Refine
Year of publication
- 2017 (44) (remove)
Document Type
- Conference Proceeding (13)
- Article (unreviewed) (10)
- Article (reviewed) (8)
- Book (6)
- Part of a Book (4)
- Contribution to a Periodical (1)
- Doctoral Thesis (1)
- Letter to Editor (1)
Conference Type
- Konferenzartikel (12)
- Konferenz-Abstract (1)
Is part of the Bibliography
- yes (44) (remove)
Keywords
- Trade Policy (2)
- AGIO (1)
- AGIO-Bilanzierung Kreditinstitute (1)
- Bankbilanzierung (1)
- Betriebswirtschaftliche Fallstudien (1)
- Deskriptive Statistik (1)
- Economic Growth (1)
- Export Credit (1)
- FDI (1)
- Gamification (1)
Institute
- Fakultät Wirtschaft (W) (44) (remove)
Open Access
- Closed Access (24)
- Open Access (5)
- Closed (1)
Interne Revision: Anforderungen an die Wirksamkeit – ein Vergleich von IDW EPS 983 und MaRisk
(2017)
In der genossenschaftlichen FinanzGruppe werden neben Verbundunternehmen wie zum Beispiel der DZ Bank rund 45 bis 50 Genossenschaftsbanken von der künftigen Berichtspflicht nach der sogenannten CSR-Richtlinie betroffen sein. Dieser Artikel gibt Hinweise zu Auswirkungen der neuen Gesetzeslage, aber auch zu Chancen und Potenzialen. Diskutiert wird insbesondere, was das neue Gesetz bzw. der Regierungsentwurf von 2016 besagt, und was die Vorgaben konkret für Genossenschaftsbanken bedeuten. Der Beitrag diskutiert zudem Synergien, Chancen und Potenziale: Das Thema Nachhaltigkeit kann wertvolle Impulse für eine zielgerichtete Weiterentwicklung des eigenen Geschäftsmodells bieten, beispielsweise wie neue Kundengruppen und/oder neue Ertragspotenziale mit Hilfe von neuen Produkten beziehungsweise Geschäftsfeldern erschlossen werden können.
The growing complexity in RF front-ends, which support carrier aggregation and a growing number of frequency bands, leads to tightened nonlinearity requirements in all sub-components. The generation of third order intermodulation products (IMD3) are typical problems caused by the non-linearity of SAW devices. In the present work, we investigate temperature compensating (TC) SAW devices on Lithium Niobate-rot128YX. An accurate FEM simulation model [1] is employed, which allows to better understand the origin of nonlinearities in such acoustic devices.
In the present work, nonlinearities in temperature compensating (TC) SAW devices are investigated. The materials used are LiNbO₃-rot128YX as the substrate and Copper electrodes covered with a SiO₂-layer as the compensating layer. In order to understand the role of these materials for the nonlinearities in such acoustic devices, a FEM simulation model in combination with a perturbation approach is applied. The nonlinear tensor data of the different materials involved in TC-SAW devices have been taken from literature, but were partially modified to fit experimental data by introducing scaling factors. An effective nonlinearity constant is determined by comparison of nonlinear P-matrix simulations to IMD3 measurements of test filters. By employing these constants in nonlinear periodic P-matrix simulations a direct comparison to nonlinear periodic FEM-simulations yields the scaling factors for the material used. Thus, the contribution of different materials to the nonlinear behavior of TC-SAW devices is obtained and the role of metal electrodes is discussed in detail.
Economic growth is usually driven by improvements in productivity, economic efficiency, trade and innovation. Increasing efficiency means to produce larger output using the same amount of factors for production such as raw materials, labour, and capital. However, regardless of the driver, growth is often investment-hungry and it is not rare to find an economy with potential for growth but lacking locally available investment. In this scenario, Foreign Direct Investment (FDI) can fill the gap between investment needed to promote economic growth and locally available investments.
