196,241 research outputs found

    Social media research at CELSTEC

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    Kalz, M., & Westera, W. (2010, 8 March). Social media research at CELSTEC. Workshop for external visitors of the CELSTEC Lab, Heerlen, The Netherlands: Open University of the Netherlands.The slides go with a presentation/workshop for a meeting with external visitors

    Event structure, conceptual spaces and the semantics of verbs

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    The aim of this paper is to integrate spatial cognition with lexical semantics. We develop cognitive models of actions and events based on conceptual spaces and vectors on them. The models are then used to present a semantic theory of verbs. We propose a two-vector model of events including a force vector and a result vector. We argue that our framework provides a unified account of a multiplicity of linguistic phenomena related to verbs. Among others it provides a cognitive explanation of the lexical constraint regarding manner vs. result and polysemy caused by intentionality. It also generates a unified definition of aspect

    Lifelong Learning and the E-Strategy of the Open University of the Netherlands: ou.nl

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    Westera, W., & Kalz, M. (2008). Lifelong Learning and the E-Strategy of the Open University of the Netherlands: ou.nl. In J. Stratmann & M. Kerres (Eds.), E-strategy, Strategisches Informationsmanagement für Forschung und Lehre, Medien in de Wissenschaft Band 46 (pp. 253-266). Gesellschaft für Medien in de Wissenschaft e.V, Waxmann Verlag GmbH: Münster (2008)

    From theoretical stellar spectra to realistic models of the Milky Way : a never ending Odyssey

