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    512 research outputs found

    Der Húpfauf mit Der mist Róre (A-Wn_Mus.Hs._18688_n56) Audio recording

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    <h1>Audio recording of a lute piece from the E-LAUTE project</h1><h2>Overview</h2><p>This dataset contains an audio recording of the piece "Der Húpfauf mit Der mist Róre", a 16th century lute music piece originally notated in lute tablature, created as part of the E-LAUTE project (<a href="https://e-laute.info/">https://e-laute.info/</a>). The recording preserves and makes historical lute music from the German-speaking regions during 1450-1550 accessible.</p><p>The recording is based on the work with the title "Der Húpfauf mit Der mist Róre" and the id "A-Wn_Mus.Hs._18688_n56" in the e-lautedb. It is found on the page(s) or folio(s) 32v in the source "[Lautentabulatur des Stephan Craus]" with the source-id "A-Wn_Mus.Hs._18688".</p><p>The original source and multiple transcriptions of the work can be found on the E-LAUTE platform: <a href="https://edition.onb.ac.at/fedora/objects/o:lau.A-Wn_Mus.Hs._18688/methods/sdef:TEI/get?mode=n56" target="_blank">https://edition.onb.ac.at/fedora/objects/o:lau.A-Wn_Mus.Hs._18688/methods/sdef:TEI/get?mode=n56</a>.</p><p>Links to the source: <a href="http://data.onb.ac.at/rec/AC14316391" target="_blank">http://data.onb.ac.at/rec/AC14316391</a>, <a href="https://rism.online/sources/600141880" target="_blank">https://rism.online/sources/600141880</a>, .</p><h2>Dataset Contents</h2><p>This dataset includes:</p><ul><li><strong>Audio file</strong>: An audio recording of the lute piece in .wav format</li> <li><strong>Metadata file</strong>: A metadata file with detailed information about the recording in .json format</li></ul><h2>About the E-LAUTE Project</h2><p><strong>E-LAUTE: Electronic Linked Annotated Unified Tablature Edition - The Lute in the German-Speaking Area 1450-1550</strong></p><p>The E-LAUTE project creates innovative digital editions of lute tablatures from the German-speaking area between 1450 and 1550. This interdisciplinary "open knowledge platform" combines musicology, music practice, music informatics, and literary studies to transform traditional editions into collaborative research spaces.</p><p>For more information, visit the project website: <a href="https://e-laute.info/">https://e-laute.info/</a></p&gt

    Data behind "Boosting the transparency of metallic SrNbO3 through Ti doping"

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    <p>This repository contains the data behind the figures of the paper<br>  <strong>  "Boosting the transparency of metallic SrNbO3 through Ti doping"</strong><br>by  Shammi Kumar et al. <strong>[arXiv:2410.03301 to be published in </strong><strong>Adv. Mater. Interfaces]</strong>.</p> <p>Research context: transparent conductors studied by density functional and dynamical mean field theory as well as by x-ray, electrical and optical experiments.</p> <p>Purpose of the data: to make the results and figures of the aforementioned article reproducible by other groups</p> <p>Relation to the article: the repository contains the data used to generate the figures of the aforementioned article</p> <p> </p> <p>The data is organized into 5 subdirectories:</p> <ul> <li>DFT DMFT theory calculations</li> <li>Band unfolding results</li> <li>XRD Measurements</li> <li>Electrical Measurement</li> <li>Optical Measurement</li> </ul> <p>Each directory has a separate Readme.txt file.</p> <p>Role of the subdirectories: to structure the data along the line of the different methods employed.</p> <p> </p> <p>The following software has been used for the computation:</p> <p>DFT: VASP version 6.3.0 (<a href="https://www.vasp.at/" target="_self" rel="noopener">https://www.vasp.at</a>) , Wien2K (<a href="http://www.wien2k.at">http://www.wien2k.at</a>) Wannier90 version 3.1.0 (<a href="https://wannier.org/" target="_self" rel="noopener">https://wannier.org</a>)<br>DMFT: w2dynamics (<a href="https://github.com/w2dynamics">https://github.com/w2dynamics</a>), ana_cont version 1.1.2 (<a href="https://github.com/josefkaufmann/ana_cont">https://github.com/josefkaufmann/ana_cont</a>)</p> <p> </p&gt

