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In this work, we present a significant step toward in vivo ophthalmic optical coherence tomography and angiography on a photonic integrated chip. The diffraction gratings used in spectral-domain optical coherence tomography can be replaced by photonic integrated circuits comprising an arrayed waveguide grating. Two arrayed waveguide grating designs with 256 channels were tested, which enabled the first chip-based optical coherence tomography and angiography in vivo three-dimensional human retinal measurements. Design 1 supports a bandwidth of 22 nm, with which a sensitivity of up to 91 dB (830 µW) and an axial resolution of 10.7 µm was measured. Design 2 supports a bandwidth of 48 nm, with which a sensitivity of 90 dB (480 µW) and an axial resolution of 6.5 µm was measured. The silicon nitride-based integrated optical waveguides were fabricated with a fully CMOS-compatible process, which allows their monolithic co-integration on top of an optoelectronic silicon chip. As a benchmark for chip-based optical coherence tomography, tomograms generated by a commercially available clinical spectral-domain optical coherence tomography system were compared to those acquired with on-chip gratings. The similarities in the tomograms demonstrate the significant clinical potential for further integration of optical coherence tomography on a chip system.
In the regime of incentive-based autonomous demand response, time dependent prices are typically used to serve as signals from a system operator to consumers. However, this approach has been shown to be problematic from various perspectives. We clarify these shortcomings in a geometric way and thereby motivate the use of power signals instead of price signals. The main contribution of this paper consists of demonstrating in a standard setting that power tracking signals can control flexibilities more efficiently than real-time price signals. For comparison by simulation, German renewable energy production and German standard load profiles are used for daily production and demand profiles, respectively. As for flexibility, an energy storage system with realistic efficiencies is considered. Most critically, the new approach is able to induce consumptions on the demand side that real-time pricing is unable to induce. Moreover, the pricing approach is outperformed with regards to imbalance energy, peak consumption, storage variation, and storage losses without the need for additional communication or computation efforts. It is further shown that the advantages of the optimal power tracking approach compared to the pricing approach increase with the extent of the flexibility. The results indicate that autonomous flexibility control by optimal power tracking is able to integrate renewable energy production efficiently, has additional benefits, and the potential for enhancements. The latter include data uncertainties, systems of flexibilities, and economic implementation.
In this study, we carried out the structural and thermal characterization of a medical-grade poly (lactide) (PLA) by SEC, TGA, DSC, NMR, ICP-MS and Py-GC/MS. Moreover, we investigated the laser-induced degradation occurring when ultrashort laser pulses (ULP) were employed to cut extremely thin polymer films prepared by solvent-casting. ULP polymer cutting technology is an interesting manufacturing process for its advantages in potential medical applications. In fact, heat transmission to the region surrounding the cuts is limited, so that the incisions are precise and the effects on the regions around them are small. In this way, the need for post-processing is reduced and ULP cutting becomes interesting for industrial applications. However, degradation induced by ULP may occur and compromise the properties of the polymer samples. To investigate this possibility, portions of PLA films, ultrashort laser cut (ULC) and uncut, were analysed by SEC, DSC, NMR and FTIR. Furthermore, PLA oligomers were studied by ESI-MS. Both SEC and NMR showed a decrease in the molecular weight. FTIR, ESI-MS and NMR spectra revealed the presence of olefin end groups originated from a \beta-H transfer mechanism, induced by heat and/or light (Norrish II mechanism). Additionally, the inspection of the ESI mass spectra highlighted the cleavage of ester bonds related to the Norrish I type mechanism, undetected by the other techniques.
