Global ETD Search

1	Conjecturing (and Proving) in Dynamic Geometry after an Introduction of the Dragging Schemes Baccaglini-Frank, Anna 11 April 2012 (has links) (PDF) This paper describes some results of a research study on conjecturing and proving in a dynamic geometry environment (DGE), and it focuses on particular cognitive processes that seem to be induced by certain uses of tools available in Cabri (a particular DGE). Building on the work of Arzarello and Olivero (Arzarello et al., 1998, 2002; Olivero, 2002), we have conceived a model describing some cognitive processes that may occur during the production of conjectures and proofs in a DGE and that seem to be related to the use of specific dragging schemes, in particular to the use of the scheme we refer to as maintaining dragging. This paper contains a description of aspects of the theoretical model we have elaborated for describing such cognitive processes, with specific attention towards the role of the dragging schemes, and an example of how the model can be used to analyze students’ explorations. Vermutung formulieren schlussfolgern schlussfolgern nach Schema dynamische Geometrie erforschen Invariante Schlussfolgerung ziehen Pfad conjecturing dragging dragging schemes dynamic geometry exploration invariant maintaining dragging path ddc:510 rvk:SD 2009
2	Polynomial-Time Reasoning Support for Design and Maintenance of Large-Scale Biomedical Ontologies Suntisrivaraporn, Boontawee 05 February 2009 (has links) (PDF) Description Logics (DLs) belong to a successful family of knowledge representation formalisms with two key assets: formally well-defined semantics which allows to represent knowledge in an unambiguous way and automated reasoning which allows to infer implicit knowledge from the one given explicitly. This thesis investigates various reasoning techniques for tractable DLs in the EL family which have been implemented in the CEL system. It suggests that the use of the lightweight DLs, in which reasoning is tractable, is beneficial for ontology design and maintenance both in terms of expressivity and scalability. The claim is supported by a case study on the renown medical ontology SNOMED CT and extensive empirical evaluation on several large-scale biomedical ontologies. Description Logic Tractable reasoning Polynomial algorithms Biomedical ontologies Ontology design CEL reasoner DL systems Beschreibungslogik polynomielle Schlussfolgerung polynomielle Algorithmen biomedizinische Ontologien Ontologie-Entwurf CEL Reasoner Beschreibungslogik-Systeme ddc:004 rvk:ST 134
3	Conjecturing (and Proving) in Dynamic Geometry after an Introduction of the Dragging Schemes Baccaglini-Frank, Anna 11 April 2012 (has links) This paper describes some results of a research study on conjecturing and proving in a dynamic geometry environment (DGE), and it focuses on particular cognitive processes that seem to be induced by certain uses of tools available in Cabri (a particular DGE). Building on the work of Arzarello and Olivero (Arzarello et al., 1998, 2002; Olivero, 2002), we have conceived a model describing some cognitive processes that may occur during the production of conjectures and proofs in a DGE and that seem to be related to the use of specific dragging schemes, in particular to the use of the scheme we refer to as maintaining dragging. This paper contains a description of aspects of the theoretical model we have elaborated for describing such cognitive processes, with specific attention towards the role of the dragging schemes, and an example of how the model can be used to analyze students’ explorations. info:eu-repo/classification/ddc/510 ddc:510
4	Polynomial-Time Reasoning Support for Design and Maintenance of Large-Scale Biomedical Ontologies Suntisrivaraporn, Boontawee 21 January 2009 (has links) Description Logics (DLs) belong to a successful family of knowledge representation formalisms with two key assets: formally well-defined semantics which allows to represent knowledge in an unambiguous way and automated reasoning which allows to infer implicit knowledge from the one given explicitly. This thesis investigates various reasoning techniques for tractable DLs in the EL family which have been implemented in the CEL system. It suggests that the use of the lightweight DLs, in which reasoning is tractable, is beneficial for ontology design and maintenance both in terms of expressivity and scalability. The claim is supported by a case study on the renown medical ontology SNOMED CT and extensive empirical evaluation on several large-scale biomedical ontologies. info:eu-repo/classification/ddc/004 ddc:004
