Refine
Year of publication
Document Type
- Report (103)
- Working Paper (88)
- Journal (Complete Issue of a Journal) (84)
- Master's Thesis (76)
- Article (71)
- Book (49)
- Bachelor Thesis (44)
- Conference Proceeding (34)
- Study Thesis (8)
- Other Publications (7)
Language
- German (446)
- English (137)
- Multiple languages (1)
Has Fulltext
- yes (584) (remove)
Keywords
- .NET Remoting (1)
- .NET-Plattform (1)
- 1D-CNN (1)
- 2 D environment Laser data (1)
- 3D Extended Object Tracking (1)
- 3D shape tracking (1)
- 3D-Druck (1)
- 5-10-40-Bedingung (1)
- ADO.NET (1)
- ASP.NET (1)
Institute
- Fakultät Architektur und Gestaltung (27)
- Fakultät Bauingenieurwesen (77)
- Fakultät Elektrotechnik und Informationstechnik (23)
- Fakultät Informatik (59)
- Fakultät Maschinenbau (33)
- Fakultät Wirtschafts-, Kultur- und Rechtswissenschaften (40)
- Institut für Angewandte Forschung - IAF (44)
- Institut für Naturwissenschaften und Mathematik - INM (2)
- Institut für Optische Systeme - IOS (13)
- Institut für Strategische Innovation und Technologiemanagement - IST (2)
Die Forschungs- und Weiterbildungsaktivtäten konzentrierten sich auf die Anwendung von Virtual Reality in der Lehre. Hier interessierte vor allem, wo im Maschinenbau diese Technologie sinnvoll eingesetzt werden kann. Hierzu wurden die verschiedenen Bereiche im Maschinenbau untersucht.
Des Weiteren sollte die Frage beantwortet werden, wie man die Technologie sinnvoll einsetzen kann. Hierzu wurden die Arbeitsplätze der Modellfabrik herangezogen. Die Modellfabrik bot die Möglichkeit sowohl in der industrienahen Umgebung das reale Training durchzuführen als auch das VR-Training durchzuführen.
Neben den Hauptaktivitäten im Bereich Virtual Reality erlaubte mir das Forschungssemester auch, in andere Felder der Digitalisierung und Industrie 4.0 tiefer einzusteigen. Hier sei explizit die konkrete Anbindung der Montagelinien in der Modellfabrik an das Digitalisieurngs-Tool von Forcam zu erwähnen. Die digitale Anbindung der Montagelinie ist mit interessanten Problemstellungen verbunden, auf die hier nicht weiter eingegangen werden soll, die aber zu einem deutlich tieferen Verständnis von konkreten Umsetzungsproblemen der Industrie geführt haben.
In der automobilen Kompaktklasse werden trockenlaufende Stufenlosgetriebe bisher nicht eingesetzt. Dies ist vor allem auf die nicht zufriedenstellende Übertragbarkeit von Leistung im Zusammenhang mit einem ausreichenden Stellbereich (Getriebespreizung) der Umschlingungsmittel zurückzuführen. Neben Weiterentwicklungen auf dem Gebiet der Verbundkeilriemen, die für diesen Zweck eingesetzt werden, müssen vor allem jedoch konstruktive Lösungen für eine Leistungssteigerung gefunden werden. Es soll das Konzept eines Doppelriemen- (Twinbelt-) Getriebes untersucht werden. Durch die Verwendung zweier Riemen statt eines einzelnen kann nahezu eine Verdoppelung der übertragbaren Leistung erwartet werden, was die Einsatzmöglichkeiten für das Getriebe wesentlich erweitert. Als problematisch ist vor allem die Bauraumfrage des zusätzlichen Riementriebs, sowie der erhöhte Aufwand in der Getriebesteuerung zu sehen. Außerdem müssen für eine rentable Fertigung des Getriebes die notwendigen zusätzlichen Bauteile auf ein Minimum reduziert werden. Neben der theoretischen und konstruktiven Auslegung der zu entwickelnden Komponenten des Twinbelt-Getriebes und der Bauraumuntersuchung für die Anwendung in der automobilen Kompaktklasse ist auch die Entwicklung eines Komponenten-Prüfstandes durchzuführen. Der Prüfstand soll die Untersuchung der Funktionalität dieser neuen Getriebebauform, aber auch die Versuche in bezug auf die notwendigen Verstell- und Anpresssysteme, sowie das Betriebsverhalten der eingesetzten Riemen ermöglichen.