Produkt-Controlling
(2017)
Zentraler Baustein des Marketing ist die „facettenreiche“ Produktpolitik. Im nachstehenden Beitrag wird zunächst die Einordnung der Produktpolitik in den Zielkatalog des Marketing und des Unternehmens skizziert. Das Produkt-Controlling wird verstanden als zielgerichtete Unterstützung der Managementaufgaben im Kontext der Produktpolitik mittels passender Instrumente – Instrumente, die der Phase der Produktentstehung wie der Marktzyklusphase zuzuordnen sind. Erkennbar wird: es gibt ein umfangreiches Set an Methoden, die das Marketing-Management unterstützen und die Sicherstellung der Marketing-Effektivität und Marketing-Effizienz gewährleisten. Die Komplexität des Produkt-Controllings bedingt sich auch durch den ausreichenden Einbezug preis-, qualitäts- und markenpolitischer Informationen in die Zielkontrolle.
Die Vorteile des Einzelstückflusses haben zu einer Verschiebung der Grenzen zwischen den Montageorganisationen in Richtung des Fließprinzips geführt. Im vorliegenden Artikel werden quantitative Kriterien zur Fließlinieneignung als Entscheidungshilfe aus montageorganisatorischer Sicht vorgestellt. Neben der Eignung anhand der Überlappung von Endmontagevorgängen werden die schwankungsbedingte und verteilungsbedingte Fließlinieneignung vorgestellt. Ihre Anwendung wird anhand eines Algorithmus und anhand der Ergebnisse aus einem Praxisbeispiel gezeigt.
Manuelle Montagen erfahren eine zunehmende Variantenvielfalt und abnehmende Losgrößen, und das bei steigenden Anforderungen bezüglich Qualität und Produktivität. Statische Montageanweisungen kommen hierbei an ihre Grenzen. Doch welche Systeme bieten für manuelle Montagen eine geeignete Assistenz an? Im vorliegenden Artikel werden auf dem Markt vorhandene Montageassistenzsysteme eingeteilt und bewertet, um Aussagen zu ihrer Eignung zu treffen. Anschließend wird ihr Unterstützungspotenzial am Beispiel eines Arbeitsplatzes untersucht und bewertet.
This book has emerged from lectures and courses given in recent years by the authors at their universities and shows how theoretical concepts of Business Intelligence are applied in SAP BW on HANA.
The authors developed a set of case studies guiding the student through the complete process of building an end-to-end BI system, based on a simple but realistic business scenario. The cases are designed in such a way that the application of many concepts such as staging, core data warehouse, data mart, reporting, etc., in SAP BW on HANA is introduced and demonstrated step by step.
Target Audience:
The cases are primarily designed for SAP BW beginners, who want a first introduction and hands-on experience with the latest version of BW on HANA. We briefly touch the general concepts of Business Intelligence and Data Warehousing. These concepts are discussed in many excellent books out in the market, which we don’t want to replace. The reader should either already be familiar with these concepts or should be willing to use the references we provide. Also, this book can NOT replace a complete consultant training for BW, but it can serve as a starting point for a journey into the world of SAP BW on HANA.
Dieses Lehrbuch ermöglicht dem Anfänger in der 3D-Modellierung einen schnellen Einstieg in die Arbeit mit dem cloudbasierten CAD-System Onshape, das über das Internet einen einfachen Zugang zu praxisorientiertem CAD bietet. Der Schwerpunkt liegt dabei auf den grundlegenden Funktionen zur Modellierung von Einzelteilen und Baugruppen, sowie in der Erstellung von einfachen technischen Zeichnungen. Dabei werden bei jedem Schritt die besonderen Anforderungen an eine 3D-Druck-gerechte Gestaltung erläutert und umgesetzt. Somit ist das Ergebnis dieser „Schritt für Schritt“-Anleitung die vollständige Modellierung eines Miniatur-Automobils, das am 3D-Drucker in ein reales Modell umgesetzt werden kann. Das didaktische Konzept ist so ausgelegt, dass alle Schritte für ein Selbststudium geeignet sind. Die aktuelle Auflage basiert jetzt auf der deutschen Version und erläutert die Nutzung von Zusatzfunktionen mittels App.
