Integrierter Ansatz zur systemunabhängigen Wiederverwendung von Lerninhalten

Urbansky, Stefan

05 April 2005

Die Erstellung von Lerninhalten ist einer der wichtigsten Prozesse im E-Learning. Die vorliegende Arbeit zeigt einen Ansatz zur Wiederverwendung von Lerninhalten der zum einen die Kosten des Erstellungsprozesses verringern kann und zum anderen effektive Methoden zur Verwaltung aufzeigt. Basis des Ansatzes ist ein vierstufiges Content-Modell (Assets, Lernmaterialien, Lernmodule und Veranstaltungen), welches die Lerninhalte anhand der Granularität aufteilt. Dieses Modell berücksichtigt dabei aktuelle E-Learning-Standards bezüglich der Inhalte und der Metadaten, wodurch eine systemunabhängige Wiederverwendung möglich ist. Zur Verarbeitung von generischen Repräsentationen, wie Materialien im XML-Format, wurde das Konzept der Templates aufgegriffen und um die so genannten Content-Varianten erweitert. Diese ermöglichen die Präsentation von verschiedenen Ausprägungen der Materialien, beispielsweise bezüglich des Ausgabeformates, der Sprache, des Schwierigkeitsgrades von Aufgaben oder der Version. In der Arbeit wird weiterhin ein entsprechendes Konzept zur Systementwicklung einer Lernplattform aufgezeigt. Dieses ist insbesondere durch die Aufteilung in verschiedene Teilsysteme gekennzeichnet, welche eine flexible Konfiguration und Platzierung anhand der Anforderungen an die Wiederverwendung ermöglicht. / The preparation of learning content is one of the most important process in E-Learning. This thesis shows an approach to reuse learning content. On the one hand the costs of the creation process can be reduced and on the other hand effective methods for administration are pointed out. Starting point of the approach is a four-level content model (assets, learning materials, learning modules and seminars), which divides learning contents on the basis of granularity. This model considers thereby current E-Learning-standards concerning content and metadata, whereby an open reuse is possible. For the processing of generic representations, like materials in the XML format, the concept of the Templates was taken up and extended by the content variants. These make the presentation of different developments of the materials possible, for example concerning the output format, the language, the degree of difficulty of tasks or the version. Further this thesis pointed out an appropriate concept for the system development of a learning platform. This is in particular characterized by the partitioning into different subsystems, which makes possible a flexible configuration and placement concerning to the requirements to the reuse.

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info:eu-repo/classification/ddc/004

ddc:004

E-Learning, Informatik, Lernplattform

A Hurricane Lamp in a Dark Night: Exploring Smartphone Use for Acculturation by Refugees

Merz, Alexander B., Seone, Mamadou, Seeber, Isabella, Maier, Ronald

30 April 2019

Refugees arriving in Europe face numerous socio-cultural challenges towards being integrated members of their host society. While acculturation strategies and ICT use of refugees have been studied separately, we investigate refugees’ smartphone use for acculturation by conducting qualitative interviews with 30 refugees. We contribute five practices related to acculturation that express refugees’ intercultural exchange within the host society while preserving their original culture: seek information online; communicate with family and friends abroad; meet locals; meet peers and counteract boredom. Tied to these practices, we find the five consequences empowerment, connection to host society, distraction, sense of belonging and connection to origin, which give an account of the various acculturation issues and how refugees use smartphones in support thereof.