Tugend als social strings
(2006)
This paper examines the interdependencies of tourism, Buddhism and sustainability combining in-depth-interviews with Buddhism experts and non-participant observation in a mixed-method approach. The area under investigation is the Alpine region of Austria, Germany and Switzerland, since it is home to Asian and Western forms of Buddhism tourism alike. Results show that Buddhism tourism as a value-based activity on the one hand is not commercial, but since demand is rising, on the other hand tendencies towards more commercial forms can be observed. As a modest form of activity Buddhism tourism does not shape the landscape of the Alpine area and by its nature it incorporates sustainability.
Transaktions-Rhizome
(2007)
We call for a paradigm shift in engineering education. We are entering the era of the Fourth Industrial Revolution (“4IR”), accelerated by Artificial Intelligence (“AI”). Disruptive changes affect all industrial sectors and society, leading to increased uncertainty that makes it impossible to predict what lies ahead. Therefore, gradual cultural change in education is no longer an option to ease social pain. The vast majority of engineering education and training systems, which have remained largely static and underinvested for decades, are inadequate for the emerging 4IR and AI labour markets. Nevertheless, some positive developments can be observed in the reorientation of the engineering education sector. Novel approaches to engineering education are already providing distinctive, technology-enhanced, personalised, student-centred curriculum experiences within an integrated and unified education system. We need to educate engineering students for a future whose key characteristics are volatility, uncertainty, complexity and ambiguity (“VUCA”). Talent and skills gaps are expected to increase in all industries in the coming years. The authors argue for an engineering curriculum that combines timeless didactic traditions such as Socratic inquiry, mastery-based and project-based learning and first-principles thinking with novel elements, e.g., student-centred active and e-learning with a focus on case studies, as well as visualization/metaverse and gamification elements discussed in this paper, and a refocusing of engineering skills and knowledge enhanced by AI on human qualities such as creativity, empathy and dexterity. These skills strengthen engineering students’ perceptions of the world and the decisions they make as a result. This 4IR engineering curriculum will prepare engineering students to become curious engineers and excellent collaborators who navigate increasingly complex multistakeholder ecosystems.
A growing share of modern trade policy instruments is shaped by non-tariff barriers (NTBs). Based on a structural gravity equation and the recently updated Global Trade Alert database, we empirically investigate the effect of NTBs on imports. Our analysis reveals that the implementation of NTBs reduces imports of affected products by up to 12%. Their trade dampening effect is thus comparable to that of trade defence instruments such as anti-dumping duties. It is smaller for exporters that have a free trade agreement with the importing country. Different types of NTBs affect trade to a different extent. Finally, we investigate the effect of behind-the-border measures, showing that they significantly lower the importer’s market access.
In the field of autonomously driving vehicles the environment perception containing dynamic objects like other road users is essential. Especially, detecting other vehicles in the road traffic using sensor data is of utmost importance. As the sensor data and the applied system model for the objects of interest are noise corrupted, a filter algorithm must be used to track moving objects. Using LIDAR sensors one object gives rise to more than one measurement per time step and is therefore called extended object. This allows to jointly estimate the objects, position, as well as its orientation, extension and shape. Estimating an arbitrary shaped object comes with a higher computational effort than estimating the shape of an object that can be approximated using a basic geometrical shape like an ellipse or a rectangle. In the case of a vehicle, assuming a rectangular shape is an accurate assumption.
A recently developed approach models the contour of a vehicle as periodic B-spline function. This representation is an easy to use tool, as the contour can be specified by some basis points in Cartesian coordinates. Also rotating, scaling and moving the contour is easy to handle using a spline contour. This contour model can be used to develop a measurement model for extended objects, that can be integrated into a tracking filter. Another approach modeling the shape of a vehicle is the so-called bounding box that represents the shape as rectangle.
In this thesis the basics of single, multi and extended object tracking, as well as the basics of B-spline functions are addressed. Afterwards, the spline measurement model is established in detail and integrated into an extended Kalman filter to track a single extended object. An implementation of the resulting algorithm is compared with the rectangular shape estimator. The implementation of the rectangular shape estimator is provided. The comparison is done using long-term considerations with Monte Carlo simulations and by analyzing the results of a single run. Therefore, both algorithms are applied to the same measurements. The measurements are generated using an artificial LIDAR sensor in a simulation environment.
