1,674 research outputs found

    LIPIcs, Volume 251, ITCS 2023, Complete Volume

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    LIPIcs, Volume 251, ITCS 2023, Complete Volum

    Proceedings of SIRM 2023 - The 15th European Conference on Rotordynamics

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    It was our great honor and pleasure to host the SIRM Conference after 2003 and 2011 for the third time in Darmstadt. Rotordynamics covers a huge variety of different applications and challenges which are all in the scope of this conference. The conference was opened with a keynote lecture given by Rainer Nordmann, one of the three founders of SIRM “Schwingungen in rotierenden Maschinen”. In total 53 papers passed our strict review process and were presented. This impressively shows that rotordynamics is relevant as ever. These contributions cover a very wide spectrum of session topics: fluid bearings and seals; air foil bearings; magnetic bearings; rotor blade interaction; rotor fluid interactions; unbalance and balancing; vibrations in turbomachines; vibration control; instability; electrical machines; monitoring, identification and diagnosis; advanced numerical tools and nonlinearities as well as general rotordynamics. The international character of the conference has been significantly enhanced by the Scientific Board since the 14th SIRM resulting on one hand in an expanded Scientific Committee which meanwhile consists of 31 members from 13 different European countries and on the other hand in the new name “European Conference on Rotordynamics”. This new international profile has also been emphasized by participants of the 15th SIRM coming from 17 different countries out of three continents. We experienced a vital discussion and dialogue between industry and academia at the conference where roughly one third of the papers were presented by industry and two thirds by academia being an excellent basis to follow a bidirectional transfer what we call xchange at Technical University of Darmstadt. At this point we also want to give our special thanks to the eleven industry sponsors for their great support of the conference. On behalf of the Darmstadt Local Committee I welcome you to read the papers of the 15th SIRM giving you further insight into the topics and presentations

    Irish Ocean Climate and Ecosystem Status Report

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    Summary report for Irish Ocean Climate & Ecosystem Status Report also published here. This Irish Ocean Climate & Ecosystem Status Summary for Policymakers brings together the latest evidence of ocean change in Irish waters. The report is intended to summarise the current trends in atmospheric patterns, ocean warming, sea level rise, ocean acidification, plankton and fish distributions and abundance, and seabird population trends. The report represents a collaboration between marine researchers within the Marine Institute and others based in Ireland’s higher education institutes and public bodies. It includes authors from Met Éireann, Maynooth University, the University of Galway, the Atlantic Technological University, National Parks and Wildlife, Birdwatch Ireland, Trinity College Dublin, University College Dublin, Inland Fisheries Ireland, The National Water Forum, the Environmental Protection Agency, and the Dundalk Institute of Technology.This report is intended to summarise the current trends in Ireland’s ocean climate. Use has been made of archived marine data held by a range of organisations to elucidate some of the key trends observed in phenomena such as atmospheric changes, ocean warming, sea level rise, acidification, plankton and fish distributions and abundance, and seabirds. The report aims to summarise the key findings and recommendations in each of these areas as a guide to climate adaptation policy and for the public. It builds on the previous Ocean Climate & Ecosystem Status Report published in 2010. The report examines the recently published literature in each of the topic areas and combines this in many cases with analysis of new data sets including long-term time series to identify trends in essential ocean variables in Irish waters. In some cases, model projections of the likely future state of the atmosphere and ocean are presented under different climate emission scenarios.Marine Institut

    Microcircuit structures of inhibitory connectivity in the rat parahippocampal gyrus

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    Komplexe Berechnungen im Gehirn werden durch das Zusammenspiel von exzitatorischen und hemmenden Neuronen in lokalen Netzwerken ermöglicht. In kortikalen Netzwerken, wird davon ausgegangen, dass hemmende Neurone, besonders Parvalbumin positive Korbzellen, ein „blanket of inhibition” generieren. Dieser Sichtpunkt wurde vor kurzem durch Befunde strukturierter Inhibition infrage gestellt, jedoch ist die Organisation solcher Konnektivität noch unklar. In dieser Dissertation, präsentiere ich die Ergebnisse unserer Studie Parvabumin positiver Korbzellen, in Schichten II / III des entorhinalen Kortexes und Präsubiculums der Ratte. Im entorhinalen Kortex haben wir dorsale und ventrale Korbzellen beschrieben und festgestellt, dass diese morphologisch und physiologisch ähnlich, jedoch in ihrer Konnektivität zu Prinzipalzellen dorsal stärker als ventral verbunden sind. Dieser Unterschied korreliert mit Veränderungen der Gitterzellenphysiologie. Ähnlich zeige ich im Präsubiculum, dass inhibitorische Konnektivität eine essenzielle Rolle im lokalen Netzwerk spielt. Hemmung im Präsubiculum ist deutlich spärlicher ist als im entorhinalen Kortex, was ein unterschiedliches Prinzip der Netzwerkorganisation suggeriert. Um diesen Unterschied zu studieren, haben wir Morphologie und Netzwerkeigenschaften Präsubiculärer Korbzellen analysiert. Prinzipalzellen werden über ein vorherrschendes reziprokes Motif gehemmt die durch die polarisierte Struktur der Korbzellaxone ermöglicht wird. Unsere Netzwerksimulationen zeigen, dass eine polarisierte Inhibition Kopfrichtungs-Tuning verbessert. Insgesamt zeigen diese Ergebnisse, dass inhibitorische Konnektivität, funktioneller Anforderungen der lokalen Netzwerke zur Folge, unterschiedlich strukturiert sein kann. Letztlich stelle ich die Hypothese auf, dass für lokale inhibitorische Konnektivität eine Abweichung von „blanket of inhibition― zur „maßgeschneiderten― Inhibition zur Lösung spezifischer computationeller Probleme vorteilhaft sein kann.Local microcircuits in the brain mediate complex computations through the interplay of excitatory and inhibitory neurons. It is generally assumed that fast-spiking parvalbumin basket cells, mediate a non-selective -blanket of inhibition-. This view has been recently challenged by reports structured inhibitory connectivity, but it’s precise organization and relevance remain unresolved. In this thesis, I present the results of our studies examining the properties of fast-spiking parvalbumin basket cells in the superficial medial entorhinal cortex and presubiculum of the rat. Characterizing these interneurons in the dorsal and ventral medial entorhinal cortex, we found basket cells of the two subregions are more likely to be connected to principal cells in the dorsal compared to the ventral region. This difference is correlated with changes in grid physiology. Our findings further indicated that inhibitory connectivity is essential for local computation in the presubiculum. Interestingly though, we found that in this region, local inhibition is lower than in the medial entorhinal cortex, suggesting a different microcircuit organizational principle. To study this difference, we analyzed the properties of fast-spiking basket cells in the presubiculum and found a characteristic spatially organized connectivity principle, facilitated by the polarized axons of the presubicular fast-spiking basket cells. Our network simulations showed that such polarized inhibition can improve head direction tuning of principal cells. Overall, our results show that inhibitory connectivity is differently organized in the medial entorhinal cortex and the presubiculum, likely due to functional requirements of the local microcircuit. As a conclusion to the studies presented in this thesis, I hypothesize that a deviation from the blanket of inhibition, towards a region-specific, tailored inhibition can provide solutions to distinct computational problems