Additive manufacturing processes have evolved rapidly in recent years and now offer a wide range of manufacturing technologies and workable materials. This range from plastics and metals to paper and even polymer plaster composites. Due to the layer by layer structure of the components the additive processes have in comparison with conventional manufacturing processes the advantage of freedom of design, that means the simple implementation of complex geometries. Moreover, the additive processes provide the advantage of reduced consumption of resources, since essentially only the material is consumed, which is required for the actual component, since no waste in the form of chips is produced. In order to use these advantages, the potentials of additive manufacturing and the requirements of sustainable design must already be observed in the product development process. So the design of the components and products must be made so as little as possible construction and supporting material is required for the generative production and therefore little resources are consumed. Also, all steps of the additive manufacturing process must be considered properly, that includes the post processing. This allows components be designed so that for instance the effort for removing the support structure is considerably reduced. This leads to a significant reduction in manufacturing time and thus energy consumption. The implementation of these potentials in product development can be demonstrated by means of a multiple-stages model. A case study shows how this model is applied in the training of Master students in the field of product development. In a workshop the students work as a group while implementing the task of developing a miniature racing car under the rules of sustainable design in compliance with the boundary conditions for an additive manufacturing. In this case, Fused Deposition Modelling FDM using plastics as a building material is applied. The results show how the students have dealt with the different requirements and how they have implemented them in product development and in the subsequent additive manufacturing.
The present-day methods of numerical simulation offer a great variety of options for optimizing metal forming processes. Although it is possible to simulate complex forming processes, the results are typically available only as 2D projections on screens. Some forming processes have reached a level of complexity beyond the level of spatial sense, which makes it necessary to use physical 3D representations to develop a deeper understanding of the material flow, microstructural processes, process and design limits, or to design the required tooling. Physical 3D models can be produced in a short amount of time using 3D printing, and indexed with a wide range of colors. In this paper, the additive manufacturing of 3D color models based on simulation results are explored by means of examples from metal forming. Different 3D-printing processes are compared on the basis of quality as well as technical and economic criteria. Other examples from the fields joining by upset-bulging of tubes and microstructure simulation are also analyzed. This paper discusses the possibilities offered by the rapid progress and wide availability of 3D printers for the design and optimization of complex metal forming processes.
In recent years, the additive manufacturing processes have rapidly developed. The additive manufacturing processes currently present a high-performance alternative to conventional manufacturing methods. In particular, they offer the opportunity of previously hardly imaginable design freedom, i.e. the implementation of complex forms and geometries. This capability can, for example, be applied in the development of especially light but still loadable components in automotive engineering. In addition, waste material is seldom produced in additive manufacturing which benefits a sustainable production of building components. Until now, this design freedom was barely used in the construction of technical components and products because, in doing so, both specific design guidelines for additive manufacturing and complex strength calculations must be simultaneously observed. Yet in order to fully take advantage of the additive manufacturing potential, the method of topology optimization, based on FEM simulation, suggests itself. It is with this method that components that are precisely matched and are especially light, thereby also resource-saving, can be produced. Current literature research indicates that this method is used in automotive manufacturing for reducing weight and improving the stability of both individual parts and assembly units. This contribution will study how this development method can be applied in the example of a brake mount from an experimental vehicle. In this, the conventional design is improved by means of a simulation tool for topology optimization in various steps. In an additional processing step, the smoothing of the thus developed component occurs. Finally, the component is generatively manufactured by means of selective laser melting technology. Models are manufactured using binder jetting for the demonstration of the process. It will also be determined how this weight reduction affects the CO2 emissions of a vehicle in use.
Architecture models are an essential component of the development process and enable a physical representation of virtual designs. In addition to the conventional methods of model production using the machining of models made of wood, metal, plastic or glass, a number of additive manufacturing processes are now available. These new processes enable the additive manufacturing of architectural models directly from CAAD or BIM data. However, the boundary conditions applicable to the ability to manufacture models with additive manufacturing processes must also be considered. Such conditions include the minimum wall thickness, which depends on the applied additive manufacturing process and the materials used. Moreover, the need for the removal of support structures after the additive manufacturing process must also be considered. In general, a change in the scale of these models is only possible at very high effort. In order to allow these restrictions to be adequately incorporated into the CAAD model, this contribution develops a parametrized CAAD model that allows such boundary conditions to be modified and adapted while complying with the scale. Usability of this new method is illustrated and explained in detail in a case study. In addition, this article addresses the additive manufacturing processes including subsequent post-processing.