In a real-world tracking scenario detecting several extended objects and measurements that do not originate from a real object, named clutter measurements, is possible. Also, the sudden appearance and disappearance of an object is possible. A filter framework investigated in recent years that can handle tracking multiple objects in a cluttered environment is a random finite set based approach. The idea of random finite sets and its use in a tracking filter is recapped in this thesis. Afterwards, the spline measurement model is included in a multi extended object tracking framework. An implementation of the resulting filter is investigated in a long-term consideration using Monte Carlo simulations and by analyzing the results of a single run. The multi extended object filter is also applied to artificial LIDAR measurements generated in a simulation environment.
The results of comparing the spline based and rectangular based extended object trackers show a more stable performance of the spline extended object tracker. Also, some problems that have to be addressed in future works are discussed. The investigation of the resulting multi extended object tracker shows a successful integration of the spline measurement model in a multi extended object tracker. Also, with these results some problems remain, that have to be solved in future works.
Towards an integrated theory of economic governance – Conclusions from the governance of ethics
(2004)
In 1970, B.A. Asner, Jr., proved that for a real quasi-stable polynomial, i.e., a polynomial whose zeros lie in the closed left half-plane of the complex plane, its finite Hurwitz matrix is totally nonnegative, i.e., all its minors are nonnegative, and that the converse statement is not true. In this work, we explain this phenomenon in detail, and provide necessary and sufficient conditions for a real polynomial to have a totally nonnegative finite Hurwitz matrix.
Increasing demand for sustainable, resilient, and low-carbon construction materials has highlighted the potential of Compacted Mineral Mixtures (CMMs), which are formulated from various soil types (sand, silt, clay) and recycled mineral waste. This paper presents a comprehensive inter- and transdisciplinary research concept that aims to industrialise and scale up the adoption of CMM-based construction materials and methods, thereby accelerating the construction industry’s systemic transition towards carbon neutrality. By drawing upon the latest advances in soil mechanics, rheology, and automation, we propose the development of a robust material properties database to inform the design and application of CMM-based materials, taking into account their complex, time-dependent behaviour. Advanced soil mechanical tests would be utilised to ensure optimal performance under various loading and ageing conditions. This research has also recognised the importance of context-specific strategies for CMM adoption. We have explored the implications and limitations of implementing the proposed framework in developing countries, particularly where resources may be constrained. We aim to shed light on socio-economic and regulatory aspects that could influence the adoption of these sustainable construction methods. The proposed concept explores how the automated production of CMM-based wall elements can become a fast, competitive, emission-free, and recyclable alternative to traditional masonry and concrete construction techniques. We advocate for the integration of open-source digital platform technologies to enhance data accessibility, processing, and knowledge acquisition; to boost confidence in CMM-based technologies; and to catalyse their widespread adoption. We believe that the transformative potential of this research necessitates a blend of basic and applied investigation using a comprehensive, holistic, and transfer-oriented methodology. Thus, this paper serves to highlight the viability and multiple benefits of CMMs in construction, emphasising their pivotal role in advancing sustainable development and resilience in the built environment.
The main objective of this paper is to revisit the Euro method in a critical and constructive way.Wehave analysed some arguments against the Euro method published recently in the literature as well as some other relevant aspects of the SUT-Euro and SUT-RAS methods not covered before. Although not being the Euro method perfect, we believe that there is still space for the use of the Euro method in updating/regionalizing Supply and Use tables.
The main objective of this paper is to revisit Temursho’s (2020) article “On the Euro method” in a critical and constructive way. We have praised part of his work and at the same time, we have analysed some of his arguments against the Euro method and against the work published by Valderas-Jaramillo et al. (2019). Moreover, we have analysed some other relevant aspects of the SUT-Euro and SUT-RAS methods not covered in Temursho (2020). Temursho (2020) seems to conclude that no one should use the Euro method again because of its limitations and drawbacks. However, although not being the Euro method perfect, we are afraid that there is still space for the use of the Euro method in updating/regionalizing supply and use tables.