Ordnung aus der Mitte
(2021)
Electric cell-substrate impedance spectroscopy (ECIS) enables non-invasive and continuous read-out of electrical parameters of living tissue. The aim of the current study was to investigate the performance of interdigitated sensors with 50 μm electrode width and 50 μm inter-electrode distance made of gold, aluminium, and titanium for monitoring the barrier properties of epithelial cells in tissue culture. At first, the measurement performance of the photolithographic fabricated sensors was characterized by defined reference electrolytes. The sensors were used to monitor the electrical properties of two adherent epithelial barrier tissue models: renal proximal tubular LLC-PK1 cells, representing a normal functional transporting epithelium, and human cervical cancer-derived HeLa cells, forming non-transporting cancerous epithelial tissue. Then, the impedance spectra obtained were analysed by numerically fitting the parameters of the two different models to the measured impedance spectrum. Aluminium sensors proved to be as sensitive and consistent in repeated online-recordings for continuous cell growth and differentiation monitoring assensors made of gold, the standard electrode material. Titanium electrodes exhibited an elevated intrinsic ohmic resistance incomparison to gold reflecting its lower electric conductivity. Analysis of impedance spectra through applying models and numerical data fitting enabled the detailed investigation of the development and properties of a functional transporting epithelial tissue using either gold or aluminium sensors. The result of the data obtained, supports the consideration of aluminium and titanium sensor materials as potential alternatives to gold sensors for advanced application of ECIS spectroscopy.
Why do some countries assign a major role to wind energy in decarbonizing their electricity systems, while others are much less committed to this technology? We argue that processes of (de-)legitimation, driven by discourse coalitions who strategically employ certain storylines in public debates, provide part of the answer. To illustrate our approach, we comparatively investigate public discourses surrounding wind energy in Austria and Switzerland, two countries that differ strongly in wind energy deployment. By combining a qualitative content analysis and a discourse network analysis of 808 newspaper articles published 2010–2020, we identify four distinct sets of storylines used to either delegitimize or legitimize the technology. Our study indicates that low deployment rates in Switzerland can be related to the prominence of delegitimizing storylines in the public discourse, which result in a rather low socio-political acceptance of wind energy. In Austria, by contrast, there is more consistent support for wind energy by discourse coalitions using a broad set of legitimizing storylines. By bridging the related but separate literatures of technology legitimacy and social acceptance, our study contributes to a better understanding of socio-political conflict and divergence in low-carbon technological pathways.
A model is presented that allows for the calculation of the success probability by which a vanilla Evolution Strategy converges to the global optimizer of the Rastrigin test function. As a result a population size scaling formula will be derived that allows for an estimation of the population size needed to ensure a high convergence security depending on the search space dimensionality.
In this paper, the design of three-dimensional configuration of Y-branch splitter is compared with Multimode Interference splitter. Both splitters use the IP-Dip polymer as a standard material for 3D laser lithography. The optical properties of the splitters for both approaches are discussed and compared.
This paper presents design, simulation, and optimization of the three-dimensional 1×4 optical multimode interference splitter using IP-Dip polymer as a core and polydimethylsiloxane (PDMS) Sylgard 184 as a cladding. The splitter was simulated by using beam propagation method in BeamPROP simulation engine of RSoft photonic tool and optimized for an operating wavelength of 1.55 µm. According to the minimum insertion loss, the dimensions of the MMI coupler and the length of the whole MMI splitter structure were optimized applying a waveguide with a core size of 4×4 µm2. The objective of the study is to create a design for fabrication by three-dimensional direct laser writing optical lithography.
Design and optimization of 1x2N Y-branch optical splitters for telecommunication applications
(2020)
This paper presents the design and optimization of 1x2N Y-branch optical splitters for telecom applications. A waveguide channel profile, used in the splitter design, is based on a standard silica-on-silicon material platform. Except for the lengths of the used Y-branches, design parameters such as port pitch between the waveguides and simulation parameters for all splitters were considered fixed. For every Y-branch splitter, insertion loss, non-uniformity, and background crosstalk are calculated. According to the minimum insertion loss and minimum non-uniformity, the optimum length for each Y-branch is determined. Finally, the individual Y-branches are cascade joined to design various Y-branch optical splitters, from 1x2 to 1x64.
In this paper, low-loss Y-branch splitters up to 128 splitting ratio are designed, simulated, and optimized by using 2D beam propagation method in OptiBPM tool by Optiwave. For an optical waveguide, a silica-on-silicon material platform is used. The splitters were designed as a planar structure for a telecommunication operating wavelength of 1.55 m. According to the minimum insertion loss and minimum non-uniformity, the optimum length for each Y-branch is determined. The influence of the pre-defined S-Bend waveguide shapes (Arc, Cosine, Sine) and of the waveguide core size reduction on the splitter performance has been also studied. The obtained simulation results of all designed splitters with different S-Bend shape waveguides together with the different waveguide core sizes are discussed and compared with each other.