    Vnd der paff die kúch[in] schlec[ht] (A-Wn_Mus.Hs._18688_n61) Audio recording

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    <h1>Audio recording of a lute piece from the E-LAUTE project</h1><h2>Overview</h2><p>This dataset contains an audio recording of the piece "Vnd der paff die kúch[in] schlec[ht]", a 16th century lute music piece originally notated in lute tablature, created as part of the E-LAUTE project (<a href="https://e-laute.info/">https://e-laute.info/</a>). The recording preserves and makes historical lute music from the German-speaking regions during 1450-1550 accessible.</p><p>The recording is based on the work with the title "Vnd der paff die kúch[in] schlec[ht]" and the id "A-Wn_Mus.Hs._18688_n61" in the e-lautedb. It is found on the page(s) or folio(s) 34r in the source "[Lautentabulatur des Stephan Craus]" with the source-id "A-Wn_Mus.Hs._18688".</p><p>The original source and multiple transcriptions of the work can be found on the E-LAUTE platform: <a href="https://edition.onb.ac.at/fedora/objects/o:lau.A-Wn_Mus.Hs._18688/methods/sdef:TEI/get?mode=n61" target="_blank">https://edition.onb.ac.at/fedora/objects/o:lau.A-Wn_Mus.Hs._18688/methods/sdef:TEI/get?mode=n61</a>.</p><p>Links to the source: <a href="http://data.onb.ac.at/rec/AC14316391" target="_blank">http://data.onb.ac.at/rec/AC14316391</a>, <a href="https://rism.online/sources/600141880" target="_blank">https://rism.online/sources/600141880</a>, .</p><h2>Dataset Contents</h2><p>This dataset includes:</p><ul><li><strong>Audio file</strong>: An audio recording of the lute piece in .wav format</li> <li><strong>Metadata file</strong>: A metadata file with detailed information about the recording in .json format</li></ul><h2>About the E-LAUTE Project</h2><p><strong>E-LAUTE: Electronic Linked Annotated Unified Tablature Edition - The Lute in the German-Speaking Area 1450-1550</strong></p><p>The E-LAUTE project creates innovative digital editions of lute tablatures from the German-speaking area between 1450 and 1550. This interdisciplinary "open knowledge platform" combines musicology, music practice, music informatics, and literary studies to transform traditional editions into collaborative research spaces.</p><p>For more information, visit the project website: <a href="https://e-laute.info/">https://e-laute.info/</a></p&gt

    preambulúm (A-Wn_Mus.Hs._18688_n04) Audio recording

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    <h1>Audio recording of a lute piece from the E-LAUTE project</h1><h2>Overview</h2><p>This dataset contains an audio recording of the piece "preambulúm", a 16th century lute music piece originally notated in lute tablature, created as part of the E-LAUTE project (<a href="https://e-laute.info/">https://e-laute.info/</a>). The recording preserves and makes historical lute music from the German-speaking regions during 1450-1550 accessible.</p><p>The recording is based on the work with the title "preambulúm" and the id "A-Wn_Mus.Hs._18688_n04" in the e-lautedb. It is found on the page(s) or folio(s) 6r in the source "[Lautentabulatur des Stephan Craus]" with the source-id "A-Wn_Mus.Hs._18688".</p><p>The original source and multiple transcriptions of the work can be found on the E-LAUTE platform: <a href="https://edition.onb.ac.at/fedora/objects/o:lau.A-Wn_Mus.Hs._18688/methods/sdef:TEI/get?mode=n04" target="_blank">https://edition.onb.ac.at/fedora/objects/o:lau.A-Wn_Mus.Hs._18688/methods/sdef:TEI/get?mode=n04</a>.</p><p>Links to the source: <a href="http://data.onb.ac.at/rec/AC14316391" target="_blank">http://data.onb.ac.at/rec/AC14316391</a>, <a href="https://rism.online/sources/600141880" target="_blank">https://rism.online/sources/600141880</a>, .</p><h2>Dataset Contents</h2><p>This dataset includes:</p><ul><li><strong>Audio file</strong>: An audio recording of the lute piece in .wav format</li> <li><strong>Metadata file</strong>: A metadata file with detailed information about the recording in .json format</li></ul><h2>About the E-LAUTE Project</h2><p><strong>E-LAUTE: Electronic Linked Annotated Unified Tablature Edition - The Lute in the German-Speaking Area 1450-1550</strong></p><p>The E-LAUTE project creates innovative digital editions of lute tablatures from the German-speaking area between 1450 and 1550. This interdisciplinary "open knowledge platform" combines musicology, music practice, music informatics, and literary studies to transform traditional editions into collaborative research spaces.</p><p>For more information, visit the project website: <a href="https://e-laute.info/">https://e-laute.info/</a></p&gt

