875 research outputs found
Lill-Madonna tas-saħħa
Ġabra ta’ poeżiji u proża li tinkludi: Siġar ta’ Dun Frans Camilleri – Umanità ta’ Ġużè Chetcuti – Lil ommi b’qima ta’ Mario Agius – Il-kummiedja ta’ Ger. Azzopardi – Bejn art u oħra ta’ V. M. Pellegrini – Lill-Madonna tas-saħħa ta’ Vincent Ungaro.N/
Palabras sabias
Texto extracto de la Introducción del libro de Ger Groot. Adelante, ¡contradígame! Filosofía en conversación. Madrid, Sequitur, 2008. Ger Groot es profesor de filosofía en la Erasmus Universiteit de Rotterdam y colaborador de filosofía en publicaciones como NRC Handelsblad y De Groene Amsterdammer . En este libro presenta las conversaciones que el autor ha tenido con dieciocho personalidades de la filosofía contemporánea, y gira alrededor de los temas que más interesan a sus interlocutores. Ofrecemos un avance de esta edición a través del texto que compone la introducción de este libro.Excerpt from Ger Groot's Adelante, ¡contradígame! Filosofía en conversación. Ger Groot is a professor of philosophy at the Rotterdam Erasmus Universiteit and a collaborator for the NRC Handelsblad and De Groene Amsterdammer . This book includes 18 interviews of the author with contemporary philosophers and addresses topics of the outmost interest for his interviewees. Please find attached here the introduction of the book
A push-pull CORF model of a simple cell with antiphase inhibition improves SNR and contour detection.
We propose a computational model of a simple cell with push-pull inhibition, a property that is observed in many real simple cells. It is based on an existing model called Combination of Receptive Fields or CORF for brevity. A CORF model uses as afferent inputs the responses of model LGN cells with appropriately aligned center-surround receptive fields, and combines their output with a weighted geometric mean. The output of the proposed model simple cell with push-pull inhibition, which we call push-pull CORF, is computed as the response of a CORF model cell that is selective for a stimulus with preferred orientation and preferred contrast minus a fraction of the response of a CORF model cell that responds to the same stimulus but of opposite contrast. We demonstrate that the proposed push-pull CORF model improves signal-to-noise ratio (SNR) and achieves further properties that are observed in real simple cells, namely separability of spatial frequency and orientation as well as contrast-dependent changes in spatial frequency tuning. We also demonstrate the effectiveness of the proposed push-pull CORF model in contour detection, which is believed to be the primary biological role of simple cells. We use the RuG (40 images) and Berkeley (500 images) benchmark data sets of images with natural scenes and show that the proposed model outperforms, with very high statistical significance, the basic CORF model without inhibition, Gabor-based models with isotropic surround inhibition, and the Canny edge detector. The push-pull CORF model that we propose is a contribution to a better understanding of how visual information is processed in the brain as it provides the ability to reproduce a wider range of properties exhibited by real simple cells. As a result of push-pull inhibition a CORF model exhibits an improved SNR, which is the reason for a more effective contour detection
Grundlagen und Wirkprinzipien von wassergefiltertem Infrarot A (wIRA) in Bezug zur Wundheilung
The experience of the pleasant heat of the sun in moderate climatic zones arises from the filtering of the heat radiation of the sun by water vapor in the atmosphere of the earth. The filter effect of water decreases those parts of infrared radiation (most parts of infrared-B and -C and the absorption bands of water within infrared-A), which would cause – by reacting with water molecules in the skin – only an undesired thermal load to the surface of the skin. Technically water-filtered infrared-A (wIRA) is produced in special radiators, whose full spectrum of radiation of a halogen bulb is passed through a cuvette, containing water, which absorbs or decreases the described undesired wavelengths of the infrared radiation. Within infrared the remaining wIRA (within 780-1400 nm) mainly consists of radiation with good penetration properties into tissue and therefore allows – compared to unfiltered heat radiation – a multiple energy transfer into tissue without irritating the skin, similar to the sun’s heat radiation in moderate climatic zones. Typical wIRA radiators emit no ultraviolet (UV) radiation and nearly no infrared-B and -C radiation and the amount of infrared-A radiation in relation to the