AbstractSanctions encompass a wide set of policy instruments restricting cross‐border economic activities. In this paper, we study how different types of sanctions affect the export behavior of firms to the targeted countries. We combine Danish register data, including information on firm‐destination‐specific exports, with information on sanctions imposed by Denmark from the Global Sanctions Database. Our data allow us to study firms' export behavior in 62 sanctioned countries, amounting to a total of 453 country‐years with sanctions over the period 2000–2015. Methodologically, we apply a two‐stage estimation strategy to properly account for multilateral resistance terms. We find that, on average, sanctions lead to a significant reduction in firms' destination‐specific exports and a significant increase in firms' probability to exit the destination. Next, we study heterogeneity in the effects of sanctions across (i) sanction types and sanction packages, (ii) the objectives of sanctions, and (iii) countries subject to sanctions. Results confirm that the effects of sanctions on firms' export behavior vary considerably across these three dimensions.
Structural interventions of the Commission comprise expenditures for objective 1, objective 2 and objective 3. The three priority objectives of the Structural Funds are: • promoting the development and structural adjustment of the regions whose development is lagging behind (objective 1); • supporting the economic and social conversion of areas facing structural difficulties (objective 2); • supporting the adaptation and modernisation of policies and systems of education, training and employment. (objective 3). The purpose of this study is to quantify the economic impacts of objective 1 interventions of the Structural Funds for the period 2000 – 2006. The expenditures of the Structural Funds for objective 2 and objective 3, the Cohesion Fund, the Instrument for Structural Policies for Pre-accession (ISPA) and loans which are granted by the European Investment Bank (EIB) are not included in the analysis. The study quantifies how much of expected development can be attributed to objective 1 expenditures for • Community interventions (Structural Funds), • public interventions (Structural Funds, national public interventions) and • total interventions (Structural Funds, national public interventions, private participation). The study uses the autumn 2001 forecast and medium-term projection of Directorate-General for Economic and Financial Affairs of the European Commission in order to calculate a baseline for the impact assessment. Today, the forecast itself seems rather optimistic. However, this does not cause problems for the analysis in this report, because the objective is to estimate the impact of the structural funds. In other words the objective is to estimate, for example, the additional growth caused by the structural funds and not to forecast growth as such. Therefore, whether the forecast as such will materialise is of no consequence for the impact analysis in this study.
Regarding moral concerns in the business sphere, integrity is often mentioned as one of the core values that guides the behavior of companies. Daimler for instance states: “Acting with integrity is the central requirement for sustainable success and a maxim that Daimler follows in its worldwide business practices.”1 Reference to integrity is mostly supposed to signal that the company acts morally responsibly. Although some companies specify what acting with integrity means for them, it generally remains unclear what the concept of integrity entails – both broadly speaking and referring to business. This conceptual gap shall be filled by developing a concept of integrity that can be transferred to the business context. For this purpose, the main criteria that constitute moral integrity will be discussed before reflecting on how these could be integrated into a practical and comprehensive concept of corporate integrity.
Web services are, due to the excellent tool support, simple to provide and use in trivial cases. But their use in non-trivial Web service-based systems like I3M poses new difficulties and problems. I3M is an instant messaging and chat system with distributed and local components collaborating via Web services. One difficulty is to make a series of related Web service invocations in a stateful session. A problem is the performance of collaborating collocated, service-oriented components of a system due to the high Web service invocation overheaed as is shown by measurements. Solutions to both the difficulty and the problem are proposed.
To master complexity, we can organize it or discard it. The Art of Insight in Science and Engineering first teaches the tools for organizing complexity, then distinguishes the two paths for discarding complexity: with and without loss of information. Questions and problems throughout the text help readers master and apply these groups of tools. Armed with this three-part toolchest, and without complicated mathematics, readers can estimate the flight range of birds and planes and the strength of chemical bonds, understand the physics of pianos and xylophones, and explain why skies are blue and sunsets are red.
As fish farming is becoming more and more important worldwide, this ongoing project aims at the simulation and test-based analysis of highly stressed wire contacts, as they are found in off-shore fish farm cages in order to make them more reliable. The quasi-static tensile test of a wire mesh provides data for the construction of a finite element model to get a better understanding of the behavior of high-strength stainless steel from which the cages are made. Fatigue tests provide new insights that are used for an adjustment of the finite element model in order to predict the probability of possible damage caused by heavy mechanical loads (waves, storms, predators (sharks)).
This report summarises up-to-date social science evidence on climate communication for effective public engagement. It presents ten key principles that may inform communication activities. At the heart of them is the following insight: People do not form their attitudes or take action as a result primarily of weighing up expert information and making rational cost-benefit calculations. Instead, climate communication has to connect with people at the level of values and emotions.
