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Wer mit Argumenten Veränderungen bewirken will, muss seine Ansprechpartner für seine Lösungsansätze gewinnen. Ob dies gelingt, ist heutzutage keine Frage von rhetorischem Talent und Charisma mehr. Denn Techniken des Storylinings und Storytellings machen eine Professionalisierung betriebswirtschaftlicher Argumentation und Gedankenführung für jedermann möglich.
Kennzahlen zur Liquidität
(2016)
Purpose – The purpose of this paper is to discuss the applicability of current benchmarking proposals for small and medium-sized enterprises (SMEs) and to suggest a condensed process for logistics benchmarking in SMEs.
Design/methodology/approach – The paper starts by outlining why the logistics function is of increasing importance for SMEs. It discusses the benefit of logistics benchmarking and typical SME restrictions in benchmarking. Available approaches to benchmarking are discussed and their weaknesses when applied to SME logistics benchmarking are analyzed. The paper develops a new benchmarking process framework for SME logistics benchmarking and reports findings of a case application in three German SMEs.
Eine gut funktionierende Logistik ist ein wichtiger Wettbewerbsfaktor. Um ihren Beitrag zum Unternehmenserfolg ermitteln zu können, müssen ihre Kosten aber bestimmbar sein. Daran hapert es häufig. Dabei gibt es Ansätze, um Logistikkosten von anderen Kosten abzugrenzen. Unternehmen müssen nur konkrete Regeln für ihren Einsatz berücksichtigen.
Fremdkapital ist aktuell „billig“, doch die Investitionstätigkeit von Unternehmen bleibt zurückhaltend. Wer investieren möchte, muss in erster Linie die Höhe der Kapitalkosten berücksichtigen, die im Gegensatz zu den Zinsen nur leicht gesunken sind. Controller brauchen geeignete Ansätze, um zukünftige Kapitalkosten in Investitionsentscheidungen einzubeziehen.
Die Zusammensetzung der soziografischen Strukturen einer Gesellschaft beeinflusst deren typische Charakteristika. Die für eine bestimmte Generation gängigen Merkmale wirken sich mittelbar auf die Art und Weise aus, wie Unternehmen und deren Abteilungen ihre Personalakquirierungsstrategien denken. Ein rechtzeitiges Verständnis generativer Charakteristika ist insbesondere für den Mittelstand essenziell. So konkurriert man eben auch bei hochqualifiziertem Personal mit großen internationalen Konzernen. Und Vertriebsmitarbeiter gibt es ja auch nicht wie Sand am Meer. Umgekehrt skizzieren die generativen Verhaltens- und Einstellungsmerkmale aber auch in sich partiell homogene Anforderungsprofile der Mitglieder einer solchen Generation, welche von erheblicher Praxisrelevanz sind.
Wo auch immer in Deutschland Sie Ihre Einkäufe erledigen, zumindest bei Grundnahrungsmitteln sind die Preis- und Qualitätsunterschiede zwischen verschiedenen Lebensmitteleinzelhändlern marginal. Für einen Warenkorb entstehen spürbare Preisunterschiede erst dann, wenn sich der Kunde für hochpreisige Markenprodukte entscheidet und ungewöhnlichere Artikel kauft. Und die gibt es zunehmend auch bei den klassischen Discountern, Teil eines größeren Trends, der vielen Verbrauchern noch nicht vollkommen bewusst ist. Denn die großen Discounter wandeln sich zu Einkaufsplattformen für viele Dinge des täglichen Bedarfs und werden bei steigendem Qualitätsangebot zu Wohlfühlsupermärkten. Schaffen sie damit eventuell zukünftig Raum für einen neuen Harddiscounter unterhalb der Platzhirsche?
The increasing emergence of cyber-physical systems (CPS) and a global crosslinking of these CPS to cyber-physical production systems (CPPS) are leading to fundamental changes of future work and logistic systems requiring innovative methods to plan, control and monitor changeable production systems and new forms of human-machine-collaboration. Particularly logistic systems have to obey the versatility of CPPS and will be transferred to so-called cyber physical logistic systems, since the logistical networks will underlie the requirements of constant changes initiated by changeable production systems. This development is driven and enhanced by increasingly volatile and globalized market and manufacturing environments combined with a high demand for individualized products and services. Also nowadays mainly used centralized control systems are pushed to their limits regarding their abilities to deal with the arising complexity to plan, control and monitor changeable work and logistic systems. Decentralized control systems bear the potential to cope with these challenges by distributing the required operations on various nodes of the resulting decentralized control system.
Learning factories, like the ESB Logistics Learning Factory at ESB Business School (Reutlingen University), provide a wide range of possibilities to develop new methods and innovative technical solutions in a risk-free and close-to-reality factory environment and to transfer knowledge as well as specific competences into the training of students and professionals. To intensify the research and training activities in the field of future work and logistics systems, ESB Business School is transferring its existing production system into a CPPS involving decentralized planning, control and monitoring methods and systems, human-machine-collaboration as well as technical assistance systems for changeable work and logistics systems.
A seamless convergence of the digital and physical factory aiming in personalized Product Emergence Process (PPEP) for smart products within ESB Logistics Learning Factory at Reutlingen University.
A completely new business model with reference to Industrie4.0 and facilitated by 3D experience software in today's networked society in which customers expect immediate responses, delightful experience and simple solutions is one of the mission scenarios in the ESB Logistics Learning Factory at ESB Business School (Reutlingen University).
The business experience platform provides software solutions for every organization in the company respectively in the factory. An interface with dashboards, project management apps, 3D - design and construction apps with high end visualization, manufacturing and simulation apps as well as intelligence and social network apps in a collaborative interactive environment help the user to learn the creation of a value end to end process for a personalized virtual and later real produced product.
Instead of traditional ways of working and a conventional operating factory real workers and robots work semi-intuitive together. Centerpiece in the self-planned interim factory is the smart personalized product, uniquely identifiable and locatable at all times during the production process – a scooter with an individual colored mobile phone – holder for any smart phone produced with a 3D printer in lot size one. Smart products have in the future solutions incorporated internet based services – designed and manufactured - at the costs of mass products. Additionally the scooter is equipped with a retrievable declarative product memory. Monitoring and control is handled by sensor tags and a raspberry positioned on the product. The engineering design and implementation of a changeable production system is guided by a self-execution system that independently find amongst others esplanade workplaces.
The imparted competences to students and professionals are project management method SCRUM, customization of workflows by Industrie4.0 principles, the enhancements of products with new personalized intelligent parts, electrical and electronic selfprogrammed components and the control of access of the product memory information, to plan in a digital engineering environment and set up of the physical factory to produce customer orders. The gained action-orientated experience refers to the chances and requirements for holistic digital and physical systems.