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    The last chapter is dedicated to the compilation of the results and the discussion about the success of - but also about the problems that have arisen during - and in part also survived - this work. The main goal of this thesis was, firstly, to convert the stellar parameters given by galaxy models into observables, and then to compare these theoretical stellar distributions in different viewing directions with real observational data to check, if it is possible to find a best-fitting galaxy model for our MilkyWay. To do so, we transformed the physical parameters, i.e. the stellar mass, current age and constant chemical abundance of each star in a certain viewing direction and field size, given by ten different, detailed galaxy models that were computed with the 3D chemo-dynamical code of Samland, Hensler & Theis (1997) and Samland & Gerhard (2003) into observable absolute and apparent magnitudes and colours. For each star, we used its stellar mass, age and chemical abundance to select the corresponding evolutionary track from the stellar evolutionary track library, Padova 1994, computed by Bressan et al. (1993), Fagotto et al. (1994a, 1994b, 1994c) and Girardi et al. (1996), to derive the appropriate stellar atmospheric parameters (i.e., log g and Te�). Using stellar metallicity, effective temperature and surface gravity, we interpolate an appropriate spectral energy distribution provided by synthetic stellar spectral libraries, BaSeL 3.2 or PHOENIX, and in connection with the response filter functions of various photometric filter systems (e. g., RGU and ugriz) for observable magnitudes and colours for each star. By means of the spectrophotometric data we compile synthetic colour-magnitude diagrams, and age- and metallicity distributions for a number of viewing directions and field sizes. These theoretical data are then compared to the photometric field star observations from both the Basel and the Sloan Digital Sky Surveys. Our intention is to first compare the differences between our suite of models and observations, so as to identify the correlations between the observed data and the input parameters of our models. In a next step we want to fine-tune the model parameters to fit the Basel and/or SDSS survey data and thereby to find the best-fitting galaxy model for our MilkyWay. Unfortunately, the fine-tuning of the model galaxy parameters has not been possible1 - which forced us to limit our analysis to only 10 different models without any further adjustments. 6.1. Success Before starting our comparison of theoretical with observational data, we complete the BaSeL 3.1 (Westera 2001; Westera et al. 2002)- and the PHOENIX (Hauschildt & Baron 1999, 2004) stellar spectral libraries by implementing a grid of theoretical white dwarf stellar spectra covering high surface gravities (log g > 5.0) and high effective temperatures (50’000 K � Te� � 100’000 K) calculated by Koester (2004). Similarly, we also include hot central star spectra of planetary nebulae computed by Rauch (2003) that cover a temperature range of 100’000 � Te� � 1’000’000 K and surface gravities of 5.0 � log g � 9.0. Finally, we end up with a useful tool for reproducing stellar data of various stellar types on different photometric systems, such as RGU and SDSS. By means of these theoretical spectral libraries the interpretation of any stellar data (e.g., SDSS SEGUE proprietary data) in terms of physical stellar parameters is highly warranted. As mentioned above, for our comparison we only have ten model galaxies available. Out of these ten, we find the best-fitting model galaxy to be the spiral model galaxy S10, described in detail in Subsection 3.2.2. During our work of comparison we gained deeper insights into all the different fields of work that are involved in the conversion of the model data into observables. The major ingredients of this study are highlighted in blue in the previous paragraph: stellar evolutionary models, stellar atmosphere models, photometric system parameters, and last, but not least: the chemo-dynamical galaxy models themselves . Beside the fact, that gathering and comprehending the actual knowledge of all of them is a great challenge, the coin also has another side: each field of work still has some unknown or untested parts and therefore brings its own, sometimes inestimable, uncertainties with it. We track down several inconsistencies in the above-mentioned ingredients and discuss them in due detail in the present work. In future work, we suggest that appropriate corrections be applied, before making further and unbiased comparisons. In the next Sections, we enlist the major inconsistencies between the surveys, spectral libraries and between synthetic and observed SDSS colours and propose possible future scientific projects. 6.2. Problems and uncertainties 6.2.1. Chemo-dynamical galaxy model Westera et al. (2002) showed that the bulge colours derived from disk galaxy formation models of Samland & Gerhard (2003) agree very well with Hubble Deep Field North bulge colours. In our case, where we are immersed in a galaxy model and compare its spatial stellar distributions and luminosity functions with the much more detailed substructures of our own Galaxy, no such good agreement can be found. The validity of any galactic model is always questionable, as it describes a smooth and in the case of the Samland models an axially symmetric galaxy, while in our days we know through observations that inhomogeneities exist even in the disk or in the halo. Thanks to the increasing computational power, we are able to simulate the formation and evolution of a disk galaxy in three-dimensional numerical models, including the most important physical processes. But even in our days, the computational power has its limits. Therefore, it is not possible to account for all the processes acting from the atomic to the galactic scales. In the Samland code, the stellar particles are created and distributed according to the star formation. The restriction to the fundamental processes, which determine the galactic evolution, may affect the detailed shape of the star formation history. Too many important details influence the formation and evolution of a model star that affect the stellar radiative properties and spatial distributions in a crucial way, which exceeds by far the error bars of the empirical calibrations of the local luminosity functions. Beside these general problems of simulating complex interactions, the Samland code revealed additional artefacts, as we have seen for example in Subsection 5.1.2. Unfortunately, the easily implementable adjustments to the code are not possible anymore, as mentioned above. 