L’idée d’un «premier niveau de réflexion» chez Karl Rahner : concept-clé d’une proposition de réforme des études théologiques à l’école de Saint Ignace

Au début de son Traité fondamental de la foi, Karl Rahner avise le lecteur que l’introduction au concept de christianisme qu’il propose se déploie à ce qu’il nomme un « premier niveau de réflexion » (erste Reflexionsstufe). S’il le distingue explicitement du niveau de réflexion des sciences entendues au sens usuel, il n’en donne pas de définition formelle, s’employant plutôt à le mettre en œuvre. Curieusement, eu égard à l’importance que lui accorde Rahner, la question de ce « plan » alternatif de compréhension et de justification de la foi chrétienne est demeurée pratiquement sans écho (un constat formulé par Max Seckler en 1984 et renouvelé par Karl H. Neufeld en 2006). C'est à cette question du « premier niveau de réflexion » chez Rahner que s'attache la présente étude. Après avoir dressé un état de la question, nous y présentons les jalons du déve-loppement du concept chez Rahner, depuis ses articles sur la formation des prêtres en contexte de pluralisme jusqu’au Traité fondamental de la foi. Nous y montrons ensuite en quoi la référence de Rahner à l'illative sense newmanien, contestée lorsqu’elle n’est pas négligée par les commentateurs, peut être une clé d’interprétation de la notion qui nous occupe, le « sens illatif » (et la Grammar of Assent) éclairant le « premier niveau de réflexion » (et le Traité fondamental), et vice versa. Nous y voyons enfin comment cette référence à Newman met sur la voie des Exercices spirituels d’Ignace de Loyola, lequel aura été pour Rahner non seulement un maître spirituel, mais également un maître de théologie. Ce qui paraissait n’être au début qu’une indication d’ordre didactique se révèle dès lors comme une caractérisation fondamentale de la théologie telle que la com-prend Rahner.At the start of his Foundations of Christian Faith, Karl Rahner informs the reader that his proposed introduction to the idea of Christianity unfolds on a “first level of reflection” (erste Reflexionsstufe), as he labels it. Although he very clearly differentiates this level from that of the sciences in their usual sense, he does not provide a formal definition of the former, opting rather to implement it in his own work. Considering the importance this alternative “plan” for the understanding and the justification of the Christian faith had for Rahner, it is strangely interesting to note that practically no echo of this matter is found in subsequent literature (as stated by Max Seckler in 1984, and again, Karl H. Neufeld in 2006). The present study is devoted, precisely, to this question of the “first level of reflection”. Following our literature review, we will present the key moments in the development of Rahner’s concept, from his articles on the formation of priests in a pluralistic context to his Foundations of Christian Faith. Next, we will demonstrate how Rahner's reference to Newman's illative sense, though challenged (when not neglected) by commentators, could be a means of interpreting the notion this thesis is concerned with, insofar as the illative sense (and the Grammar of Assent) may shed light on the “first level of reflection” (and Foundations), and visa-versa. Ultimately, we will see how this reference to Newman paves the way to the Spiritual Exercises of St. Ignatius of Loyola, who was to be, for Rahner, not only a spiritual master, but also a theo-logical master. Therefore, what appeared to be a simple didactical opening statement reveals itself to be, from then on, a fundamental characterization of theology as understood by Rahner

Pratiques communicationnelles du gouvernement conservateur canadien sur les enjeux environnementaux liés au projet Keystone XL aux États-Unis

L'objectif de cette recherche est d'explorer les communications gouvernementales du gouvernement conservateur de Stephen Harper de 2006-2013 et d'en évaluer la teneur propagandiste au sens dont l'entendait Jacques Ellul. Nous tentons tout d'abord d'identifier les éléments textuels qui mobilisent des mythes modernes dans les discours et les communiqués de presse du premier ministre Stephen Harper et du ministre des Ressources naturelles Joe Oliver au moyen d'une analyse quantitative. Par la suite, nous en déterminons la dimension propagandiste en analysant quatre textes ayant été émis en réaction à certaines étapes d'approbation du projet de construction de l'oléoduc Keystone XL. Nous avons convenu de limiter notre corpus à ces textes en raison du nombre considérable de documents liés à notre sujet. Toutefois, la relation avec des mythes actifs de la propagande selon Ellul est bien mise en évidence, notre échantillon est représentatif et vise à démontrer qu'il existe actuellement une remise en question des mythes modernes par les États-Unis, ce qui représente une occasion en or pour le gouvernement Harper de renforcer l'empreinte propagandiste à l'intérieur de ses communications gouvernementales. L'analyse critique du discours qui est nôtre a historiquement été remise en cause pour sa dimension subjective. Toutefois, le présent mémoire offre une piste de recherche au niveau de l'analyse et de l'identification de la propagande dans le discours institutionnel dominant du gouvernement canadien.\ud ______________________________________________________________________________ \ud MOTS-CLÉS DE L’AUTEUR : Propagande, Communication gouvernementale, Ellul, Keystone XL, Mythe