    [Preambulum] (A-Wn_Mus.Hs._18688_n14) Audio recording

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    <h1>Audio recording of a lute piece from the E-LAUTE project</h1><h2>Overview</h2><p>This dataset contains an audio recording of the piece "[Preambulum]", a 16th century lute music piece originally notated in lute tablature, created as part of the E-LAUTE project (<a href="https://e-laute.info/">https://e-laute.info/</a>). The recording preserves and makes historical lute music from the German-speaking regions during 1450-1550 accessible.</p><p>The recording is based on the work with the title "[Preambulum]" and the id "A-Wn_Mus.Hs._18688_n14" in the e-lautedb. It is found on the page(s) or folio(s) 10r in the source "[Lautentabulatur des Stephan Craus]" with the source-id "A-Wn_Mus.Hs._18688".</p><p>The original source and multiple transcriptions of the work can be found on the E-LAUTE platform: <a href="https://edition.onb.ac.at/fedora/objects/o:lau.A-Wn_Mus.Hs._18688/methods/sdef:TEI/get?mode=n14" target="_blank">https://edition.onb.ac.at/fedora/objects/o:lau.A-Wn_Mus.Hs._18688/methods/sdef:TEI/get?mode=n14</a>.</p><p>Links to the source: <a href="http://data.onb.ac.at/rec/AC14316391" target="_blank">http://data.onb.ac.at/rec/AC14316391</a>, <a href="https://rism.online/sources/600141880" target="_blank">https://rism.online/sources/600141880</a>, .</p><h2>Dataset Contents</h2><p>This dataset includes:</p><ul><li><strong>Audio file</strong>: An audio recording of the lute piece in .wav format</li> <li><strong>Metadata file</strong>: A metadata file with detailed information about the recording in .json format</li></ul><h2>About the E-LAUTE Project</h2><p><strong>E-LAUTE: Electronic Linked Annotated Unified Tablature Edition - The Lute in the German-Speaking Area 1450-1550</strong></p><p>The E-LAUTE project creates innovative digital editions of lute tablatures from the German-speaking area between 1450 and 1550. This interdisciplinary "open knowledge platform" combines musicology, music practice, music informatics, and literary studies to transform traditional editions into collaborative research spaces.</p><p>For more information, visit the project website: <a href="https://e-laute.info/">https://e-laute.info/</a></p&gt