Two aspects seem to be of special importance: First, climate communication needs to focus more on effectively speaking to people who have up to now not been properly addressed by climate communications, but who are vitally important to build broad public engagement. Second, climate communication has to support a shift from concern to agency, where high levels of climate risk perception turn into pro-climate individual and collective action.
Techniken zur Energiewende - studentische Fachkonferenz im Masterstudiengang Elektrische Systeme
(2013)
Die studentische Fachkonferenz im Rahmen des Seminars im Masterstudiengang Elektrische Systeme in der Fakultät für Elektrotechnik und Informationstechnik wird zum sechsten Mal veranstaltet.
Alle Studierenden erarbeiten unter dem vorgegebenen Rahmenthema eigene Beiträge, recherchieren, ergänzen, stellen die aktuellen Erkenntnisse zu wissenschaftlichen Publikationen zusammen.
Die Energiewende ist seit einigen Jahren ein heiß diskutiertes Thema. Die dezentrale Energieversorgung
unter Anwendung erneuerbarer Quellen, insbesondere Wind- und Solarkraft, ist langfristig gesehen die
einzige Antwort auf die Ausbeutung der Erde und Zerstörung der Umwelt durch Gewinnung nichtregenerativer
Energien, insbesondere Öl, Erdgas und Uran. Allerdings gibt es noch viele Bereiche, die intensive wissenschaftliche und entwicklungstechnische Arbeiten benötigen. Wie aus dem Titel durch Verwendung des Wortes „zur“ anstatt „der“ schon erkennbar, werden in dieser Fachtagung weniger die Techniken betrachtet, die schon zum Einsatz kommen, sondern zukünftige Techniken, die gedanklich auf Papier gebracht wurden, oder inzwischen das Stadium der Machbarkeitsstudie erreicht haben.
Das Thema Energiewende beinhaltet ein sehr breites Feld von Techniken. Daher haben sich die Teilnehmer
auf nur wenige, wichtige Gebiete konzentriert: Regenerative Energiegewinnung, Elektromobilität,
Speichertechnologien und Smart Grid. Durch das intensive Befassen mit diesen Themen haben sich die
Studierenden zum ersten Mal richtig mit den Problemen der Energiewende vertraut gemacht. Sie haben
dabei erkannt, dass für die Ingenieure der Fachrichtungen Elektrotechnik und Informationstechnik überaus
vielfältige, spannende und auch aus gesellschaftspolitischer Sicht notwendige und lohnende Aufgaben auf
sie warten.
Tauchsimulation
(2003)
Im 1.Kapitel werden die historischen Aspekte des Tauchens und der Tauchphysik beschrieben. Anhand von physikalischen Gesetzen, mathematischen Formeln und empirisch ermittelten Werten werden im 2. Kapitel die nötigen Grundlagen für das Verständnis zur Berechnung eines Tauchgangs vermittelt. Das 3.Kapitel behandelt verschiedene auf dem Markt befindliche Tauchsimulationen, zeigt deren Funktionsumfang sowie deren Vor- und Nachteile. Die erstellte Tauchsimulation wird im 4. Kapitel vorgestellt. Dabei wird auch auf verschiedene Simulationsläufe eingegangen. Zum Abschluß wird ein Ausblick auf aktuelle Entwicklungstendenzen gegeben.
Das veränderte Einkaufs- und Konsumverhalten vieler Kunden stellt den Einzelhandel vor große Herausforderungen. Dabei scheint besonders die junge Generation Z, die mit dem Internet, sozialen Medien und digitalen Anwendungen aufgewachsen ist, nicht mehr den traditionellen Konsummustern zu entsprechen und erwartet eine Anpassung des Einzelhandels an ihre Bedürfnisse. Um herauszufinden, welche Anforderungen junge Konsumentinnen und Konsumenten an den Einzelhandel stellen und wie sich diese zwischen verschiedenen Generationen unterscheiden, wurden mehr als 300 Personen aller Altersgruppen befragt. Zu den Schwerpunkten der Untersuchung zählten das Einkaufsverhalten, die Personalisierung von Kommunikation und Angeboten sowie die Nutzung digitaler Services und Technologien im Einzelhandel.