Origami constraints on the initial-conditions arrangement of dark-matter caustics and streams

In a cold-dark-matter universe, cosmological structure formation proceeds in rough analogy to origami folding. Dark matter occupies a three-dimensional 'sheet' of free- fall observers, non-intersecting in six-dimensional velocity-position phase space. At early times, the sheet was flat like an origami sheet, i.e. velocities were essentially zero, but as time passes, the sheet folds up to form cosmic structure. The present paper further illustrates this analogy, and clarifies a Lagrangian definition of caustics and streams: caustics are two-dimensional surfaces in this initial sheet along which it folds, tessellating Lagrangian space into a set of three-dimensional regions, i.e. streams. The main scientific result of the paper is that streams may be colored by only two colors, with no two neighbouring streams (i.e. streams on either side of a caustic surface) colored the same. The two colors correspond to positive and negative parities of local Lagrangian volumes. This is a severe restriction on the connectivity and therefore arrangement of streams in Lagrangian space, since arbitrarily many colors can be necessary to color a general arrangement of three-dimensional regions. This stream two-colorability has consequences from graph theory, which we explain. Then, using N-body simulations, we test how these caustics correspond in Lagrangian space to the boundaries of haloes, filaments and walls. We also test how well outer caustics correspond to a Zel'dovich-approximation prediction.Comment: Clarifications and slight changes to match version accepted to MNRAS. 9 pages, 5 figure

Group Irregularity Strength of Connected Graphs

We investigate the group irregularity strength ($s_g(G)$) of graphs, i.e. the smallest value of $s$ such that taking any Abelian group \gr of order $s$, there exists a function f:E(G)\rightarrow \gr such that the sums of edge labels at every vertex are distinct. We prove that for any connected graph $G$ of order at least 3, $s_g(G)=n$ if $n\neq 4k+2$ and $s_g(G)\leq n+1$ otherwise, except the case of some infinite family of stars

Comparison of Ground-Based and Airborne Function Allocation Concepts for NextGen Using Human-In-The-Loop Simulations

Investigation of function allocation for the Next Generation Air Transportation System is being conducted by the National Aeronautics and Space Administration (NASA). To provide insight on comparability of different function allocations for separation assurance, two human-in-the-loop simulation experiments were conducted on homogeneous airborne and ground-based approaches to four-dimensional trajectory-based operations, one referred to as ground-based automated separation assurance (groundbased) and the other as airborne trajectory management with self-separation (airborne). In the coordinated simulations at NASA s Ames and Langley Research Centers, controllers for the ground-based concept at Ames and pilots for the airborne concept at Langley managed the same traffic scenarios using the two different concepts. The common scenarios represented a significant increase in airspace demand over current operations. Using common independent variables, the simulations varied traffic density, scheduling constraints, and the timing of trajectory change events. Common metrics were collected to enable a comparison of relevant results. Where comparisons were possible, no substantial differences in performance or operator acceptability were observed. Mean schedule conformance and flight path deviation were considered adequate for both approaches. Conflict detection warning times and resolution times were mostly adequate, but certain conflict situations were detected too late to be resolved in a timely manner. This led to some situations in which safety was compromised and/or workload was rated as being unacceptable in both experiments. Operators acknowledged these issues in their responses and ratings but gave generally positive assessments of the respective concept and operations they experienced. Future studies will evaluate technical improvements and procedural enhancements to achieve the required level of safety and acceptability and will investigate the integration of airborne and ground-based capabilities within the same airspace to leverage the benefits of each concept

Comparison of Airborne and Ground-Based Function Allocation Concepts for NextGen Using Human-In-The-Loop Simulations

This paper presents an air/ground functional allocation experiment conducted by the National Aeronautics and Space Administration (NASA) using two human-in-the-Loop simulations to compare airborne and ground-based approaches to NextGen separation assurance. The approaches under investigation are two trajectory-based four-dimensional (4D) concepts; one referred to as "airborne trajectory management with self-separation" (airborne) the other as "ground-based automated separation assurance" (ground-based). In coordinated simulations at NASA's Ames and Langley Research Centers, the primary operational participants -controllers for the ground-based concept and pilots for the airborne concept - manage the same traffic scenario using the two different 4D concepts. The common scenarios are anchored in traffic problems that require a significant increase in airspace capacity - on average, double, and in some local areas, close to 250% over current day levels - in order to enable aircraft to safely and efficiently traverse the test airspace. The simulations vary common independent variables such as traffic density, sequencing and scheduling constraints, and timing of trajectory change events. A set of common metrics is collected to enable a direct comparison of relevant results. The simulations will be conducted in spring 2010. If accepted, this paper will be the first publication of the experimental approach and early results. An initial comparison of safety and efficiency as well as operator acceptability under the two concepts is expected