    [untitled] (A-Wn_Mus.Hs._18827_n09) Audio recording

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    <h1>Audio recording of a lute piece from the E-LAUTE project</h1><h2>Overview</h2><p>This dataset contains an audio recording of the piece "[untitled]", a 16th century lute music piece originally notated in lute tablature, created as part of the E-LAUTE project (<a href="https://e-laute.info/">https://e-laute.info/</a>). The recording preserves and makes historical lute music from the German-speaking regions during 1450-1550 accessible.</p><p>The recording is based on the work with the title "[untitled]" and the id "A-Wn_Mus.Hs._18827_n09" in the e-lautedb. It is found on the page(s) or folio(s) 9v in the source "[Lautenbuch, italienische Lautentabulatur]" with the source-id "A-Wn_Mus.Hs._18827".</p><p>The original source and multiple transcriptions of the work can be found on the E-LAUTE platform: <a href="https://edition.onb.ac.at/fedora/objects/o:lau.A-Wn_Mus.Hs._18827/methods/sdef:TEI/get?mode=n09" target="_blank">https://edition.onb.ac.at/fedora/objects/o:lau.A-Wn_Mus.Hs._18827/methods/sdef:TEI/get?mode=n09</a>.</p><p>Links to the source: <a href="http://data.onb.ac.at/rec/AC14316439" target="_blank">http://data.onb.ac.at/rec/AC14316439</a>, <a href="https://opac.rism.info/id/rismid/rism600141783" target="_blank">https://opac.rism.info/id/rismid/rism600141783</a>, .</p><h2>Dataset Contents</h2><p>This dataset includes:</p><ul><li><strong>Audio file</strong>: An audio recording of the lute piece in .wav format</li> <li><strong>Metadata file</strong>: A metadata file with detailed information about the recording in .json format</li></ul><h2>About the E-LAUTE Project</h2><p><strong>E-LAUTE: Electronic Linked Annotated Unified Tablature Edition - The Lute in the German-Speaking Area 1450-1550</strong></p><p>The E-LAUTE project creates innovative digital editions of lute tablatures from the German-speaking area between 1450 and 1550. This interdisciplinary "open knowledge platform" combines musicology, music practice, music informatics, and literary studies to transform traditional editions into collaborative research spaces.</p><p>For more information, visit the project website: <a href="https://e-laute.info/">https://e-laute.info/</a></p&gt

    Data related to Low-frequency Polarization of Blank Ice Features in Solid Rocks

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    <h3>General information</h3> <p>The data published here are related to the paper Low-frequency Polarization of Blank Ice Features in Solid Rocks by Moser, C., and Flores Orozco, A. (2025) submitted to Geophysical Research Letters. The data are split up in three folders: "01_spectra.zip", "02_time_lapse.zip", "03_imaging.zip". Details are following below.</p> <h3>01 - Spectra</h3> <p>In the folder "01_spectra.zip" we present spectral induced polarization data collected in the two samples (RA01 and SB01) with an air- and ice-filled hole (state) along three different quadrupoles (Q1, Q2 and Q3). The files are labelled as follows: sample_state_quadrupole.csv. The files contain 6 columns:</p> <ol> <li>Frequency(Hz): Measurement frequency in Hz</li> <li>App.Conductivity_real(μS/cm): Apparent conductivity real part in µS/cm</li> <li>App.Conductivity_imaginary(μS/cm): Apparent conductivity imaginary part in µS/cm</li> <li>App.Conductivity_phase(mrad): Apparent conductivity phase in mrad</li> <li>Impedance_magnitude(Ohm): Impedance magnitude in Ohm</li> <li>Impedance_phase(rad): Impedance phase in rad</li> </ol> <p>Additionally, the geometric factors for all quadrupoles are given in the subfolder "geometric_factors". In the paper mentioned above the data are presented in Figure 1. </p> <h3>02 - Time-lapse</h3> <p>In the folder "02_time_lapse.zip" we present spectral induced polarization time-lapse data collected in the sample SB01 during the formation of ice in the hole drilled in the rock sample. The data were collected along two different quadrupoles (Q1 and Q2). The files are labelled as follows: sample_monitoring_quadrupole_id.csv. The id is associated with the frequency as follows:</p> <ol> <li>1.00 Hz</li> <li>3.98 Hz</li> <li>15.85 Hz</li> <li>63.10 Hz</li> <li>251.19 Hz</li> </ol> <p>The files contain 6 columns:</p> <ol> <li>TimeStamp(s): Time of the measurement relative to time of water injection</li> <li>App.Conductivity_real(μS/cm): Apparent conductivity real part in µS/cm</li> <li>App.Conductivity_imaginary(μS/cm): Apparent conductivity imaginary part in µS/cm</li> <li>App.Conductivity_phase(mrad): Apparent conductivity phase in mrad</li> <li>Impedance_magnitude(Ohm): Impedance magnitude in Ohm</li> <li>Impedance_phase(rad): Impedance phase in rad</li> </ol> <p>Additionally, the geometric factors for all quadrupoles are given in the subfolder "geometric_factors". In the paper mentioned above the data are presented in Figure 2.</p> <h3>03 - Imaging</h3> <p>In the folder "03_imaging.zip" we present spectral induced polarization imaging data collected in the sample SB01 with an ice-filled hole. The data were collected along 138 quadrupoles, are given in the .ohm format and are split up by the frequency. The files are labelled as follows: sample_frequency.ohm. The frequency is given in mHz.</p> <p>The file is structured as follows:</p> <p>< Number of electrodes ><br>#x    y    z<br>…<br>< Number of quadrupoles ><br>#a    b    m    n    r    ip<br>…</p> <p>The column names stand for the following parameters:</p> <p>x, y, z ... Coordinates of the electrodes in m</p> <p>a, b, m, n ... Electrode numbers used for current injection (a and b) and potential measurements (m and n)</p> <p>r ... impedance magnitude (Ohm)</p> <p>ip ... impedance phase (mrad) *-1</p> <p>Additionally, the mesh, which has been used for the inversion of the data, is given in the subfolder "mesh". In the paper mentioned above the data are presented in Figure 3.</p&gt