This paper aims to study the design, simulation, and optimization of low-loss Y-branch passive optical splitters up to 64 output ports for telecommunication applications. For a waveguide channel profile, the standard material silica-on-silicon is used. The Y-splitters are designed and simulated at telecommunication operating wavelength, λ = 1550 nm. Except for the lengths of the used Y-branches, and a core size of the waveguides, design parameters such as port pitch between the waveguides and simulation parameters for all splitters are considered fixed. The simulation results are analyzed to determine the optimum length of the splitters and the optimum core size. Based on this optimization the total length of the highest designed 1×64 Y-branch splitter was reduced by 41.14 % for a waveguide core (5×5) μm2 compared to the length of splitter with a standard (6×6) μm2 core size.
Today, optics and photonics is widely regarded as one of the most important key technologies for this century. Many experts even anticipate that the 21st century will be century of photon much as the 20th century was the century of electron. Optics and photonics technologies affect almost all areas of our life and cover a wide range of applications in science and industry, e.g. in information and communication technology, in medicine, life science engineering as well as in energy and environmental technology. However even so attractive, the photonics is not well known by most people. To motivate especially young generation for optics and photonics we worked out a lecture related to the “light” for children aged eight to twelve years. We have prepared many experiments to explain the nature of light and its applications in our everyday life. Finally, we focused on the optical data transmission, i.e. how modern communication over optical networks works. To reach many children at home we recorded this lecture and offered it as a video online in the frame of children’s university at Vorarlberg University of Applied Sciences. By combining the hands-on teaching with having a fun while learning about the basic optics concepts we aroused interest of many children with a very positive feedback.
We present the technological verification of a size-optimized 160-channel, 50-GHz silicon nitride-based AWG-spectrometer. The spectrometer was designed for TM-polarized light with a central wavelength of 850 nm applying our proprietary “AWG-Parameters” tool. For the simulations of AWG layout, the WDM PHASAR photonics tool from Optiwave was used. The simulated results show satisfying optical properties of the designed AWG-spectrometer. However, the high-channel count causes a large AWG size with standard design approaches. To solve this problem we designed a special taper enabling the reduction of AWG structure by about 15% while keeping the same optical properties. The AWG design was fabricated and the measured spectra not only confirm the proposed size-reduction but also the improvement of optical properties of the size-optimized AWG.
In this work, we investigated the influence of different etch depths of the rib waveguides on the performance of SiN-based AWGs. For this purpose, an 8-channel 100 GHz AWG was designed for a center wavelength of 850 nm. The design parameters entered were calculated using the AWG-Parameters tool. The simulations were performed with a commercial photonic tool PHASAR from Optiwave. The simulated performance was evaluated using the AWG-Analyzer tool. For the AWG design, we used three identical rib waveguides with different etch depths to simulate possible etch imperfection. The simulations show the wavelength shift and degradation of the AWG performance.
We present design of planar 16-channel, 100-GHz multi-mode polymer-based AWG. This AWG was designed for central wavelength of 1550 nm applying AWG-Parameters tool. The AWG structure was created and simulated in the commercial photonic tool PHASAR from Optiwave. Achieved transmission characteristics were evaluated by AWG-Analyzer tool. For the design, multi-mode waveguides having a cross-section of (4x4) µm2 were used. The simulated results show strong worsening of the transmission characteristics in comparison when using single-mode waveguides. Nevertheless, the transmitting channels are clearly separated. The reason for using thicker multi-mode waveguides in the design is possibility to fabricate the AWG structure on polymer basis using direct laser writing lithography.