Implementation of lightweight design in the product development process of unmanned aerial vehicles
(2017)
The development and manufacturing of unmanned aerial vehicles (UAVs) require a multitude of design rules. Thereby, additive manufacturing (AM) processes provide a number of significant advantages over conventional production methods, particularly for implementing requirements with regard to lightweight construction and sustainability. A new, promising approach is presented, with which, through the combination of very light structural elements with a ribbed construction, an attached covering by means of foil is used. This contribution develops and presents a development process that is based on various development cycles. Such cycles differ in their effort and scope within the overall development, and may only comprise one part of the development process, or the entire development process. The applicability of this development process is demonstrated within the framework of a comprehensive case study. The aim is to develop an additively manufactured product that is as light as possible in the form of a UAV, along with a sustainable manufacturing process for such product. Finally, the results of this case study are analyzed with regard to the improvement of lightweight construction.
Comparing anomalies and exceptions to multilateral dysfunction across a number of spheres of world politics, the book chapter explores pathways through and beyond gridlock in trade. It provides a vital new perspective on world politics as well as a practical guide for positive change in global policy.
Quo Vadis Freihandel?
(2017)
Risk aversion, financing and real servicThe Global CEO Survey was launched in 2015 by researchers from Offenburg University, the University of Westminster and the London School of Economics and Political Science (LSE) to better understand and discover what factors influence exporters’ demand for credit insurance. Although some scholars discussed aspects of corporate insurance demand with regard to exporters, there is limited research concerning the demand for export credit insurance associated with firm-specific factors. Only few empirical studies support existing theories on corporate insurance demand and export credits. This project investigates and fills the relevant gap of official export credit insurance demand.es
Defining Recrutainment: A Model and a Survey on the Gamification of Recruiting and Human Resources
(2017)
Recrutainment, is a hybrid word combining recruiting and entertainment. It describes the combination of activities in human resources and gamification. Concepts and methods from game design are now used to assess and select future employees. Beyond this area, recrutainment is also applied for internal processes like professional development or even marketing campaigns. This paper’s contribution has four components: (1) we provide a conceptual background, leading to a more precise definition of recrutainment; (2) we develop a new model for analyzing solutions in recrutainment; (3) we present a corpus of 42 applications and use the new model to assess their strengths and potentials; (4) we provide a bird’s eye view on the state of the art in recrutainment and show the current weighting of gamification and recruiting aspects.
In medical applications wireless technologies are not widely spread. Today they are mainly used in non latency-critical applications where reliability can be guaranteed through retransmission protocols and error correction mechanisms. By using retransmission protocols within the disturbed shared wireless channel latency will increase. Therefore retransmission protocols are not sufficient for removing latency-critical wired connections within operating rooms such as foot switches. Todays research aims to improve reliability through the physical characteristics of the wireless channel by using diversity methods and more robust modulation. In this paper an Architecture for building up a reliable network is presented. The Architecture offers the possibility for devices with different reliability, latency and energy consumption requirements to participate. Furthermore reliability, latency and energy consumption are scalable for every single participant.