    Scala vestibuli prostheses - Comsol, python, and Neuron model

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    <h2>Scala vestibuli prostheses - Comsol, python, and Neuron model</h2> <p>Cochlear implants (CI)s belong to the most efficient neuroprostheses, although their artificially generated neural patterns miss many details seen in the natural code. Therefore, improvement of the quality of the generated neural pattern is a permanent challenge in CI research.</p> <p>Traditionally, the stimulating electrode arrays are inserted into the scala tympani, a cochlear cavity, which enables simple access for surgery. However, often deep insertion is blocked, e.g., by ossification, and the auditory nerve fibers (ANF)s of lower frequency regions cannot be stimulated causing severe restrictions in speech understanding. As an alternative, the electrode array can be inserted into the scala vestibuli, the other large cochlear cavity.</p> <p>Some of the key mechanisms to generate a spiking pattern in the auditory nerve with a CI are known from single ANF recordings in cats. In contrast to cat, human neurons of the auditory nerve have other stimulation characteristics, mainly because of longer dendrites and non-myelinated somata. As ethical reasons prevent human single ANF recordings, several biophysically based computer simulation studies supported our knowledge about differences between feline and human ANF excitation with CIs.</p> <p>Target of the project was to improve the state of the art of such simulation studies in two ways. (i) The first available three-dimensional pathways of human ANFs, reconstructed from micro-CTs, are not as simple in shape as assumed in previous studies. Noteworthy, first investigations show that the pathway irregularities have a considerable impact on the excitation pattern. (ii) Results from the plenty of scala tympani studies are not directly applicable for other electrode placings. This causes a lack of knowledge as not a single simulation study exists for scala vestibuli implants.</p> <h3>Context and methodology</h3> <ul> <li>3D Comsol model: <ul> <li>simulates the electrical potential inside the cochlea established by CIs placed in the scala vestibuli and scala thypani</li> </ul> </li> <li>python model: <ul> <li>controls and runs the Comsol model by calling it with distinctive parameters</li> <li>manages Comsol model results by storing and reusing them</li> <li>simulate nerve responses by using Neuron software (python interface)</li> <li>allows parameter sweeps for systematic investigations</li> <li>creates model results for further use</li> </ul> </li> </ul> <p>A finite element model (FEM) of the human cochlear together with a CI array implemented in Comsol Multiphysics 6.1 (<a href="https://www.comsol.com">https://www.comsol.com</a>) was used to compute the extracellular potential along realistic auditory nerve fibers (ANFs). Then the spiking behavior of the ANFs was simulated in Neuron 8.2 with a well-established compartment model of cochlear neurons where the calculated extracellular potential distributions from the FEM served as an input. The whole pipeline was controlled by a custom-written python script that ran on a server with 64 parallel threads with 256 GB RAM. To control and access the Comsol model, the python library MPh 1.2.3 (<a href="https://github.com/MPh-py/MPh">https://github.com/MPh-py/MPh</a>) was used in combination with Comsol batch commands. The Neuron model was fully implemented and controlled by using Neuron’s python interface.</p> <h3>Technical details</h3> <ul> <li>Provided as 7z files</li> <li>Do not change the folder structure of python.7z, as results are stored and reused when running the python code</li> <li>Includes: 3D cochlea geometry, Comsol model, python source code, Neuron extensions</li> <li>Runs in Windows and Linux environments</li> <li>Requires internet access for Comsol authentification during model execution</li> <li>Requires a Comsol lincence including Electric Currents modul (ec), python 3 enviroment including common (scientific) libraries, MPh library, Neuron (Yale University) installation</li> </ul> <h3>Further details</h3> <ul> <li>see readme.txt</li> <li>Code files are MIT licensed</li> </ul&gt