6.2.2. Stellar evolutionary tracks and synthetic photometry Stellar evolutionary tracks Even though the stellar evolutionary models are increasingly sophisticated, with improved physics, various uncertainties still lie in the description of the details in the shape of stellar evolutionary tracks, and the evolutionary lifetimes. Here we just mention some of them: Core convection, mass loss, mixing length, rotation, diffusion, meridional circulation, and nuclear reactions. Additionally, the complete set of evolutionary tracks of the Padova94 library does not include the TP-AGB nor the post-AGB phase. On account of this we adopted the enhancements of Bruzual & Charlot (2003) that consist only of simplified descriptions of these phases. Spectral libraries In addition, we have shown that the two theoretical stellar spectral libraries, BaSeL 3.2 and PHOENIX, do not provide matching synthetic colours throughout the full parameter ranges. The largest differences between the two stellar spectral libraries show up in almost all colours at lower effective temperatures (3’500 � Te� ) and higher surface gravities (2.5 � log g) (see A.1). Due to the bright limiting apparent magnitudes that we apply to produce model colours under the same conditions as the observed colours, these uncertainties do not affect our work that much. Still, the (small) contribution of such stars that are not yet sufficiently tested is difficult to estimate and their impacts on the stellar radiative properties not yet definitely determined. Filter functions The comparison of the SDSS survey- with the model star counts reveals a satisfying agreement in the u-gcolour. Unfortunately, other colours do not show the same result, and therefore lead us to analyse the SDSS colours more deeply. The comparison of theoretical and observed stellar distributions in the i-z versus r-i- plane (see 5.2) demonstrates impressively, that the observed two-colour distribution can not be reproduced by synthetic colours of any theoretical stars. Only synthetic colours transformed from the Johnson-Cousins system (Jordi, Grebel & Ammon 2005) follow the i-z versus r-i colour relation of the observed stars correctly. By contrast, the transformed synthetic model and the observed stars in the g-r versus u-g- plane fit well. The conclusion appears inevitable that three published SDSS filter functions (r, i and z) do not match the observational system, and are therefore responsible for this deviation. 6.2.3. Observational data The comparison of the Basel survey with our model galaxies reveals large inadjustable inconsistencies in star counts in all the available viewing directions. We therefore include checks on SDSS data and compare the apparent magnitude histograms of stars in common fields. A comparison of the Basel- with the Sloan Digital Sky Survey uncovers unexpected large systematic deviations between the apparent magnitude histograms in the magnitude range that is common to both surveys. The higher resolution of the SDSS CCD photometry compared with the one of the Basel survey can only partly explain the differences of these two surveys. By comparing three fields that both surveys have in common, Jordi, Grebel & Ammon (2005) discovered uncertainties concerning the identification of some of the observed objects: Some objects recognised by the Sloan Digital Sky Survey as galaxies are treated as stars in the Basel survey. In other cases, the SDSS detector simply did not observe a star, whereas the Basel survey detected one. Occasionally the SDSS detected a fainter object within a radius of 1" to 3" of the dominant star, whereas Basel detected only one single source. Around 10 % of the Basel stars are not identified in the SDSS catalogue as single stars. In our work we compare (assumed) observed single stars with single model stars. If a survey classifies galaxies or the like as single stars, the whole stellar spatial distribution gets affected. Furhermore, the SDSS survey has a saturation cutoff at the apparent magnitude of r ~ 14.0, which means that the images of all stars brighter than this magnitude contain saturated pixels and that their photometry is questionable. Another uncertainty of the SDSS DR3 are quasars which have not yet been separated. And, as we showed in Subsection 5.2, a satisfactory algorithm to unambiguously identify and exclude all quasars from a mixed stellar sample does not exist. But all this is not a final explanation, why these two surveys end up with different star numbers. Of course, such mismatches between the two surveys do not allow a definite validation of the model. Because of all these still considerable inconsistencies and uncertainties accompanying the use of the major ingredients (stellar evolutionary models of Padova, stellar atmosphere models of the BaSeL 3.2 and the PHOENIX library, photometric system parameters, such as the SDSS filter functions, and last but not least: the chemodynamical model galaxies) mentioned above, we are unable - unfortunately - to draw final conclusions about the validity of the Samland models, or to find a unique best-fitting solution for the Milky Way