Клиновые акустические волны в твёрдом те-ле — это третий фундаментальный тип волн, после объёмных и поверхност-ных волн, импульсы которых распространяются без изменений своих форм (дисперсия отсутствует). Систему упругого клина можно получить из систе-мы упругого полупространства, “разрезав” его вдоль некоторой плоскости, а систему упругого полупространства можно получить из распределённой в пространстве упругой среды тем же методом, поэтому связи между поверх-ностными и объёмными волнами должны во многом повторяться при рас-смотрении клиновых и поверхностных волн. Например, существование быст-рых псевдоповерхностных волн в системе упругого полупространства, излу-чающих энергию при распространении в объёмные волны, имеет свой аналог и для системы упругого клина: совсем недавно были открыты псевдоклино-вые волны, излучающие как объёмные, так и поверхностные волны по мере своего распространения. С другой стороны, в этой же последовательности объёмных, поверхностных и клиновых волн должны выделяться и отличи-тельные особенности. Если поверхностные волны отличаются от объёмных волн тем, что они локализованы на двухмерной поверхности (объёмные вол-ны являются нелокализованными), то клиновые волны локализованы вдоль одномерной поверхности (линии) — кромки клина. Клиновые волны — это волноводные акустические волны, которые распространяются без дифракци-онных потерь, а также они не обладают дисперсией, поскольку в системе бесконечного упругого клина нет ни одного параметра размерности длины.
В заключении приведены основные результаты работы, которые со-стоят в следующем:
1. С помощью метода функций Лагерра была построена функция динами-ческого отклика на импульсный линейный источник (функция Грина) для задачи Лэмба в полупространстве, а также были изучены вопросы о сходимости и устойчивости данного построения. Было показано, что в предельном случае построенная функция динамического отклика совпа-дает с классической функцией Грина для этой задачи.
2. На основе результатов предыдущего пункта была построена функция Грина для упругого клина (и функция плотности состояния на кром-ке, совпадающая с диагональными компонентами функции Грина), с по-мощью которой удалось идентифицировать импульсы псевдоклиновых волн на экспериментальных кривых.
3. Для определённых клиновых конфигураций в анизотропных упругих средах (тетрагональных кристаллах) удалось получить критерий суще-ствования клиновых волн на основе характеристик поверхностных волн, распространяющихся на гранях исследуемых конфигураций, а также в некоторых случаях удалось классифицировать клиновые волны по типу симметрии.
4. Была разработана теория, описывающая формы импульсов клиновых волн при различных режимах генерации: абляционном и термоупругом.
5. Для клиновых волн была представлена нелинейная теория второго по-рядка. Были проведены численные расчёты функции ядра эволюцион-ного уравнения клиновых волн для кремниевых клиньев с одной гранью, совпадающей с поверхностью (111) (поверхность скола), и с произволь-ной ориентацией второй грани.
6. Были описаны фундаментальные отличия нелинейных линовых волн от нелинейных объёмных и поверхностных волн, а также было проведено численное моделирование эволюции импульса клиновых волн, которое показало соответствие теории эксперименту.
7. Получены решения солитонного типа для клиновых волн. Рассмотрены взаимодействия солитонов и свойства солитонного распада.
Das Buch enthält Fallstudien zur deskriptiven und induktiven Statistik, welche auf die Bachelor-Ausbildung in der Betriebswirtschaft ausgerichtet sind. Für die fachlichen Grundlagen wird auf eine prägnante Liste einschlägiger Werke verwiesen. Ziel der Fallstudien ist es, den gesamten in einer Lehrveranstaltung erlernten Stoff adäquat anzuwenden. Hiermit soll ein fundiertes, nachhaltiges Gesamtverständnis erreicht und die Einübung von Transfers realisiert werden. Den Fallstudien liegen, zum Download vorgehaltene, realistische Datensets in einem Umfang zugrunde, der die Anwendung von Unterstützungssystemen erforderlich macht. Dazu ist die Verwendung von Microsoft Excel vorgesehen. In jeder Fallstudie werden sukzessive Lösungshinweise angeboten, um einen möglichst großen Lerneffekt zu erzielen. Das Lehrbuch richtet sich in erster Linie an Studierende in der Examensvorbereitung und kann auch als Klausurenkurs genutzt werden. Einzelne Fallstudien können aber auch veranstaltungsbegleitend zum Abschluss eines Themenbereiches, wie z. B. der deskriptiven Statistik bearbeitet werden.