    Research Data for "Two for one: Semi-crystalline and amorphous multi-material structures from greyscale printing"

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    <h3>Context and methodology</h3> <p>This dataset was created from original work conducted in the framework of a PhD project. It provides the raw data of results presented and discussed therein.</p> <h3>Technical details</h3> <p><strong>Compound abbreviations</strong> in the files included herein adhere to the naming in the related publication referenced in the Related Works section, where all compounds are described in detail and drawn as structural formulas. In brief:<br>BPLC: 1,1′-[1,1′-Biphenyl]-4,4′-diyl di-10-undecenoate<br>CHTT: 1,2,4-cyclohexanetriethanethiol</p> <p><strong>Compound preparation: </strong>All bulk-cured samples and 3D printed samples were cured from formulations consisting of equimolar reactive end groups of BPLC and CHTT. They were cured with 1 mol% (based on terminal double bonds) of photoinitiator (2,4,6-trimethylbenzoyl)-phosphine oxide (TPO). 0.2 wt% pyrogallol were utilized as inhibitor. Detailed discussion of experimental procedures are reported in the publication.</p> <p>The compressed folder <strong>"Raw Data.zip"</strong> contains the following:</p> <p><strong>Text file 'Readme.txt': <br></strong>Text file containing the technical details how the dataset can be used, and which is additionally listed here.</p> <p><strong>Microsoft Excel file 'Raw Data.xlsx': </strong><br>Tab 1: Raw data obtained via differential scanning calorimetry (DSC) of the monomer BPLC and bulk cured and 3D printed polymer samples<br>Tab 2: Raw data obtained via dynamic mechanical analysis (DMA) of bulk cured and 3D printed polymer samples<br>Tab 3: Raw data obtained via tensile tests of bulk cured and 3D printed polymer samples<br>Tab 4: Raw data obtained via shape memory tests of a bulk cured polymer sample<br>Tab 5: Raw data obtained via FTIR-VIS-spectroscopy of 3D printed polymer samples<br>Tab 6: Raw data obtained via Density measurements of 3D printed polymer samples and the uncured formulation via the Archimedes method<br>Tab 7: Raw data obtained via Real time photorheology measurements<br>Tab 8: Raw data obtained via Curing depth measurements on the 3D printer<br>Tab 9: Raw data obtained via Melt rheology stability tests of the formulation<br>Tab 10: Raw data obtained via swelling study of 3D printed polymer samples<br>Tab 11: Raw data obtained via temperature measurements of the heating and cooling cycle of a multimaterial print of one layer<br>Tab 12: Raw data obtained via Attenuated total reflection infrared spectroscopy (ATR-IR) of the uncured formulation and 3D printed polymer samples before and after post-curing</p> <p>The<strong> “3D prints additional data” folder </strong>contains two sub-folders:</p> <p><em>1. "Mesh Files": STL files for all mono-material printed parts</em><br>•    TensileTest<br>•    DMA<br>•    Chip<br>•    Pyramid</p> <p><em>2. "Voxel slices" for voxel-based models of all multi-material printed parts:</em><br>For the multi-material parts, where voxel-based models were used, the slices that were used to compound the printed parts are included in png format. <br>There is currently no known standard when it comes to encoding multi-material models for light-based 3D printing (vat photopolymerization). Since we used a digital light processing (DLP) light engine with a resolution of 1920 x 1080 pixel, all images required for the light engine have to be in that format. In our voxel-based modelling environment, models can be stored as a set of images in png-format, where each image represents one printed layer. Each image is processed in the printing process as follows: If the original png image has colour information or a bit depth greater than 8, the image gets converted to a grayscale image with bit depth of 8 (which allows 28 possible values, ranging from black to white).  Each pixel is then interpreted:<br>•    Black pixel (value: 0): Nothing is printed<br>•    Grey pixel (value in range 1 – 254): Printed with the crystalline property<br>•    White pixel (value: 255):  Printed with the amorphous property<br>List of folders containing the voxel slices in png-format for each of the printed multi-material objects:<br>•    "5LayerTensileTest"<br>•    "QrCodeHidden"<br>•    "QrCodeRegular"<br>•    "ShapeMemoryCubeFaces"<br>•    "Skelett"<br>•    "WarningSign"<br>•    "TensileTestCrossSection"</p> <p>The folder <strong>"3D Printing Code" </strong>contains code for the print job programming for all types of 3D printing processes performed in the related publication. A separate readme file ("readme_printjobs.txt") is included in the zip-file for further information on how to use the provided scripts.<br>The used python version is <strong>3.10</strong> and for numpy version <strong>1.24.2</strong> was used. The codes are therefore well-tested for these versions.<br>The Printer-Interface in this folder (PrinterInterface.pyi) is sufficient to understand the concept and to program the printer. To make the files executable for the printer. During the code application, the import of the interface file is replaced with a concrete implementation for the used 3D printing hardware. Therefore, the code files are mainly there to demonstrate how the specific print process demonstrated in the preprint works. To reuse the code for one's own specific 3D-printer, one's own, specific implementation for the respective 3D printing hardware must be used.</p> <p>The <strong>mp4 file "SupplementaryVideo_MultimaterialPrinting_GöschlLaaEtAl"</strong> has also been included in the raw data collection, displaying the heating of the multi-layer printed QR-Code, thereby deleting crystallinity in the top cover layer and revealing the QR code underneath, which is isolated from the heat via several amorphous printed layers. A detailed description of the experiment can be found in the manuscript referenced below.</p&gt