Tracking and predicting COVID-19 radiological trajectory on chest X-rays using deep learning

Radiological findings on chest X-ray (CXR) have shown to be essential for the proper management of COVID-19 patients as the maximum severity over the course of the disease is closely linked to the outcome. As such, evaluation of future severity from current CXR would be highly desirable. We trained a repurposed deep learning algorithm on the CheXnet open dataset (224,316 chest X-ray images of 65,240 unique patients) to extract features that mapped to radiological labels. We collected CXRs of COVID-19-positive patients from an open-source dataset (COVID-19 image data collection) and from a multi-institutional local ICU dataset. The data was grouped into pairs of sequential CXRs and were categorized into three categories: 'Worse', 'Stable', or 'Improved' on the basis of radiological evolution ascertained from images and reports. Classical machine-learning algorithms were trained on the deep learning extracted features to perform immediate severity evaluation and prediction of future radiological trajectory. Receiver operating characteristic analyses and Mann-Whitney tests were performed. Deep learning predictions between "Worse" and "Improved" outcome categories and for severity stratification were significantly different for three radiological signs and one diagnostic ('Consolidation', 'Lung Lesion', 'Pleural effusion' and 'Pneumonia'; all P < 0.05). Features from the first CXR of each pair could correctly predict the outcome category between 'Worse' and 'Improved' cases with a 0.81 (0.74-0.83 95% CI) AUC in the open-access dataset and with a 0.66 (0.67-0.64 95% CI) AUC in the ICU dataset. Features extracted from the CXR could predict disease severity with a 52.3% accuracy in a 4-way classification. Severity evaluation trained on the COVID-19 image data collection had good out-of-distribution generalization when testing on the local dataset, with 81.6% of intubated ICU patients being classified as critically ill, and the predicted severity was correlated with the clinical outcome with a 0.639 AUC. CXR deep learning features show promise for classifying disease severity and trajectory. Once validated in studies incorporating clinical data and with larger sample sizes, this information may be considered to inform triage decisions

Examining the validity of the Athlete Engagement Questionnaire (AEQ) within a Portuguese sport setting

Sport psychology literature suggests that understanding engagement levels is pivotal to promote positive sporting experiences among athletes. The purpose of this study was to examine the psychometric properties of the Athlete Engagement Questionnaire among Portuguese sport athletes. Two distinct samples of Portuguese athletes from different competitive levels were collected, and the results of a confirmatory factor analysis demonstrated a good fit of the model to the data. A review of the psychometric properties indicated that all factors showed good composite reliability, convergent validity, and discriminant validity. In addition, a multi-groups analysis showed the invariance of the model in two independent samples providing evidence of cross validity. Implications of these results for scholars and coaches are discussed and guidelines for future studies are suggested

Principles of mRNA transport in yeast

mRNA localization and localized translation is a common mechanism by which cellular asymmetry is achieved. In higher eukaryotes the mRNA transport machinery is required for such diverse processes as stem cell division and neuronal plasticity. Because mRNA localization in metazoans is highly complex, studies at the molecular level have proven to be cumbersome. However, active mRNA transport has also been reported in fungi including Saccharomyces cerevisiae, Ustilago maydis and Candida albicans, in which these events are less difficult to study. Amongst them, budding yeast S. cerevisiae has yielded mechanistic insights that exceed our understanding of other mRNA localization events to date. In contrast to most reviews, we refrain here from summarizing mRNA localization events from different organisms. Instead we give an in-depth account of ASH1 mRNA localization in budding yeast. This approach is particularly suited to providing a more holistic view of the interconnection between the individual steps of mRNA localization, from transcriptional events to cytoplasmic mRNA transport and localized translation. Because of our advanced mechanistic understanding of mRNA localization in yeast, the present review may also be informative for scientists working, for example, on mRNA localization in embryogenesis or in neurons

Multiple Myo4 motors enhance ASH1 mRNA transport in Saccharomyces cerevisiae

The myosin Myo4 is nonprocessive by itself, but when several motor subunits team up with She2 and She3, it forms an active RNP transport unit that moves ASH1 mRNA to the bud tip in dividing yeast