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IFRS in 1 Stunde
(2015)
Renommierte Autoren aus Wissenschaft und Praxis zeigen die Wandlung vom Zeitungsverlag zum crossmedialen Dienstleister der Region auf. Dieser produziert und bietet als Medienhaus alle relevanten Mediengattungen (digitale Produkte, E-Commerce, Services, Sonderprodukte aus dem Medienbereich) an. Dabei werden die Anforderungen an die einzelnen Verlagsfunktionen (Redaktion, Vertrieb, Marketing, Anzeigen) genauso beschrieben wie die neuen Ansprüche an die Managementkapazitäten und Organisationsstrukturen im integrierten Medienhaus. Der Verknüpfung der unterschiedlichen Geschäftsfelder kommt eine besondere Bedeutung zu, um Synergien besser zu realisieren. Auch die Unterschiede in der Umsetzung von Finanzierungsmodellen durch Vertriebs- und Werbeerlöse bei digitalen Produkten werden beleuchtet.
Führung braucht Klarheit
(2015)
Klarheit ist das grundlegende Prinzip für Führungserfolg und ist für die eigene Weiterentwicklung als Führungskraft von zentraler Bedeutung. Dazu gehören Klarheit über die eigene Person, Klarheit über die Führungsrolle, Klarheit über die Führungsziele oder auch die Klarheit über die Wertvorstellungen und Klarheit in der Führungskommunikation. Das Buch hilft Führungskräften, sich im Rahmen eines Selbstcoachings die notwendige Klarheit zu verschaffen. Checklisten und Praxisbeispiele ermöglichen den einfachen Transfer in den praktischen Führungsalltag.
Highlights
Konkrete Anleitung zum Selbstcoaching
Rasche Wirksamkeit durch Fokussierung auf „Klarheit“
Mit Selbstchecks und Fallstudien
The instability of ultra-thin films of an electrolyte bordering a dielectric gas in an external tangential electric field is scrutinized. The solid wall is assumed to be either a conducting or charged dielectric surface. The problem has a steady one-dimensional solution. The theoretical results for a plug-like velocity profile are successfully compared with available experimental data. The linear stability of the steady-state flow is investigated analytically and numerically. Asymptotic long-wave expansion has a triple-zero singularity for a dielectric wall and a quadruple-zero singularity for a conducting wall, and four (for a conducting wall) or three (for a charged dielectric wall) different eigenfunctions. For infinitely small wave numbers, these eigenfunctions have a clear physical meaning: perturbations of the film thickness, of the surface charge, of the bulk conductivity, and of the bulk charge. The numerical analysis provides an important result: the appearance of a strong short-wave instability. At increasing Debye numbers, the short-wave instability region becomes isolated and eventually disappears. For infinitely large Weber numbers, the long-wave instability disappears, while the short-wave instability persists. The linear stability analysis is complemented by a nonlinear direct numerical simulation. The perturbations evolve into coherent structures; for a relatively small external electric field, these are large-amplitude surface solitary pulses, while for a sufficiently strong electric field, these are short-wave inner coherent structures, which do not disturb the surface.
The automatic classification of the modulation format of a detected signal is the intermediate step between signal detection and demodulation. If neither the transmitted data nor other signal parameters such as the frequency offset, phase offset and timing information are known, then automatic modulation classification (AMC) is a challenging task in radio monitoring systems. The approach of clustering algorithms is a new trend in AMC for digital modulations. A novel algorithm called `highest constellation pattern matching' is introduced to identify quadrature amplitude modulation and phase shift keying signals. The obtained simulation and measurement results outperform the existing algorithms for AMC based on clustering. Finally, it is shown that the proposed algorithm works in a real monitoring environment.
DEM–FEA estimation of pores arrangement effect on the compressive Young’s modulus for Mg foams
(2015)
This work reports the study of the effect of the pore arrangement on the compressive behavior of Mg foams with regular pore size and porosities ranging from 25% to 45%. Pore arrangements were modeled using Finite Element Analysis (FEA), with random and ordered models, and compared to the estimations obtained for a previous work. The coordinates of the random pore arrangements were firstly generated using Discrete Element Method (DEM), and used in a second stage for modeling the pores by FEA. Estimations were also compared to the experimental results for Mg foams obtained by means of powder metallurgy. Results show important drops in the Young’s moduli as the porosity increases for both, experimental results and FEA estimations. Estimations obtained using ordered pore arrangements presented significant differences when compared to the estimations acquired from models with random arrangements. The randomly arranged models represent more accurately the real topologies of the experimental metallic foams. The Young’s moduli estimated using these models were in excellent agreement with the experiments, whilst the estimations obtained using ordered models presented relative errors significantly higher. The importance of the use of more realistic FEA models for improving the predicting ability of this method was probed, for the study of the mechanical properties of metallic foams.