Straßen, Wege und Plätze
(2014)
Die Hefte der Schriftenreihe licht.wissen geben Informationen zur Lichtanwendung. Diese Themenhefte erläutern anhand vieler Beleuchtungsbeispiele lichttechnische Grundlagen und zeigen beispielhafte Lösungen. Sie erleichtern damit auch die Zusammenarbeit mit Fachleuten der Licht- und Elektrotechnik. Alle lichttechnischen Aussagen sind grundsätzlicher Art.
Today we live in a world that is characterized by a constantly changing environment. During the last decade, this highly volatile environment forced companies to implement strategies that identify, track and minimise the risks that entrepreneurial activity entails. Unfortunately, risks only account for a part of the insecurity that is connected to future events. The other and not inferior part of this insecurity consists of possible positive developments – so called opportunities. Due to this reason in economic science and in practice the opinion aggravates that solely focusing on risks is not sufficient to fully exploit the potential of markets and companies. In the 16th century, the Dutch Renaissance humanist scholar Desiderius Erasmus (1466-1536) said: “It is well known that among the blind, the one-eyed man is king.” Transferring this statement in the context of Risk Management, the conclusion becomes apparent: The environmental uncertainty that surrounds entrepreneurial actions includes both opportunities and threats. As commonly practiced though, Risk Management tools only address threats. While this approach is surely better than doing nothing, it still can be seen as a major weakness of the traditional Risk Management approach. Nevertheless, in terms of Erasmus, this approach represents the one-eyed man when compared with the blind. To continue this metaphor a little further, it is possible to conclude that the one-eyed king could be easily relieved of his crown by introducing an emperor who is able to see with two eyes. Although this problem is well known in economic science, up to know only little scientific focus was shifted towards the systematic identification and management of opportunities. In fact, most of the present literature focuses on the identification and handling of risk and even though much of the recently published literature captures the term opportunity, none of it proposes a solid idea of following up on the approach. Still, facing the defiances of the present economic environment, it is not sufficient for companies to focus their attention on reducing risks. Instead, it is imperative to deal with the subject of Opportunity Management as well. With this paper, I want to undermine the importance of Opportunity Management for all companies independently of their size or branch that they operate in. Thereby, this paper is dedicated to all managers who strive to improve the professionalism of their companies in terms of strategic thinking. Furthermore, I hope that this paper can facilitate a practical implementation of a working Opportunity Management System.
Selbstorganisierende Karten sind neuronale Netze, die imstande sind, Daten zu klassifizieren und zu reduzieren. Aus diesem Grund eignen sie sich sehr gut fuer die Steuerung von Robotern, da sie deren Sensoreingangswerte klassifizieren und daraus auf eine Reaktion schließen koennen. Die Architektur und Funktionsweise dieser neuronalen Netze sind der des menschlichen Kortex kuenstlich nachgebildet. Im Rahmen dieser Diplomarbeit wurde ein Java-Framework namens JFSOM implementiert, welches nach dem System einer selbstorganisierenden Karte Datenmengen klassifizieren kann. Das Framework ist so entworfen, dass sowohl Eingabedaten als auch Ausgabedaten trainiert werden koennen, um es auch als sensormotorische Karte nutzbarzu machen. JFSOM wurde verwendet, um den Miniaturroboter Khepera nach bestimmten Verhaltensweisen zu steuern. Als Verhaltensweisen wurden eine Hindernisvermeidung, eine Wandverfolgung, eine Korridorverfolgung und eine Objektverfolgung realisiert. Die Wandverfolgung laesst den Roboter aus jedem beliebigen azyklischen Labyrinth herausfinden.
Stadtmarketing mit Licht
(2010)
Die Hefte der Schriftenreihe licht.wissen geben Informationen zur Lichtanwendung. Diese Themenhefte erläutern anhand vieler Beleuchtungsbeispiele lichttechnische Grundlagen und zeigen beispielhafte Lösungen. Sie erleichtern damit auch die Zusammenarbeit mit Fachleuten der Licht- und Elektrotechnik. Alle lichttechnischen Aussagen sind grundsätzlicher Art.
Der Begriff „Sorgfalt“ steht für Genauigkeit, Gewissenhaftigkeit1 und drückt sich in der Verpflichtung zur Wahrung der Interessen anderer aus.