info:eu-repo/classification/ddc/330

ddc:330

Zeitgeist: an intergenerational storytelling project

Hannan, Jon, Raber, Caylee, Beyzaei, Nadia, Levi, Donna, Phinney, Alison

19 December 2019

The Zeitgeist project asks what role design students can play in enhancing creative endeavours and wellbeing of residents through an intergenerational co-design programme. Between Spring 2018 and Summer 2019, Zeitgeist brought together undergraduate design students and residents of long-term care homes for a project that challenged them to co-design publications that focused on the life experiences, stories and knowledge of the residents and emphasized an intergenerational exchange between two very different groups of people that could have a tangible, positive impact upon each other. It is often the case that residents in long-term care homes face issues of social isolation and diminishment of personal identity. In care homes opportunities for genuine creative and personal expression tend to be limited due to limited resources and a focus on medical priorities. It’s not unusual for residents to feel like they no longer have anything to contribute to society, that their story has closed and they no longer feel challenged, which can lead to cognitive decline. Design students are predominately young and tend to have limited life experience, with many still living at home and unsure about what direction they want their life to take. Zeitgeist looked to explore the possible benefits of a reciprocal relationship between the two parties by engaging participants in a range of creative activities that would allow for a mutual exchange of information and skills. This project uniquely positions an art and design university as a community partner for developing new approaches to enhance the wellbeing of seniors.

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info:eu-repo/classification/ddc/620

ddc:620

Advanced scanning magnetoresistive microscopy as a multifunctional magnetic characterization method / Weiterentwickelte Rastermagnetowiderstandsmikroskopie als multifunktionale magnetische Charakterisierungsmethode

Mitin, Dmitriy

18 May 2017

Advanced scanning magnetoresistive microscopy (SMRM) — a robust magnetic imaging and probing technique — is presented. It utilizes conventional recording heads of a hard disk drive as sensors. The spatial resolution of modern tunneling magnetoresistive sensors is nowadays comparable with more commonly used magnetic force microscopes. Important advantages of SMRM are the ability to detect pure magnetic signals directly proportional to the out-of-plane magnetic stray field, negligible sensor stray fields, and the ability to apply local bipolar magnetic field pulses up to 10 kOe with bandwidths from DC up to 1 GHz. The performance assessment of this method and corresponding best practices are discussed in the first section of this work. An application example of SMRM, the study on chemically ordered L10 FePt is presented in a second section. A constructed heater unit of SMRM opens the path to investigate temperature-dependent magnetic properties of the medium by recording and imaging at elevated temperatures. L10 FePt is one of the most promising materials to reach limits in storage density of future magnetic recording devices based on heat-assisted magnetic recording (HAMR). In order to be implemented in an actual recording scheme, the medium Curie temperature should be lowered. This will reduce the power requirements, and hence, wear and tear on a heat source — integrated plasmonic antenna. It is expected that the exchange coupling of FePt to thin Fe layers provides high saturation magnetization and elevated Curie temperature of the composite. The addition of Cu allows adjusting the magnetic properties such as perpendicular magnetic anisotropy, coercivity, saturation magnetization, and Curie temperature. This should lead to a lowering of the switching field of the hard magnetic FeCuPt layer and a reduction of thermally induced recording errors. In this regard, the influence of the Fe layer thickness on the switching behavior of the hard layer was investigated, revealing a strong reduction for Fe layer thicknesses larger than the exchange length of Fe. The recording performance of single-layer and bilayer structures was studied by SMRM roll-off curves and histogram methods at temperatures up to 180 °C In the last section of this work, SMRM advantages are demonstrated by various experiments on a two-dimensional magnetic vortex lattice. Magnetic vortex is a peculiar complex magnetization configuration which typically appears in a soft magnetic structured materials. It consists of two coupled sub-systems: the core, where magnetization vector points perpendicular to the structure plane, and the curling magnetization where magnetic flux is rotating in-plane. The unique properties of a magnetic vortex making it an object of a great research and technological interest for spintronic applications in sensorics or data storage. Manipulation of the vortex core as well as the rotation sense by applying a local field pulse is shown. A spatially resolved switching map reveals a significant "write window" where vortex cores can be addressed correctly. Moreover, the external in-plane magnet extension unit allow analyzing the magnetic vortex rotational sense which is extremely practical for magnetic coupling investigations of magnetic coupling phenomena.