Arrayed Waveguide Grating (AWG) is a passive optical component, which have found applications in a wide range of photonic applications including telecommunications and medicine. Silica-on-Silicon (SoS) based AWGs use a low refractive-index contrast between the core (waveguide) and the cladding which leads to some significant advantages such as low propagation losses and low fiber coupling losses between the AWG waveguides and the fibres. Therefore, they are an attractive DWDM solution offering higher channel count technology and good performance characteristics compared to other methods. However, the very low refractive-index contrast means the bending radius of the waveguides needs to be very large (on the order of several millimeters) and may not fall below a particular critical value to suppress bending losses. As a result, silica-based waveguide devices usually have a very large size that limits the integration density of SiO2-based photonic integrated devices. High-index contrast AWGs (such as silicon, silicon nitride or polymer-based waveguide devices) feature much smaller waveguide size compared to low index contrast AWGs. Such compact devices can easily be implemented on a chip and have already found applications in emerging applications such as optical sensors, devices for DNA diagnostics and optical spectrometers for infrared spectroscopy.In this work, we present the design, simulation, technological verification and applications of both, the low-index contrast and high-index contrast AWGs. For telecommunication applications AWG-MUX/Demux with up to 128-channels will be presented. For medical applications the AWG-spectrometer with up to 512-channels will be presented.This work was carried out in the framework of the projects: ADOPT No. SK-AT-20-0012, NOVASiN No. SK-AT-20-0017 and AUTOPIC No. APVV-17-0662 from Slovak research and development agency of Ministry of Education, Science, Research and Sport of the Slovak Republic and No. SK 07/2021 and SK 08/2021 from Austrian Agency for International Cooperation in Education and Research (OeAD-GmbH); and project PASTEL, no. 2020-10-15-001, funded by SAIA.
Zeigen, nicht erklären!
(2020)
Medien sind während der Covid-Pandemie in besonderem Maße gefordert, komplexe Sachverhalte, wie Inzidenzen und exponentielles Wachstum einfach zu erklären. Informationsgrafiken sind dazu bestens geeignet, erfordern allerdings hohe Kompetenz in der Erstellung. Dieser Artikel plädiert für die Einführung eines eigenen journalistischen Genres, nämlich des visuellen Journalismus.
A multi-recombinative active matrix adaptation evolution strategy for constrained optimization
(2019)
Analysis of the (μ/μI,λ)-CSA-ES with repair by projection applied to a conically constrained problem
(2019)
A covariance matrix self-adaptation evolution strategy for optimization under linear constraints
(2018)
In recent years, ultrashort pulsed lasers have increased their applicability for industrial requirements, as reliable femtosecond and picosecond laser sources with high output power are available on the market. Compared to conventional laser sources, high quality processing of a large number of material classes with different mechanical and optical properties is possible. In the field of laser cutting, these properties enable the cutting of multilayer substrates with changing material properties. In this work, the femtosecond laser cutting of phosphor sheets is demonstrated. The substrate contains a 230 micrometer thick silicone layer filled with phosphor, which is embedded between two glass plates. Due to the softness and thermal sensitivity of the silicone layer in combination with the hard and brittle dielectric material, the separation of such a material combination is challenging for both mechanical separation processes and cutting with conventional laser sources. In our work, we show that the femtosecond laser is suitable to cut the substrate with a high cutting edge quality. In addition to the experimental results of the laser dicing process, we present a universal model that allows predicting the final cutting edge geometry of a multilayer substrate.
Investigation of non-uniformly emitting optical fiber diffusers on the light distribution in tissue
(2020)
The importance of Agent-Based Simulation (ABS) as scientific method to generate data for scientific models in general and for informed policy decisions in particular has been widely recognised. However, the important technique of code testing of implementations like unit testing has not generated much research interested so far. As a possible solution, in previous work we have explored the conceptual use of property-based testing. In this code testing method, model specifications and invariants are expressed directly in code and tested through automated and randomised test data generation. This paper expands on our previous work and explores how to use property-based testing on a technical level to encode and test specifications of ABS. As use case the simple agent-based SIR model is used, where it is shown how to test agent behaviour, transition probabilities and model invariants. The outcome are specifications expressed directly in code, which relate whole classes of random input to expected classes of output. During test execution, random test data is generated automatically, potentially covering the equivalent of thousands of unit tests, run within seconds on modern hardware. This makes property-based testing in the context of ABS strictly more powerful than unit testing, as it is a much more natural fit due to its stochastic nature.