Diese Definition zum Begriff „Sorgfalt“ stellt nur auf die Wahrung der Interessen anderer ab und lässt eigene Interessen im Bereich der Sorgfalt unerwähnt. Es dürfte unbestritten sein, dass Sorgfalt auch im Rahmen eigener Interessen eine Rolle spielt (vgl. u.a. § 277 BGB, der von der Sorgfalt in eigenen Angelegenheiten spricht).
Dem folgend hieße das, dass ein Betriebsinhaber dann die erforderliche Sorgfalt walten lässt, wenn er genau und gewissenhaft seine Leitungsfunktion ausübt und nicht (nur) die eigenen Interessen, sondern die Dritter – nämlich die der Gesellschaft/des Betriebes – wahrt. Möglich ist sehr wohl auch, dass sich Eigen- und Drittinteresse decken.
Solarenergie
(2009)
Smart-Future-Living-Bodensee
(2018)
SInCom 2015
(2015)
This thesis emphasizes problems that reports generated by vulnerability scanners impose on the process of vulnerability management, which are a. an overwhelming amount of data and b. an insufficient prioritization of the scan results.
To assist the process of developing means to counteract those problems and to allow for quantitative evaluation of their solutions, two metrics are proposed for their effectiveness and efficiency. These metrics imply a focus on higher severity vulnerabilities and can be applied to any simplification process of vulnerability scan results, given it relies on a severity score and time of remediation estimation for each vulnerability.
A priority score is introduced which aims to improve the widely used Common Vulnerability Scoring System (CVSS) base score of each vulnerability dependent on a vulnerability’s ease of exploit, estimated probability of exploitation and probability of its existence.
Patterns within the reports generated by the Open Vulnerability Assessment System (OpenVAS) vulnerability scanner between vulnerabilities are discovered which identify criteria by which they can be categorized from a remediation actor standpoint. These categories lay the groundwork of a final simplified report and consist of updates that need to be installed on a host, severe vulnerabilities, vulnerabilities that occur on multiple hosts and vulnerabilities that will take a lot of time for remediation. The highest potential time savings are found to exist within frequently occurring vulnerabilities, minor- and major suggested updates.
Processing of the results provided by the vulnerability scanner and creation of the report is realized in the form of a python script. The resulting reports are short, straight to the point and provide a top down remediation process which should theoretically allow to minimize the institutions attack surface as fast as possible. Evaluation of the practicality must follow as the reports are yet to be introduced into the Information Security Management Lifecycle.
Shared Field, Divided Field
(2020)
In the past years, algorithms for 3D shape tracking using radial functions in spherical coordinates represented with different methods have been proposed. However, we have seen that mainly measurements from the lateral surface of the target can be expected in a lot of dynamic scenarios and only few measurements from the top and bottom parts leading to an error-prone shape estimate in the top and bottom regions when using a representation in spherical coordinates. We, therefore, propose to represent the shape of the target using a radial function in cylindrical coordinates, as these only represent regions of the lateral surface, and no information from the top or bottom parts is needed. In this paper, we use a Fourier-Chebyshev double series for 3D shape representation since a mixture of Fourier and Chebyshev series is a suitable basis for expanding a radial function in cylindrical coordinates. We investigate the method in a simulated and real-world maritime scenario with a CAD model of the target boat as a reference. We have found that shape representation in cylindrical coordinates has decisive advantages compared to a shape representation in spherical coordinates and should preferably be used if no prior knowledge of the measurement distribution on the surface of the target is available.
In this paper, a novel measurement model based on spherical double Fourier series (DFS) for estimating the 3D shape of a target concurrently with its kinematic state is introduced. Here, the shape is represented as a star-convex radial function, decomposed as spherical DFS. In comparison to ordinary DFS, spherical DFS do not suffer from ambiguities at the poles. Details will be given in the paper. The shape representation is integrated into a Bayesian state estimator framework via a measurement equation. As range sensors only generate measurements from the target side facing the sensor, the shape representation is modified to enable application of shape symmetries during the estimation process. The model is analyzed in simulations and compared to a shape estimation procedure using spherical harmonics. Finally, shape estimation using spherical and ordinary DFS is compared to analyze the effect of the pole problem in extended object tracking (EOT) scenarios.