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Rastermagnetowiderstandsmikroskopie

SMRM

magnetische Speicherung

HAMR

L10 FePt

austausch gekoppelte Kopmposit

magnetische Vortizes

scanning magnetoresistive microscopy

SMRM

perpendicular magnetic recording

heat-assisted magnetic recording

HAMR

L10 FePt alloy films

exchange coupled composite

magnetic vortex

ddc:621

Mikroskopie

Raster

Magnetspeicher

Magnetismus

The occurence of cocaine in Egyptian mummies

Görlitz, Dominique

25 November 2016

One of the unsolved problems of modern science is whether the pre-Columbian peoples of the New World developed completely independently of cultural influences from the Old World or if there was a trans-oceanic contact? A number of scientists agree that there are many – and often remarkable – similarities between the cultures of pre-Columbian America and those of the Mediterranean world. Nevertheless, there is no agreement, as yet, on how cultural diffusion can be differentiated from independent invention. Scientific analysis shows that scholarly positions are often strongly pre-formed from paradigms (scientific based assumptions), which tend to hinder consideration of solid scientific data offered by geo-biology and its trans-disciplinary examination of the subject under investigation here. An unambiguous answer to the question, what historical processes led to the emergence of the ancient American agriculture, hasn\'t been given. However, the archaeological discovery of crops with clear trans-oceanic origin, in addition to advances in molecular biology, increasingly support the hypothesis that humans from the distant past influenced each other across the oceans at a much earlier stage. The vegetation and zoo-geography indicate, by numerous examples that some species could only have spread through perhaps unintentional (passive) human transmission [1]. There are two very old crops found in the „New World‟, which contradict the paradigm of a completely independent origin for American agriculture. These are the African Bottle Gourd (Lagenaria siceraria L.) and the ancestral cotton species (Gossypium herbaceum L.) of the domesticated spin able sub-genus of tetraploid cotton. The historical spread of both types has been under discussion for decades, especially in respect of trans-oceanic human contact with the American continent. There has also been a debate in the \"Old World\" ever since the discovery of nicotine and cocaine in Egyptian mummies, centering around whether \"New World\" plants (or the ingredients) might have been transmitted in the reverse direction, back to the presumed start in centers of the Ancient World\'s oldest civilizations.

