How FAIR can you get? Image Retrieval as a Use Case to calculate FAIR Metrics

A large number of services for research data management strive to adhere to the FAIR guiding principles for scientific data management and stewardship. To evaluate these services and to indicate possible improvements, use-case-centric metrics are needed as an addendum to existing metric frameworks. The retrieval of spatially and temporally annotated images can exemplify such a use case. The prototypical implementation indicates that currently no research data repository achieves the full score. Suggestions on how to increase the score include automatic annotation based on the metadata inside the image file and support for content negotiation to retrieve the images. These and other insights can lead to an improvement of data integration workflows, resulting in a better and more FAIR approach to manage research data.Comment: This is a preprint for a paper accepted for the 2018 IEEE conferenc

Can Computational Meta-Documentary Linguistics Provide for Accountability and Offer an Alternative to "Reproducibility" in Linguistics?

As an answer to the need for accountability in linguistics, computational methodology and big data approaches offer an interesting perspective to the field of meta-documentary linguistics. The focus of this paper lies on the scientific process of citing published data and the insights this gives to the workings of a discipline. The proposed methodology shall aid to bring out the narratives of linguistic research within the literature. This can be seen as an alternative, philological approach to documentary linguistics

Report on the 9th International Conference on Austroasiatic Linguistics (ICAAL9) at Lund University, Sweden, November 18–19, 2021

This is a report on the 9th International Conference on Austroasiatic Linguistics (ICAAL9) at Lund University, Sweden, November 18–19, 2021, as well as a summary of the history and future plans of ICAAL

Numerical Field Simulations of Composite Material

In the following work, results are presented which increase the understanding of the properties of composite material consisting of a non-magnetic matrix and ferromagnetic, spherical inclusions which fulfill the conditions of a homogeneous effective medium. Especially, we are interested in the shift of the ferromagnetic resonance frequency and the effective permeability tensor in dependence of the material properties and the microstructure of the composite. For generating the data of interest, various numerical simulation methods, including calculation of the static orientation of the magnetic moments, modelling of the of waveguide-based transmission and reflection experiments and corresponding evaluation methods, are used. With the methods at hand, we are able to analyze as well composite bulk material as finite samples and consider different kinds of inclusion arrangements from simple cubic lattices to random insertion. One of the main tasks during this work was to find possibilites to produce results with low inclusion numbers, to which we are restricted due to high memory consumptions in the high-frequency simulations, which also coincide with the large system limit. Even if we come up against limits due to finite memory resources leading to artifacts, we identify and isolate different, counteracting effects which cause a shifting of the ferromagnetic resonance frequency.In der vorliegenden Arbeit werden Ergebnisse präsentiert, die das Verständnis von Eigenschaften von Kompositmaterialien erhöhen, die aus einer nichtmagnetischen Matrix und ferromagnetischen, kugelförmigen Inklusionen bestehen, die die Bedingungen des homogenen effektiven Mediums erfüllen. Besonderes Interesse gilt dabei der Verschiebung der ferromagnetischen Resonanz und dem effektiven Permeabilitätstensors in Abhängigkeit der Materialeigenschaften und der Mikrostruktur des Komposits. Für die Untersuchung werden zahlreiche Simulationsmethoden zur Berechnung der statischen Orientierung der magnetischen Momente, zur Modellierung der wellenleitergestützten Transmissions- und Reflexionsexperimente und entsprechende Auswertemethoden eingesetzt. Mit den zur Verfügung stehenden Methoden können sowohl unendlich ausgedehnte als auch endliche Kompositproben und verschiedene Anordnungen der Inklusionen, vom einfach kubischen Gitter bis zum zufälligen Einwurf, untersucht werden. Eine der Hauptaufgaben dieser Arbeit war es, Möglichkeiten zu finden, um mit geringen Inklusionszahlen, auf die wir in den Hochfrequenzsimulationen aufgrund deren hohen Speicherverbrauchs beschränkt sind, Ergebnisse zu produzieren, die auch für den Grenzfall großer Systeme gelten. Obwohl wir dabei auf Grenzen und daraus resultierende Artefakte stoßen, isolieren wir verschiedene, sich entgegenwirkende Effekte, die eine Verschiebung der ferromagnetischen Resonanzfrequenz verursachen

Motion Planning for Triple-Axis Spectrometers

We present the free and open source software TAS-Paths, a novel system which calculates optimal, collision-free paths for the movement of triple-axis spectrometers. The software features an easy to use graphical user interface, but can also be scripted and used as a library. It allows the user to plan and visualise the motion of the instrument before the experiment and can be used during measurements to circumvent obstacles. The instrument path is calculated in angular configuration space in order to keep a maximum angular distance from any obstacle.Comment: 6 pages, 4 figure