    Evaluation of the qualitative survey of AR-supported building hearing

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    <p><strong>Context and methodology</strong></p> <p>The data set contains the results of the qualitative survey of AR-supported and conventional building hearings simulated in the course of BRISE-Vienna research project. A total of seven test participants took part in the trials, playing the roles of neighbours. In addition, seven officials from the Vienna building authority took part and led the hearings. In order to assess the impact of AR-supported construction hearings, the test subjects completed a questionnaire afterwards. These are open-ended and dichotomous questions. In addition, statements are evaluated using a 5-point verbalised Likert-type scale. The information obtained and the questions asked are part of this data set.</p> <p><strong>Technical details</strong></p> <p>The data is available in German as CSV files.<br>The file <code>Qualitative-Erhebung-Bauverhandlung.csv</code> uses Macintosh Latin encoding, <code>Qualitative-Erhebung-Bauverhandlung-UTF8.csv</code> uses UTF-8.</p> <p><strong>Structure</strong></p> <p>Columns A and B generally refer to the question asked, the remaining columns refer to the answers.<br>Rows that don't have values in columns A or B are headers that indicate which type of question/answers follow in the next block.<br>Likert scale questions/answers are marked with "Bewertungsskala", and columns C-G contain the number of answers for each option (C=1, ... G=5; see the second row).<br>Binary answers are marked with a "Ja"/"Nein" (or "konventionell"/"AR-supported") header, optionally with comments in column E if the header has "Anmerkungen" in that column.<br>Answers to open-ended questions have their textual answers in column C, where answer statements are separated by semicolons and are not marked with a header before.</p&gt

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