amount of visible light (380-780 nm) is emphasized. Water-filtered infrared-A as a special form of heat radiation with a high tissue penetration and with a low thermal load to the skin surface acts both by thermal (related to heat energy transfer) and thermic (temperature depending, with a relevant change of temperature) as well as by non-thermal (without a relevant transfer of heat energy) and non-thermic (not depending on temperature, without a relevant change of temperature) effects. wIRA produces a therapeutically usable field of heat in the tissue and increases tissue temperature, tissue oxygen partial pressure, and tissue perfusion. These three factors are vital for a sufficient tissue supply with energy and oxygen. As wound healing and infection defense (e.g. granulocyte function including their antibacterial oxygen radical formation) depend decisively on a sufficient supply with energy and oxygen, one explanation for the good clinical effect of wIRA on wounds and wound infections can be the improvement of both the energy supply per time (increase of metabolic rate) and the oxygen supply. In addition wIRA has non-thermal and non-thermic effects, which are based on putting direct stimuli on cells and cellular structures. wIRA can considerably alleviate the pain (with remarkably less need for analgesics) and diminish an elevated wound exudation and inflammation and can show positive immunomodulatory effects. wIRA can advance wound healing or improve an impaired wound healing both in acute and in chronic wounds including infected wounds. Even the normal wound healing process can be improved. wIRA is contact-free, easily applied, without discomfort to the patient, with absent consumption of material and with a good effect in the depth. The irradiation of the typically uncovered wound is carried out with a wIRA radiator.Die Erfahrung der angenehmen Wärme der Sonne in gemäßigten Breiten entsteht durch die Filterung der Wärmestrahlung der Sonne durch Wasserdampf in der Erdatmosphäre. Durch die Wasserfilterung werden die Strahlungsanteile gemindert (sogenannte Wasserbanden innerhalb des Infrarot A sowie die meisten Teile des Infrarot B und C), die sonst durch Wechselwirkung mit Wassermolekülen in der Haut eine unerwünschte thermische Belastung der obersten Hautschicht hervorrufen würden. Technisch wird wassergefiltertes Infrarot A (wIRA) in speziellen Strahlern erzeugt, in denen die gesamte Strahlung eines Halogen-Strahlers durch eine Wasser enthaltende Küvette hindurchtritt, so dass die genannten unerwünschten Strahlungsanteile innerhalb des Infrarot gemindert oder herausgefiltert werden. Innerhalb des Infrarot stellt das verbleibende wIRA (im Bereich 780-1400 nm) vorwiegend Strahlung mit gutem Eindringvermögen in das Gewebe dar und erlaubt gegenüber ungefilterter Infrarotstrahlung einen mehrfachen Energieeintrag in das Gewebe bei geringerer thermischer Belastung der Hautoberfläche, vergleichbar der Sonnenwärmestrahlung in gemäßigten Breiten. Typische wIRA-Strahler emittieren keine Ultraviolett-Strahlung (UV) und nahezu keine Infrarot-B- und Infrarot-C-Strahlung, und der Anteil der Infrarot-A-Strahlung ist im Verhältnis zum Anteil des sichtbaren Lichts (380-780 nm) betont. Wassergefiltertes Infrarot A als spezielle Form der Wärmestrahlung mit hohem Eindringvermögen in das Gewebe bei geringer thermischer Oberflächenbelastung wirkt sowohl über thermische (auf Wärmeenergietransfer bezogene) und temperaturabhängige (mit Temperaturänderung auftretende) als auch über nicht-thermische (ohne relevanten Wärmeenergietransfer) und temperaturunabhängige (ohne relevante Temperaturänderung auftretende) Effekte. wIRA erzeugt ein therapeutisch nutzbares Wärmefeld im Gewebe und steigert Temperatur und Sauerstoffpartialdruck im Gewebe sowie die Gewebedurchblutung, drei entscheidende Faktoren für eine ausreichende Versorgung des Gewebes mit Energie und Sauerstoff. Da Wundheilung und Infektionsabwehr (z.B. Granulozytenfunktion einschließlich ihrer antibakteriellen Sauerstoffradikalbildung) entscheidend von einer ausreichenden Versorgung mit Energie und Sauerstoff abhängen, stellt die Verbesserung sowohl der Energiebereitstellung pro Zeit (Steigerung der Stoffwechselleistung) als auch der Sauerstoffversorgung eine Erklärung für die klinisch gute Wirkung von wIRA auf Wunden und Wundinfektionen dar. Zusätzlich hat wIRA nicht-thermische und ohne relevante Temperaturänderung auftretende Effekte, die darauf beruhen, direkte Reize auf Zellen und zelluläre Strukturen zu setzen. wIRA vermag Schmerzen deutlich zu mindern (mit bemerkenswert niedrigerem Analgetikabedarf) und eine erhöhte Wundsekretion und Entzündung herabzusetzen sowie positive immunmodulierende Effekte zu zeigen. wIRA kann sowohl bei akuten als auch bei chronischen Wunden einschließlich infizierter Wunden die Wundheilung beschleunigen oder bei stagnierender Wundheilung verbessern. Selbst der normale Wundheilungsprozess kann verbessert werden. wIRA ist ein kontaktfreies, verbrauchsmaterialfreies, leicht anzuwendendes, als angenehm empfundenes Verfahren mit guter Tiefenwirkung. Die Bestrahlung der typischerweise unbedeckten Wunde erfolgt mit einem wIRA-Strahler