Elastic constants of components are usually determined by tensile tests in combination with ultrasonic experiments. However, these properties may change due to e.g. mechanical treatments or service conditions during their lifetime. Knowledge of the actual material parameters is key to the determination of quantities like residual stresses present in the medium. In this work the acoustic nonlinearity parameter (ANP) for surface acoustic waves is examined through the derivation of an evolution equation for the amplitude of the second harmonic. Given a certain depth profile of the third-order elastic constants, the dependence of the ANP with respect to the input frequency is determined and on the basis of these results, an appropriate inversion method is developed. This method is intended for the extraction of the depth dependence of the third-order elastic constants of the material from second-harmonic generation and guided wave mixing experiments, assuming that the change in the linear Rayleigh wave velocity is small. The latter assumption is supported by a 3D-FEM model study of a medium with randomly distributed microcracks as well as theoretical works on this topic in the literature.
Zerstörungsfreie Verfahren zur Messung von Eigenspannungen erfordern, abhängig vom gewählten Verfahren, die Kenntnis gewisser Kopplungskonstanten. Im Falle von Ultraschallmessverfahren sind das neben den elastischen Konstanten zweiter Ordnung (SOEC) vor allem die Konstanten dritter Ordnung (TOEC). Elastische Konstanten fester, metallischer Bauteile werden in der Regel in Zugversuchen bestimmt. Zur Ermittlung der TOEC werden diese mit Ultraschallmessmethoden kombiniert. Durch äußere Einflüsse, wie etwa mechanische Nachbehandlungen der zu untersuchenden Bauteile können sich diese Konstanten jedoch ändern und müssen folglich direkt am veränderten Material bestimmt werden. Mithilfe von Simulationen wird die Ausbreitung der zweiten Harmonischen und der nichtlinear erzeugten Oberflächenwellen in Wellenmischexperimenten analysiert und der akustische Nichtlinearitätsparameter (ANP) bzw. der Kopplungsparameter aus der Amplitudenentwicklung berechnet. Insbesondere wird untersucht, welchen Einfluss ein gegebenes Tiefenprofil der TOEC auf den ANP hat (Vorwärtsproblem) und inwiefern sich aus den Messungen des ANP auf ein vorliegendes Tiefenprofil der TOEC schließen lässt (inverses Problem). Außerdem wird diskutiert, welchen Einfluss lokale Änderungen der SOEC auf den ANP haben können und wie groß diese Änderungen sein dürfen, um die TOEC dennoch bestimmen zu können. Die Untersuchungen hierzu wurden auf der Basis eines 3D-FEM Modells mit zufällig orientierten Mikrorissen durchgeführt. Die numerischen Rechnungen zeigen dabei auch eine gute Übereinstimmung mit einem aus der Literatur bekannten und für dieses Problem erweiterten, analytischen Modell. Neben der rissinduzierten Nichtlinearität kann bei diesem auch die Gitternichtlinearität berücksichtigt werden.
Sichere Detektion von Menschen in der Mensch-Roboter-Kollaboration mit Time-of-Flight Kameras
(2017)
Time-of-Flight Cameras Enabling Collaborative Robots for Improved Safety in Medical Applications
(2017)
Human-robot collaboration is being used more and more in industry applications and is finding its way into medical applications. Industrial robots that are used for human-robot collaboration, cannot detect obstacles from a distance. This paper introduced the idea of using wireless technology to connect a Time-of-Flight camera to off-the-shelf industrial robots. This way, the robot can detect obstacles up to a distance of five meters. Connecting Time-of-Flight cameras to robots increases the safety in human-robot collaboration by detecting obstacles before a collision. After looking at the state of the art, the authors elaborated the different requirements for such a system. The Time-of-Flight camera from Heptagon is able to work in a range of up to five meters and can connect to the control unit of the robot via a wireless connection.
In safety critical applications wireless technologies are not widely spread. This is mainly due to reliability and latency requirements. In this paper a new wireless architecture is presented which will allow for customizing the latency and reliability for every single participant within the network. The architecture allows for building up a network of inhomogeneous participants with different reliability and latency requirements. The used TDMA scheme with TDD as duplex method is acting gentle on resources. Therefore participants with different processing and energy resources are able to participate.