    Personalised learning: a familiar concept to teachers? And which teachers? - A questionnaire-based survey of 43 secondary school teachers

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    Verpoorten, D., Renson, J.-M., Westera, W., & Specht, M. (2009). Personalised learning: a familiar concept to teachers? And which teachers? - A questionnaire-based survey of 43 secondary school teachers. In S. Walker, M. Ryan, & R. Teed (Eds.), Proceedings of the e-learning @ Greenwich Conference (pp. 61-67). Greenwich, UK. Please see also http://dspace.ou.nl/handle/1820/2096This paper presents the main results of a questionnaire survey that sought to evaluate secondary school teachers’ familiarity with the notion of personalised learning and to relate it to personal, sociological and professional characteristics. The outcomes of this work are both an exploratory study aimed at defining more focused questions about the theme of personalisation, and the first tryout of the questionnaire designed to gather data. Although this was thus a preliminary study which did not lay claim to any more general scope, it still enables some hypotheses to be framed and examined in the light of the answers of 43 practitioners

    Rising declaratives of the quality-suspending kind

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    The theory of Intonational Compliance Marking (ICM) maintains that speakers of English use final rising intonation to indicate a suspension (potential violation) of a conversational maxim (Westera 2013; 2014). This paper aims to show that a certain kind of rising declarative, one which has been prominent in the literature (e.g., Gunlogson 2008), can be adequately understood in ICM’s terms as involving a suspension of the maxim of Quality. By explicating certain minimal assumptions about pragmatics, this understanding accounts for three core features of such rising declaratives: their question-likeness, the speaker bias they express and their badness out of the blue. In a nutshell, their question-likeness is derived from principles of general cooperative discourse, their bias from the relative importance of the maxim of Quality, and their badness out of the blue from a competition between rising declaratives and interrogatives. The account is compared in detail to various existing accounts of rising declaratives of the relevant sort, highlighting explanatory and empirical differences.This work has benefited from detailed commentary by four anonymous reviewers for Glossa, as well as Jeroen Groenendijk and Floris Roelofsen. Any remaining errors are of course my own. This project has received funding from the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation programme (grant agreement No 715154)

    Under attack: the heptathlon scoring method

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    Westera, W. (2007). Under attack: the heptathlon scoring method. Canadian Athletics Coaching Centre. Available as e-paper at http://www.athleticscoaching.ca.This paper discusses the scoring method that is currently being used in women’s heptathlon (athletics) and presents the outcomes of alternative scoring methods that display improved fairness and validity. In the March/April 2006 issue of New Studies in Athletics1 a revision has been proposed of the decathlon scoring method of the IAAF (see also the Atletics coaching website2). An analysis of the world top 100 decathlons showed that decathletes gather far more points in sprinting-based events like 100 m, 110 m hurdles and long jump than in throwing events (shot put, javelin, discus) and endurance (1500 m). Starting from the premise that allroundness is the true basis of decathlon, the current scoring method displays unacceptable bias as it favours some of the events and defers others. It lacks fairness and validity, because sprinters benefit disproportionately. In the NSA-paper, three alternative models have been proposed as candidates for replacing the existing model. The alternative scoring methods are uniform over the events and support self-stabilisation. They combine practical evidence and sound principles. Calibration to the current model is performed with existing data in order to enable smooth transitions from existing practice. As will be shown in the current paper, the women’s heptathlon displays similar anomalies and would also need alternative ways of converting performances into scores. Empirical heptathlon data have been fed into the alternative models and the outcomes are presented

    Open Source Elektronische Leeromgevingen, over de gebruiksmogelijkheden in het Nederlands hoger onderwijs

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    Westera, W., Kerstjens, W., Hermans, H., Nadolski, R., & Wigman, M. (2007). Open Source Elektronische Leeromgevingen, Over de gebruiksmogelijkheden in het Nederlands hoger onderwijs. E-Learning Research reeks. Utrecht, Nederland: SURF-foundation.Dit rapport brengt in beeld hoe hoger onderwijsinstellingen in Nederland bij de inrichting van hun elektronische leeromgeving omgaan met open source software-oplossingen

    De zeven zonden van de wetenschap- en techniekcommunicatie

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    Westera, W. (2004). De zeven zonden van de wetenschap- en techniekcommunicatie. In M. L. Noorlander & M. A. G. Westbroek (Eds.), Kennisdagen Communicatie 2004. Papers en positiepapers. Amsterdam, Nederland: Stichting Weten (also available at http://www.knooppuntwtc.nl/).Dit artikel plaats grote vraagtekens bij de wijze waarop de wetenschap- en techniekcommunicatie in de praktijk functioneert. De publiekscommunicatie is onvoldoende vernieuwend en lijkt te persisteren in een aantal standaardpatronen waarvan al lange tijd bekend is dat ze problematisch zijn en niet effectief. De problemen betreffen de onheldere motieven van de publiekscommunicatie, de inhoud van de publiekscommunicatie, de aard ervan en de vorm waarin deze wordt gegoten, de houding die daarbij ten opzichte van het publiek wordt aangenomen, het vertekende beeld van wetenschap en techniek dat daardoor ontstaat en de negatieve effecten die dat beeld uiteindelijk sorteert. In extremo heeft de publiekscommunicatie een averechtse werking: de kloof tussen wetenschap en publiek wordt vergroot, waar juist een verkleining wordt nagestreefd. Dat tekent de noodzaak voor een fundamentele bezinning over de plaats en rol van de wetenschap- en techniekcommunicatie
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