Background: Cardiovascular disease is the major cause of death worldwide. Although knowledge regarding diagnosing and treating cardiovascular disease has increased dramatically, secondary prevention remains insufficiently implemented due to failure among affected individuals to adhere to guideline recommendations. This has continued to lead to high morbidity and mortality rates. Involving patients in their healthcare and facilitating their active roles in their chronic disease management is an opportunity to meet the needs of the increasing number of cardio-vascular patients. However, simple recall of advice regarding a more preventive lifestyle does not affect sustainable behavioral lifestyle changes. We investigate the effect of plaque visualization combined with low-threshold daily lifestyle tasks using the smartphone app PreventiPlaque to evaluate change in cardiovascular risk profile. Methods: and study design: This randomized, controlled clinical trial includes 240 participants with ultrasound evidence of atherosclerotic plaque in one or both carotid arteries, defined as focal thickening of the vessel wall measuring 50% more than the regular vessel wall. A criterion for participation is access to a smartphone suitable for app usage. The participants are randomly assigned to an intervention or a control group. While both groups receive the standard of care, the intervention group has additional access to the PreventiPlaque app during the 12-month follow-up. The app includes daily tasks that promote a healthier lifestyle in the areas of smoking cessation, medication adherence, physical activity, and diet. The impact of plaque visualization and app use on the change in cardiovascular risk profile is assessed by SCORE2. Feasibility and effectiveness of the PreventiPlaque app are evaluated using standardized and validated measures for patient feedback.
Production and tribological characterization of tailored laser-induced surface 3D microtextures
(2019)
Over the last years, polymers have gained great attention as substrate material, because of the possibility to produce low-cost sensors in a high-throughput manner or for rapid prototyping and the wide variety of polymeric materials available with different features (like transparency, flexibility, stretchability, etc.). For almost all biosensing applications, the interaction between biomolecules (for example, antibodies, proteins or enzymes) and the employed substrate surface is highly important. In order to realize an effective biomolecule immobilization on polymers, different surface activation techniques, including chemical and physical methods, exist. Among them, plasma treatment offers an easy, fast and effective activation of the surfaces by micro/nanotexturing and generating functional groups (including carboxylic acids, amines, esters, aldehydes or hydroxyl groups). Hence, here we present a systematic and comprehensive plasma activation study of various polymeric surfaces by optimizing different parameters, including power, time, substrate temperature and gas composition. Thereby, the highest immobilization efficiency along with a homogenous biomolecule distribution is achieved with a 5-min plasma treatment under a gas composition of 50% oxygen and nitrogen, at a power of 1000 W and a substrate temperature of 80 C. These results are also confirmed by different surface characterization methods, including SEM, XPS and contact angle measurements.
Brainstorming ist ein Mythos
(2021)
Ethikorientiert entscheiden
(2021)
Sensemaking
(2020)
Maßnahmen zur Planung, zum Aufbau und zur Steuerung einer Wertschöpfungsarchitektur entfalten ihre Wirkung, wenn sie kontextsensitiv entwickelt und umgesetzt werden. Zu diesem Kontext gehören Strukturen und Prozesse der geplanren Vorgehensweise, ermittelbare Daten und Informationen über das eigene Tun sowie Erwartungen und Verhaltensweisen aller Beteiligten. Im Kern der Bemühungen sollte die Mitgestaltung kommunikativer Prozesse der gemeinsamen Verständigung sein, denn ihre Resonanzen sind die Bezugspunkte für das weitere Tun. Daher gilt: Der betriebswirtschaftliche Erfolg wird maßgeblich geprägt durch die Qualität der Verständigung.
Spielregeln und Spielzüge
(2020)
Die Gültigkeit einer Wirtschaftsordnung (Spielregeln) verlangt den Beteiligten einen allgemeinen Konsens, der sich auch auf die Durchsetzungsinstanzen (Schiedsrichter) bezieht. Es fragt sich, auf welcher Basis dieser Konsens über die Geltung von Spielregeln, Spielzügen und regelkonform sanktionierenden Schiedsrichtern beruht und gibt es dafür benötige Vorbedingungen?