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Kokain

Nikotain

Ägypten

Mumie

Kulturpflanze

Verbreitung

Atllantik

Geobotanik

Ägyptologie

Reise

kultureller Austausch

cocaine and nicotine in Egyptian mummies

trans-Atlantic crop dispersal

Geo-Botany

Egyptology

proto-historical voyages

ddc:580

ddc:930

Phenomenological theories of magnetic multilayers and related systems

Kyselov, Mykola

27 January 2011

In this thesis multidomain states in magnetically ordered systems with competing long-range and short range interactions are under consideration. In particular, in antiferromagnetically coupled multilayers with perpendicular anisotropy unusual multidomain textures can be stabilized due to a close competition between long-range demagnetization fields and short-range interlayer exchange coupling. These spatially inhomogeneous magnetic textures of regular multidomain configurations and irregular networks of topological defects as well as complex magnetization reversal processes are described in the frame of the phenomenological theory of magnetic domains. Using a modified model of stripe domains it is theoretically shown that the competition between dipolar coupling and antiferromagnetic interlayer exchange coupling causes an instability of ferromagnetically ordered multidomain states and results in three possible ground states: ferromagnetic multidomain state, antiferromagnetic homogeneous and antiferromagnetic multidomain states. The presented theory allows qualitatively to define the area of existence for each of these states depending on geometrical and material parameters of multilayers. In antiferromagnetically coupled superlattices with perpendicular anisotropy an applied magnetic bias field stabilizes specific multidomain states, so-called metamagnetic domains. A phenomenological theory developed in this thesis allows to derive the equilibrium sizes of metamagnetic stripe and bubble domains as functions of the antiferromagnetic exchange, the magnetic bias field, and the geometrical parameters of the multilayer. The magnetic phase diagram includes three different types of metamagnetic domain states, namely multidomains in the surface layer and in internal layers, and also mixed multidomain states may arise. Qualitative and quantitative analysis of step-like magnetization reversal shows a good agreement between the theory and experiment. Analytical equations have been derived for the stray field components of these multidomain states in perpendicular multilayer systems. In particular, closed expressions for stray fields in the case of ferromagnetic and antiferromagnetic stripes are presented. The theoretical approach provides a basis for the analysis of magnetic force microscopy (MFM) images from this class of nanomagnetic systems. Peculiarities of the MFM contrast have been calculated for realistic tip models. These characteristic features in the MFM signals can be employed for the investigations of the different multidomain modes. The methods developed for stripe-like magnetic domains are employed to calculate magnetization processes in twinned microstructures of ferromagnetic shape-memory materials. The remarkable phenomenon of giant magnetic field induced strain transformations in such ferromagnetic shape memory alloys as Ni-Mn-Ga, Ni-Mn-Al, or Fe-Pd arises as an interplay of two physical effects: (i) A martensitic transition creating competing phases, i.e. crystallographic domains or variants, which are crystallographically equivalent but have different orientation. (ii) High uniaxial magnetocrystalline anisotropy that pins the magnetization vectors along certain directions of these martensite variants. Then, an applied magnetic field can drive a microstructural transformation by which the martensitic twins, i.e. the different crystallographic domains, are redistributed in the martensitic state. Within the phenomenological (micromagnetic) theory the equilibrium parameters of multivariant stripe patterns have been derived as functions of the applied field for an extended single-crystalline plate. The calculated magnetic phase diagram allows to give a detailed description of the magnetic field-driven martensitic twin rearrangement in single crystals of magnetic shape-memory alloys. The analysis reveals the crucial role of preformed twins and of the dipolar stray-field energy for the magnetic-field driven transformation process in magnetic shape-memory materials. This work has been done in close collaboration with a group of experimentalists from Institute of Metallic Materials of IFW Dresden, Germany and San Jose Research Center of Hitachi Global Storage Technologies, United States. Comparisons between theoretical and experimental data from this cooperation are presented throughout this thesis as vital part of my work on these different subjects.

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Magnetische Multischichten

Senkrechtanisotropie

Domain-Struktur

Magnetisierung

Feld-Stämme induziert

Magnetic multilayers

Perpendicular anisotropy

Antiferromagnetic interlayer exchange

Domain structure

Magnetization process

Field-induced strains

ddc:530

rvk:UP 6300

rvk:UP 6400

rvk:UP 7590

Molecular dynamics of clathrin proteins at endocytic sites studied with evanescent-wave microscopy / Untersuchung der molekularen Dynamik von Clathrin mit Totalreflektionsmikroskopie

Loerke, Dinah

12 February 2004

No description available.