5	Estimating and Correcting the Effects of Model Selection Uncertainty / Estimating and Correcting the Effects of Model Selection Uncertainty Nguefack Tsague, Georges Lucioni Edison 03 February 2006 (has links) No description available. 310 Statistik LCB 020 Economics and Management Science Modellauswahl Modellunsicherheit Modellauswahlwahrscheinlichkeit Post-model-selection Schätzung Schlussfolgerung Bayesianische Modellmittelung (BMA) frequentistische Modellmittelung Akaike-Gewichte Bootstrap. Model selection Model uncertainty Model selection probability Post-model-selection estimation Inference Bayesian model averaging Frequentist model averaging Akaike weights Bootstrap. 83.03
6	Confidence bands in quantile regression and generalized dynamic semiparametric factor models Song, Song 01 November 2010 (has links) In vielen Anwendungen ist es notwendig, die stochastische Schwankungen der maximalen Abweichungen der nichtparametrischen Schätzer von Quantil zu wissen, zB um die verschiedene parametrische Modelle zu überprüfen. Einheitliche Konfidenzbänder sind daher für nichtparametrische Quantil Schätzungen der Regressionsfunktionen gebaut. Die erste Methode basiert auf der starken Approximation der empirischen Verfahren und Extremwert-Theorie. Die starke gleichmäßige Konsistenz liegt auch unter allgemeinen Bedingungen etabliert. Die zweite Methode beruht auf der Bootstrap Resampling-Verfahren. Es ist bewiesen, dass die Bootstrap-Approximation eine wesentliche Verbesserung ergibt. Der Fall von mehrdimensionalen und diskrete Regressorvariablen wird mit Hilfe einer partiellen linearen Modell behandelt. Das Verfahren wird mithilfe der Arbeitsmarktanalysebeispiel erklärt. Hoch-dimensionale Zeitreihen, die nichtstationäre und eventuell periodische Verhalten zeigen, sind häufig in vielen Bereichen der Wissenschaft, zB Makroökonomie, Meteorologie, Medizin und Financial Engineering, getroffen. Der typische Modelierungsansatz ist die Modellierung von hochdimensionalen Zeitreihen in Zeit Ausbreitung der niedrig dimensionalen Zeitreihen und hoch-dimensionale zeitinvarianten Funktionen über dynamische Faktorenanalyse zu teilen. Wir schlagen ein zweistufiges Schätzverfahren. Im ersten Schritt entfernen wir den Langzeittrend der Zeitreihen durch Einbeziehung Zeitbasis von der Gruppe Lasso-Technik und wählen den Raumbasis mithilfe der funktionalen Hauptkomponentenanalyse aus. Wir zeigen die Eigenschaften dieser Schätzer unter den abhängigen Szenario. Im zweiten Schritt erhalten wir den trendbereinigten niedrig-dimensionalen stochastischen Prozess (stationär). / In many applications it is necessary to know the stochastic fluctuation of the maximal deviations of the nonparametric quantile estimates, e.g. for various parametric models check. Uniform confidence bands are therefore constructed for nonparametric quantile estimates of regression functions. The first method is based on the strong approximations of the empirical process and extreme value theory. The strong uniform consistency rate is also established under general conditions. The second method is based on the bootstrap resampling method. It is proved that the bootstrap approximation provides a substantial improvement. The case of multidimensional and discrete regressor variables is dealt with using a partial linear model. A labor market analysis is provided to illustrate the method. High dimensional time series which reveal nonstationary and possibly periodic behavior occur frequently in many fields of science, e.g. macroeconomics, meteorology, medicine and financial engineering. One of the common approach is to separate the modeling of high dimensional time series to time propagation of low dimensional time series and high dimensional time invariant functions via dynamic factor analysis. We propose a two-step estimation procedure. At the first step, we detrend the time series by incorporating time basis selected by the group Lasso-type technique and choose the space basis based on smoothed functional principal component analysis. We show properties of this estimator under the dependent scenario. At the second step, we obtain the detrended low dimensional stochastic process (stationary). Bootstrap Quantilsregression Konsistenzrate Selbstvertrauen Band Check-Funktion Kernel Smoothing Nichtparametrische Fitting Teilweise Lineares Modell Semiparametrische Modell Faktor-Modell Saisonalität Periodisch Asymptotische Schlussfolgerung Wetter fMRI Group Lasso Implizite Volatilität Oberfläche fMRI Bootstrap Quantile Regression Consistency Rate Confidence Band Check Function Kernel Smoothing Nonparametric Fitting Partial Linear Model Factor model Group Lasso Seasonality Periodic Asymptotic inference Weather Semiparametric model Implied volatility surface 330 Wirtschaft 17 Wirtschaft QH 234 ddc:330

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