Form einer Entscheidung
(2021)
Eine gute Entscheidungsfähigkeit braucht mehr als eine tiefe fachinhaltliche Expertise. Nötig ist eine kommunikative Anschlussfähigkeit an die internen Netzwerke, die durch Kommunikationen zusammengehalten werden. Warum? Weil eine Entscheidungsfindung geprägt ist von habitualisierten Verhaltensweisen der Repräsentanten dieser Netzwerke.
Organisationsdesign
(2021)
Organisationsdesign bezeichnet die zielorientierte, kontextsensitive Gestaltung der Rahmenbedingungen einer Organisation(seinheit). Im Fokus stehen das Ermöglichen und Begrenzen von Formen von (bereichsübergreifenden) Kommunikationen und Entscheidungen, ohne diese letztendlich zu determinieren. Deshalb soll es ausdrücklich der jeweiligen konkreten Entscheidung vorbehalten bleiben, wie sie sich auf vorherige Entscheidungen bezieht.
Entscheidungen herbeiführen
(2021)
Ein Entscheidungsprozess wird zusammengehalten von aufeinander Bezug nehmenden Kommunikationen, deren Geltungsanspruch die Kommunikationspartner voraussetzen. Möchte man eine Entscheidung herbeiführen, ist eine fachinhaltliche Expertise keinesfalls ausreichend. Notwendig ist eine Einbindung in das Netzwerk kommunikativer Entscheidungen, dann damit werden die Resonanzen generiert, die sich im Netzwerk entfalten und so die zu tätigende Entscheidungen beeinflussen.
Was Kennzahlen aussagen
(2021)
Was ist als Ergebnis der Operation 1 : 2 als „korrekt“ anzuerkennen? In der Menge der natürlichen Zahlen N ist 0 korrekt, in der Menge der rationalen Zahlen Q ist 0,5 richtig. Was „wahr“ ist, hängt also von den Ermittlungs- und Berechnungsgrundlagen ab. Das übersehen viele Führungskräfte beim Umgang mit Kennzahlen genau so, wie die Bedeutung ihrer kommunikativen Kompetenzen.
Besser entscheiden
(2021)
Unüberschaubar viele Vorschläge des systematischen Entscheidens führen bei bestimmten Rahmenbedingungen zum Erfolg. Die berufliche Praxis weicht aber zumeist stark davon ab, daher sind viele Methoden unbrauchbar. Wie kann man dennoch seine Fähigkeit zu Entscheiden verbessern? Man orientiert sich an grundlegenden Handlungsmaximen.
Probemlösung
(2020)
Der Prozess der Problemlösung wird durch aufeinander verweisende, anschlussfähige Kommunikationen zusammengehalten. Mit Kommunikationen wird ein gemeinsames Verständnis über das Gegebene und über das Gewollte erarbeitet (Sensemaking). Das Resultat des Kommunizierens erlangt durch die Abgabe von Selbstverpflichtungen (Commitments) ihre kollektive Verbindlichkeit.
Die Realität ist keinesfalls einfach da. Sie wird vielmehr von den Beteiligten erst kommunikativ erzeugt. Einzeln und gemeinsam werden Beobachtungen und damit erzielte Ergebnisse, gedankliche Vorstellungen, argumentative Begründungen sowie grundlegende Annahmen und damit zusammenhängende Deutungen schriftlich und/oder mündlich kommuniziert und miteinander ausgetauscht.
Eine ergebnisoffene, konstruktiv-kritische Reflexion der zu verantwortenden Wertschöpfung durch verschiedene Beobachter mit den unterschiedlichsten Prägungen ist nicht voraussetzungslos zu haben. Die beteiligten Personen (Stelleninhaber in einer Position mit einer Funktion) sind gewohnt, mit der „Brille“ ihrer Fachdisziplin, ihrer Fachabteilung oder ihres Verantwortungsbereiches die jeweils zu verantwortende Wertschöpfung zu betrachten. Die zu bearbeitenden Problemstellungen hingegen beachten keinerlei Grenzen von Fachdisziplinen, Fachabteilungen oder Verantwortungsbereichen.