Um gegen den Klimawandel vorzugehen, ist im Gebäudebestand eine Reduktion der Treibhausemmissionen nötig. Dafür müssen politische Entscheidungsträger, Wohnungsunternehmen und Baufirmen gemeinsam arbeiten, um CO2 Neutralität zu erreichen. Die energetische Sanierung der bedürftigen Gebäude ist mit den konventionellen Methoden bis zum Jahr 2050 nicht zu erreichen. Das Energiesprong Prinzip bietet einen Lösungsansatz, welcher finanziell interessant ist und mit weniger Personalaufwand in großer Menge umgesetzt werden kann. Es wird die Erkenntnis gewonnen, dass die bisher verwendeten konstruktiven Systeme jedoch noch Optimierungsbedarf haben, um den finanziellen Rahmen des Prinzips einzuhalten und den Massenmarkt bedienen zu können. Die Untersuchungen dieser Arbeit ergeben, dass eine im Prozess eingebundene Gebäudeaufstockung in Holzbauweise eine lohnende Ergänzung sein kann. Aus nachhaltigem Baumaterial wird mit verhältnismäßigem Mehraufwand eine größere Rentabilität der Immobilie bewirkt und dem Problem der Wohnungsknappheit in Städten entgegengewirkt.
Altbausanierung spielt in der Baupraxis eine immer wichtigere Rolle, während das Bauvolumen bei den Neubauten abnimmt. Diesem Trend wird im Studiengang Architektur der HTWG Konstanz durch neue Vorlesungen und Seminare vermehrt Rechnung getragen. So wurde im Sommersemester 2003 durch den Lehrbeauftragten Architekten Roger Karbe (Berlin) und Prof. Cengiz Dicleli (FH-Konstanz) das Seminar „Konstruktiver Denkmalschutz“ durchgeführt. Fünf denkmalgeschützte Bauten vom Weltrang, die bereits erfolgreich saniert, modernisiert und zum Teil umgenutzt worden sind, wurden unter konstruktiven und funktionalen Aspekten des Denkmalschutzes untersucht und analysiert. Diese sind der Hamburger Bahnhof, das Alte Museum, der Langhansbau im Schloss Charlottenburg, das Fährhaus auf der Pfaueninsel und Stülers Neues Museum, das zurzeit vom englischen Architekten David Chipperfield wieder hergestellt wird. Häufig werden Überlegungen zum Erhalt und Schutz historischer Bausubstanz zu wenig, zu spät oder gar nicht angestellt. Viele herausragende Gebäude sind deshalb bereits verloren gegangen. Die totale Konservierung historischer Anlagen bietet selten einen sinnvollen Lösungsansatz. Der Verzicht auf jede Veränderung schließt am Ende eine sinnvolle Nutzung aus. Entfallen oder Verändern sich die ursprünglich geplanten Nutzungen, so sollte vor jeder Aufgabe sorgfältig geprüft werden, wie weit bauliche Anlagen für neue Nutzungsanforderungen herangezogen werden können. Das Lehrziel beinhaltet die Einordnung der betreffenden Gebäude in das geschichtliche Umfeld. Danach wird das Hauptaugenmerk auf die konstruktiven Zusammenhänge gelenkt. Dabei werden möglichst alle Rahmenbedingungen erfasst: Grundstückswahl, Baugrund, Bauzeit, Baumaterialien, Baumethoden, technische Ausstattungen und Kostenrelevanz. Vertiefend folgen dann eine Erarbeitung der Wechselwirkung zu den ursprünglichen Nutzungen und die Hinlenkung zur Erkenntnis der speziellen Korrelation zwischen Konstruktion und Funktion auch bei den historischen Bauten. Die zukünftigen Architekten müssen auch lernen, sich und ihren schöpferischen Ansatz selbst kritisch zu hinterfragen. Erst das umfassende Wissen um die geschichtlichen wie kon-struktiven Zusammenhänge ermöglicht ihnen eine eigene Positionierung. Beim Erhalt historischer Gebäude durch einen möglichst schonenden Umgang mit vorhandener Substanz können gleichermaßen wirtschaftliche Interessen der Investoren wie auch die Forderungen des Denkmalschutzes befriedigt werden. Anhand der ausgewählten Bauwerke in Berlin, die alle unter Denkmalschutz stehen, konnten die Architekturstudenten verschiedene Ansätze von erfolgten Umnutzungen und den daraus folgenden Umbauten studieren. Die Bauten bieten einen Abriss der Bau- und Kulturgeschichte Preußens über einen Zeitraum von 100 Jahren vom Ende des 18. bis zum Ende des 19. Jahrhunderts.