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Unternehmen setzen zunehmend auf KI oder planen, dies künftig zu tun. Doch die große Euphorie bleibt in der Industrie aus guten Gründen noch aus. Zum einen fehlt die kritische Masse an Einsatzszenarien, weswegen Unsicherheit besteht, welche Handlungsfelder nachhaltige Erfolge versprechen. Zum anderen ist die Frage der Zuverlässigkeit zu klären, also wie valide KI-generierte Ergebnisse wirklich sind. Im Folgenden geht es um die Mechanismen, die gute Ergebnisse sicherstellen helfen.
Digitalisierung gilt als die Basis für das Wohlergehen der modernen und globalen Informations- und Wissensgesellschaft. Während sie immer mehr Fahrt aufnimmt, zeigt sie gleichzeitig immer deutlicher auch ihre Kehrseite: Altbewährte Verteidigungssysteme gegen Cyberangriffe versagen zunehmend. Die Ursachen werden inzwischen sehr klar: Der klassische Perimeter löst sich dank Cloud und Mobility auf, die Angriffsflächen werden dank unzähliger neu im Netz hinzugekommener Dinge exponentiell größer, und Abwehrmaßnahmen auf herkömmliche Weise dank einer zerklüfteten, kaum integrierten Security-Landschaft immer komplexer. Zeit, die Erfolgsfaktoren der Digitalisierung zu erkennen und für das eigene Unternehmen umzusetzen. Dabei helfen vier grundsätzliche Cybersicherheitsstrategien.
A systematic method for obtaining a novel electrode structure based on PtCoMn ternary alloy catalyst supported on graphitic carbon nanofibers (CNF) for hydrogen evolution reaction (HER) in acidic media is proposed. Ternary alloy nanoparticles (Co0.6Mn0.4 Pt), with a mean crystallite diameter under 10 nm, were electrodeposited onto a graphitic support material using a two-step pulsed deposition technique. Initially, a surface functionalisation of the carbon nanofibers is performed with the aid of oxygen plasma. Subsequently, a short galvanostatic pulse electrodeposition technique is applied. It has been demonstrated that, if pulsing current is employed, compositionally controlled PtCoMn catalysts can be achieved. Variations of metal concentration ratios in the electrolyte and main deposition parameters, such as current density and pulse shape, led to electrodes with relevant catalytic activity towards HER. The samples were further characterised using several physico-chemical methods to reveal their morphology, structure, chemical and electrochemical properties. X-ray diffraction confirms the PtCoMn alloy formation on the graphitic support and energy dispersive X-ray spectroscopy highlights the presence of the three metallic components from the alloy structure. The preliminary tests regarding the electrocatalytic activity of the developed electrodes display promising results compared to commercial Pt/C catalysts. The PtCoMn/CNF electrode exhibits a decrease in hydrogen evolution overpotential of about 250 mV at 40 mA cm−2 in acidic solution (0.5 M H2SO4) when compared to similar platinum based electrodes (Pt/CNF) and a Tafel slope of around 120 mV dec−1, indicating that HER takes place under the Volmer-Heyrovsky mechanism.
Synergien
(2020)
The set of transactions that occurs on the public ledger of an Ethereum network in a specific time frame can be represented as a directed graph, with vertices representing addresses and an edge indicating the interaction between two addresses.
While there exists preliminary research on analyzing an Ethereum network by the means of graph analysis, most existing work is focused on either the public Ethereum Mainnet or on analyzing the different semantic transaction layers using static graph analysis in order to carve out the different network properties (such as interconnectivity, degrees of centrality, etc.) needed to characterize a blockchain network. By analyzing the consortium-run bloxberg Proof-of-Authority (PoA) Ethereum network, we show that we can identify suspicious and potentially malicious behaviour of network participants by employing statistical graph analysis. We thereby show that it is possible to identify the potentially malicious
exploitation of an unmetered and weakly secured blockchain network resource. In addition, we show that Temporal Network Analysis is a promising technique to identify the occurrence of anomalies in a PoA Ethereum network.