Note on convex functions bounded on regular hypersurfaces
Let Rn denote the Cartesian product of n copies.of. tlie space R of real numbers. A r e a l valued function <p defined on an open and convex subset A of Rn i s calle'd convex i f f theinequality (of Jensen)
9 (* + y ^ y ( ^ ) * y(y)
holds f o r every pair (x,y)e A x A .
M.Kuczma and the present author have introduced In [2] some set classes relevant to the notion of convex function (Fragment tekstu)
Bouwerij Breda: Craft in the city
An Architectural project about a wood craftschool in the city centre of Breda
Enhancing retention and transfer in mathematics in engineering education practice
This article is a reflection of a SEFI workshop on Retention. In the workshop, a SWOT Analysis has been realised of four pedagogical solutions addressing Retention in undergraduate STEM education. The pedagogical solutions are programmatic assessment, micro-credentials for online mathematics (support) learning modules, autonomous and self-regulated learning and mathematical competencies for learning. Results have provided insights into the relevance and feasibility of implementation.StatisticsPolicy & Implementatio
Reshaping The Bio Medical Curriculum To Include Socialisation And Subjectification
University students are asked to become all-round human beings, knowing how to be engaged in Engineering in the future, as well as wholly socialised and going through personal development steps. However, how and where are the students supposed to acquire these skills? Do we already have them in the Higher Education programmes and curricula? This article explores low threshold steps that can be taken to tweak the curriculum and implicit professionalisation of staff towards incorporating transversal skills and reflective activities that allow students to develop to their full potential.. One is a roadmap Workshop identifying guiding principles and touchpoint activities for curricular change. The other is a survey on how transversal skills are currently thought to have been embedded in the curriculum.Policy & ImplementationEducation and Student AffairsCommunication IOCognitive Robotic
Between flexibility and relativism: How students deal with uncertainty in sustainability challenges
Universities open their doors to society, inviting the complexity of the world to enter engineering education through challenge-based courses. While working on complex issues, engineering students learn to deal with different kinds of uncertainty: uncertainty about the dynamics of a real-world challenge, the knowledge gaps in the problem, or the conflicting perspectives amongst the people involved. Although we know from previous research that students are likely to encounter these uncertainties in sustainability challenges, which metacognitive strategies they use to deal with them is unclear. We interviewed nine MSc students at the end of a challenge-based course at a Dutch university of technology. We asked the students how they dealt with uncertainty in collaboration with the commissioner, their student team, and the teachers. The interviews were analyzed through grounded, consensus-based coding by two researchers. Preliminary results show students use three main strategies. First, the different perspectives from peers in their team inform the position of the student. Second, students find expectation management of the commissioner essential, yet students struggle with how to do this in a professional and timely way. Third, students frame the uncertainties they encounter as part of the learning process, which allows them to accept the possibility of failure. This study provides first insights in metacognitive uncertainty strategies and suggests those strategies should become a more prominent topic in coaching students. When uncertainty becomes an explicit part of challenge-based education, students learn to deal with both the known and unknown in the transition to a sustainable society.Urban Development ManagementPolicy & ImplementationManagement in the Built Environmen
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