    Endogenous UMIs as quantifiable reporter elements – validation studies & applications in rAAV vectorology

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    In the creation of recombinant adeno-associated viral (rAAV) vectors, terminal DNA elements known ITRs (inverted terminal repeats) of the direct the intracellular synthesis and packaging of nonviral DNA. The need to clonally amplify ITR sequences in one form or another thereby underlies the existence of all rAAV clinical products and research materials worldwide. Their tendency to form strong nonduplex structures raises problems. The genetic precursors to rAAV vectors – typically prokaryotic plasmids – are known to possess heterogenous ITR sequences as a result of replicational instability, the effects of which on vector yield and efficacy are unclear and have not been systematically explored. To shed much-needed light on this decades-old problem, I utilised unique molecular identifiers (UMIs) as reporter elements for different rAAV plasmid preparations, so that massively parallel sequencing could be used to analyse their DNA and RNA derivatives through the course of production and in vivo gene transfer. The range of vector potencies observed, while not calamitous, definitively erases the notion that this problem can be further overlooked. The success of this unconventional strategy proved to be an equally notable outcome, offering unprecedented insights into population kinetics, and achieving quantitative consistency between biological replicates comparable to q/dPCR measurement replicates of single samples. This triggered concerted efforts to formally investigate the capabilities of UMIs used in this fashion. The probabilistic principles underlying the technique were formalised and empirically validated, confirming precision capabilities akin if not superior to dPCR and qPCR at equivalent levels of stringency. Experiments also revealed a pattern of measurement bias with potentially adverse implications for other areas of count analysis including differential gene expression

    Workshop Proceedings of the 12th edition of the KONVENS conference

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    The 2014 issue of KONVENS is even more a forum for exchange: its main topic is the interaction between Computational Linguistics and Information Science, and the synergies such interaction, cooperation and integrated views can produce. This topic at the crossroads of different research traditions which deal with natural language as a container of knowledge, and with methods to extract and manage knowledge that is linguistically represented is close to the heart of many researchers at the Institut für Informationswissenschaft und Sprachtechnologie of Universität Hildesheim: it has long been one of the institute’s research topics, and it has received even more attention over the last few years

    Evaluating wild and commercial populations of Bombus terrestris ssp. audax (Harris, 1780): from genotype to phenotype.

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    Bees, including bumblebees, are highly valued for the pollination services they provide to natural ecosystems and agricultural crops. However, many bee species are facing declines, likely a result of habitat loss, pesticide use and climate change. Additionally, the use of imported commercial bumblebee colonies for crop pollination poses several risks to wild pollinators, including competition, hybridisation and pathogen spillover. A stock-take is needed of wild bees on both genetic and functional levels to identify vulnerable populations, detect local adaptations and to prevent further pollinator losses. We examine wild Irish B. terrestris ssp. audax on genomic, proteomic, and behavioural levels with reference to British and commercial populations to deepen our understanding of the selective processes acting on wild and domesticated bumblebee populations. We find that wild Irish and British populations of B. t. audax are distinctive on genomic levels and exhibit differential signatures of selection. We also find putative evidence for genetic distinctions between wild and commercial populations. A genomic examination of canonical immune genes in wild, Irish bumblebees highlighted several genes undergoing positive, purifying and possibly balancing selection, possibly reflecting their functional diversity and indicating recent adaptation. We uncover distinctions in the proteomes of wild and commercial lineages of lab-reared worker bee fat bodies and brains, as well as in the proteomic responses of these organs to pesticide exposure and infection. Finally, distinctions in the growth dynamics of wild and commercial lineages of B. t. audax colonies were identified alongside differences in the bacterial and fungal gut microbiomes of lab-reared wild and commercial workers. Overall, the findings of this thesis provide novel insights into the genetic, physiological, and behavioural distinctions between wild and domesticated populations of B. t. audax which will likely have major implications for how we conserve valuable genetic resources and manage commercial bumblebee imports
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