530 Physik

Mathematics and Computer Science

Clathrin

light chain

heavy chain

FRAP

Photobleichen

Austausch

Totalreflektion

Fluoreszenz

Mikroskopie

clathrin

light chain

heavy chain

FRAP

photobleaching

exchange

evanescent

fluorescence microscopy

33.05

42.03

42.12

RPV 720: Mikroskopie {Physik}

WC 000: Biophysik

Phenomenological theories of magnetic multilayers and related systems

Kyselov, Mykola

16 November 2010

In this thesis multidomain states in magnetically ordered systems with competing long-range and short range interactions are under consideration. In particular, in antiferromagnetically coupled multilayers with perpendicular anisotropy unusual multidomain textures can be stabilized due to a close competition between long-range demagnetization fields and short-range interlayer exchange coupling. These spatially inhomogeneous magnetic textures of regular multidomain configurations and irregular networks of topological defects as well as complex magnetization reversal processes are described in the frame of the phenomenological theory of magnetic domains. Using a modified model of stripe domains it is theoretically shown that the competition between dipolar coupling and antiferromagnetic interlayer exchange coupling causes an instability of ferromagnetically ordered multidomain states and results in three possible ground states: ferromagnetic multidomain state, antiferromagnetic homogeneous and antiferromagnetic multidomain states. The presented theory allows qualitatively to define the area of existence for each of these states depending on geometrical and material parameters of multilayers. In antiferromagnetically coupled superlattices with perpendicular anisotropy an applied magnetic bias field stabilizes specific multidomain states, so-called metamagnetic domains. A phenomenological theory developed in this thesis allows to derive the equilibrium sizes of metamagnetic stripe and bubble domains as functions of the antiferromagnetic exchange, the magnetic bias field, and the geometrical parameters of the multilayer. The magnetic phase diagram includes three different types of metamagnetic domain states, namely multidomains in the surface layer and in internal layers, and also mixed multidomain states may arise. Qualitative and quantitative analysis of step-like magnetization reversal shows a good agreement between the theory and experiment. Analytical equations have been derived for the stray field components of these multidomain states in perpendicular multilayer systems. In particular, closed expressions for stray fields in the case of ferromagnetic and antiferromagnetic stripes are presented. The theoretical approach provides a basis for the analysis of magnetic force microscopy (MFM) images from this class of nanomagnetic systems. Peculiarities of the MFM contrast have been calculated for realistic tip models. These characteristic features in the MFM signals can be employed for the investigations of the different multidomain modes. The methods developed for stripe-like magnetic domains are employed to calculate magnetization processes in twinned microstructures of ferromagnetic shape-memory materials. The remarkable phenomenon of giant magnetic field induced strain transformations in such ferromagnetic shape memory alloys as Ni-Mn-Ga, Ni-Mn-Al, or Fe-Pd arises as an interplay of two physical effects: (i) A martensitic transition creating competing phases, i.e. crystallographic domains or variants, which are crystallographically equivalent but have different orientation. (ii) High uniaxial magnetocrystalline anisotropy that pins the magnetization vectors along certain directions of these martensite variants. Then, an applied magnetic field can drive a microstructural transformation by which the martensitic twins, i.e. the different crystallographic domains, are redistributed in the martensitic state. Within the phenomenological (micromagnetic) theory the equilibrium parameters of multivariant stripe patterns have been derived as functions of the applied field for an extended single-crystalline plate. The calculated magnetic phase diagram allows to give a detailed description of the magnetic field-driven martensitic twin rearrangement in single crystals of magnetic shape-memory alloys. The analysis reveals the crucial role of preformed twins and of the dipolar stray-field energy for the magnetic-field driven transformation process in magnetic shape-memory materials. This work has been done in close collaboration with a group of experimentalists from Institute of Metallic Materials of IFW Dresden, Germany and San Jose Research Center of Hitachi Global Storage Technologies, United States. Comparisons between theoretical and experimental data from this cooperation are presented throughout this thesis as vital part of my work on these different subjects.

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info:eu-repo/classification/ddc/530

ddc:530

Abschlussbericht Demografie-Fokus: Ergebnisse der Workshops 2016 und 2017 zum demografischen Wandel in kleinen und mittleren Städten und Gemeinden im Freistaat Sachsen

Panse, Ernst, Wend, Brigitta, Zwanzig, Ute, Schöne, Bianca

12 December 2023

Der vorliegende Bericht richtet sich an die beteiligten Akteure der Demografie-Fokus-Reihe und an alle, die an den Ergebnissen der Fokus-Reihe interessiert sind. Die Veranstaltungsreihe wurde im Rahmen des Landesförderprogramms Demografie und unter Begleitung der Sächsischen Staatskanzlei unterstützt. Konzeption und Durchführung lagen in der Hand der Arbeitsgemeinschaft Panse + Wend. Redaktionsschluss: 30.01.2018

info:eu-repo/classification/ddc/300

ddc:300

info:eu-repo/classification/ddc/360

ddc:360

Leben mit Python

Piko Koch, Dorothea

28 May 2024

Dies ist ein kurzer Überblick über Python-Projekte abseits von Einsatzmöglichkeiten im Beruf.:1. Einleitung 2. Python unterrichten 3. Mit Python promovieren 4. Mit Python chatten lassen 4.1. Implementation 4.2. Literaturwissenschaftlicher Hintergrund 5. Mit Python leben 6. Mit Python basteln Literatur

info:eu-repo/classification/ddc/006

ddc:006