.at/wissen-forschung/publikationen/publikation.php?id=1181<br>Our important message was and is that these soldiers were much more than just names on a<br>death list and little coffins in the crypt. They had a life before they were called up to fight in<br>the First World War. And they also had families who were desperate to find out about their<br>fate. For us historians working in research institutions and universities, meeting descendants<br>and talking to them were touching moments. They often heard for the first time where their<br>missing relatives were buried. Part 2 of our project, which began in summer 2025, starts<br>here. With an enlarged research team, we want to give even more of these men back their<br>life stories - to research their biographies and add them to a memorial book located in the<br>Anima church in Rome. However, this time it will be not only us authoring the biographies,<br>but we invite our history students, young researchers as well as the interested public to<br>contribute. Everybody interested to become an author might mail to:<br>[email protected] or contact one of our scientific commitee. </p>
<p>We have a name list that already provides many research links and information we already collected.<br>With the memorial book, visitors can browse through lives that took place throughout the<br>Habsburg Monarchy before 1914, Jewish peasants from Galicia, and Orthodox farmers from<br>Vojvodina, Roman Catholic craftsmen from Upper Austria and merchants from today's<br>Slovenia. They cover all languages and nationalities, as well as religions, but importantly,<br>they were men of the people, not officers, or the well-educated. They are those who are<br>often forgotten in history. We plan to make the memorial book also available online. Part 2<br>will end with a presentation of the memorial book in Rome.</p>
<p>Contact: Priv.-Doz. Dr. Tamara Scheer * [email protected]<br>Project funded by: FWF (V-555 and 10.55776/PAT1679824) and the Pontifical Institute Santa Maria dell'Anima, Rome</p>
Raw data and software for 'Beyonfd linear response in colloids'
No full text<p>Colloidal suspensions offer huge potential to provide new insights into the fundamental behavior<br>of liquids both because the particles’ positions can be directly measured, and because their soft<br>nature provides the unique possibility to go beyond linear response by exposing the system to<br>strong fields. Here, we capitalize on this opportunity by directly measuring the response of a liquid<br>to a strong spatially periodic external field in experiments, simulations and theoretical models.<br>Strikingly, we observe a structural change in the direction perpendicular to the field variation, which<br>evolves sensitively with the applied field period, as locally favored structures of the unperturbed<br>liquid are selectively enhanced. These results open new research directions: by imposing artificial<br>density modulations it is possible to extract structural information that are inaccessible to scattering<br>experiments.</p>