Wirtschaftsethik
(2020)
Wirtschaftliche und ethische Handlungen sind zugleich realisierbar, wenn zwischen einer einrahmenden Wirtschaftsordnung (Spielregeln) und einzelnen Handlungen (Spielzügen) unterschieden wird. Das wirtschaftliche Tun und Unterlassen wird dann in den Spielzügen und die Ethik über die Spielregeln realisierbar. Die Gültigkeit einer Wirtschaftsordnung setzt einen allgemeinen Konsens über die Spielregeln und die Durchsetzungsinstanzen (z. B: Justiz oder Kartellamt) voraus. Dann regelt sie den Wettbewerb und nötigt Anbieter, sich an den Interessen der Nachfrager zu orientieren und dabei auf einen effizienten Ressourceneinsatz zu achten. So erfolgt das individuelle Handeln der Marktteilnehmer in der einrahmenden Wirtschaftsordnung mit den darin befindlichen Anreizen, daher spricht man von einer Anreizethik. Mit ihr werden wirtschaftliche und ethische Handlungen zugleich realisierbar.
Praxisorientierte BWL
(2020)
Die Betriebswirtschaftslehre ist eine praxisorientierte Wissenschaft, der es um das nachvollziehbare Ableiten theoretischer Erkenntnisse und das Herleiten praxistauglicher Gestaltungsvorschläge für die betriebliche Praxis geht. Zu erarbeiten sind möglichst allgemein anwendbare Methoden, Instrumente oder Konzepte und nicht nur Lösungsvorschläge für eine einzelne Problematik. Theorie ist dabei keinesfalls das Gegenteil von Praxis, vielmehr sind Theorie und Praxis zwei sich gegenseitig bedingende Polare einer tragfähigen Berufsqualifizierung („Employability“).
Kalkül der Form
(2020)
Der Kalkül von Spencer-Brown dokumentiert mit der Form der Unterscheidung in logisch-mathematischer Weise das Benennen eines Beobachtungsobjektes in Abhängigkeit von der zuvor getätigten Unterscheidung des Beobachters. Diese Unterscheidung ist weder Objekt noch Relation: Sie ist eine Operation, die zugleich Operand und Operator ist!
Praxis versus Theorie
(2020)
Praktisches Tun ist auch ein Ausfluss vorherigen Denkens. Abstrahierende Reflexion bezieht sich auch auf das konkrete Umsetzen in der Praxis. Erfolgsversprechend ist also eine reflektierte Handlungsorientierung, die gegebene Rahmenbedingungen beachtet und zweckdienlich ist. Daher sind Praxis und Theorie siamesische Zwillinge, die stets zusammen zu Besuch kommen.
In der betriebswirtschaftlichen Fachliteratur ist die erkenntnistheoretische Denkfigur des Beobachters bis auf wenige Ausnahmen weitgehend ausgeblendet. Das muss nicht sein. Beispielsweise kann aus einer Beobachterperspektive notiert werden: Unternehmen ereignen sich, indem Beobachter auf eine Art und Weise tätig werden, die sie als Organisation von Gütern und Dienstleistungen, als Deckung fremder Bedarfe und als Verzinsung des eingesetzten Kapitals verstehen, voneinander unterscheiden und wechselseitig aufeinander beziehen.
Ausgehandeltes Verständnis
(2020)
Entscheidungen über die optimierte organisatorische Wertschöpfung werden oft von mehreren Personen getroffen. Möchte die entscheidungsorientierte BWL anwendungsorientiert sein, legt sie den Fokus auf das Gewebe von aufeinander verweisenden (entscheidungsfördernden) Kommunikationen zu legen und auf der Erkenntnisfigur des Beobachters aufzubauen.
Organisation als Form
(2020)
In Diskursen liegen viele Missverständnisse darin begründet, dass die Diskursteilnehmer bei der Versprachlichung ihrer Gedanken ineinander verschachtelte Bezeichnungen und Unterscheidungen benutzen. Jede Unterscheidung wird zu einer Kontextur im Kontext weiterer Kontexturen. Was das bedeutet, wird hier anhand des Phänomens mit Namen Organisation skizziert.
Organisation
(2013)
Akademische Lehre 2.0
(2014)