Web 3.0 — wohin geht es mit dem World Wide Web?: Grundlagen zum Social Semantic Web

Zusammenfassungen: In diesem Übersichtsartikel stelle ich in groben Zügen das Web 3.0 und die um dieses Konzept existierenden Technologien vor. Er soll als Einleitung zu den in dieser Ausgabe vorliegenden Fachbeiträgen dienen. Vor allem Neulinge, die sich mit diesem Thema zum ersten Mal beschäftigen, sollen von dieser Einführung profitieren können. Natürlich hoffe ich, dass auch Web-3.0-Kenner ihre Vorstellungen und Ideen hier wiederfinden. Grob gesprochen beinhaltet das Web 3.0 die Möglichkeit, dass Webseiten die Bedeutung ihrer Inhalte in einer eindeutigen, maschineninterpretierbaren Form mitteilen können, woraus sich vielfältige Möglichkeiten für das automatische Auffinden von Inhalten und für die am Web angebotenen Dienste ergebe

Complementing Büchi automata with a subset-tuple construction

Complementation of Büchi automata is well known for being difficult. In the worst case, a state-space growth of (0:76n)n is unavoidable. Recent studies suggest that “simpler” algorithms perform better than more involved ones on practical cases. In this paper, we present a simple “direct” algorithm for complementing Büchi automata. It involves a structured subset construction (using tuples of subsets of states) that produces a deterministic automaton. This construction leads to a complementation procedure that resembles the straightforward complementation algorithm for deterministic Büchi automata, the latter algorithm actually being a special case of our construction

Non-signature based virus detection: Towards establishing a unknown virus detection technique using SOM

A non-signature-based virus detection approach using Self-Organizing Maps (SOMs) is presented in this paper. Unlike classical virus detection techniques using virus signatures, this SOM-based approach can detect virus-infected files without any prior knowledge of virus signatures. Exploiting the fact that virus code is inserted into a complete file which was built using a certain compiler, an untrained SOM can be trained in one go with a single virus-infected file and will then present an area of high density data, identifying the virus code through SOM projection. The virus detection approach presented in this paper has been tested on 790 different virus-infected files, including polymorphic and encrypted viruses. It detects viruses without any prior knowledge - e.g. without knowledge of virus signatures or similar features - and is therefore assumed to be highly applicable to the detection of new, unknown viruses. This non-signature-based virus detection approach was capable of detecting 84% of the virus-infected files in the sample set which included, as already mentioned, polymorphic and encrypted viruses. The false positive rate was 30%. The combination of the classical virus detection technique for known viruses and this SOM-based technique for unknown viruses can help systems be even more secur

Emerging Role of Hypofractionated Radiotherapy with Simultaneous Integrated Boost in Modern Radiotherapy of Breast Cancer

Hypofractionated radiotherapy for breast cancer is becoming increasingly important. The scientific background of this development as well as the introduction of the simultaneous integrated boost to the primary tumor region in this context are discussed here

Structural network properties of niche-overlap graphs

The structure of networks has always been interesting for researchers. Investigating their unique architecture allows to capture insights and to understand the function and evolution of these complex systems. Ecological networks such as food-webs and niche-overlap graphs are considered as complex systems. The main purpose of this work is to compare the topology of 15 real niche-overlap graphs with random ones. Five measures are treated in this study: (1) the clustering coefficient, (2) the between ness centrality, (3) the assortativity coefficient, (4) the modularity and (5) the number of chord less cycles. Significant differences between real and random networks are observed. Firstly, we show that niche-overlap graphs display a higher clustering and a higher modularity compared to random networks. Moreover we find that random networks have barely nodes that belong to a unique sub graph (i.e. between ness centrality equal to 0) and highlight the presence of a small number of chord less cycles compared to real networks. These analyses may provide new insights in the structure of these real niche-overlap graphs and may give important implications on the functional organization of species competing for some resources and on the dynamics of these systems

M+D: conceptual guidelines for compiling a materials library

This article proposes to present a study conducted by the Raw Materials research group, the results of which comprise the conceptual guidelines for compiling an M+D material library. The study includes the topic, materials and design taking the impact of the changes that came into being in the post industrial era on project methodologies and the search for information regarding materials. Taking into account the importance and complexity that these relationships have taken on currently, we have studied the issue of materials based on Manzini (1983) and Ashby and Johnson (2002). Afterward different databases and materials libraries located in the Brazil, the United States, France and Italy geared toward design professionals and students were analyzed to understand what information and means of access to them were available. The project methodologies were approached based on Löbach (1991), Bürdeck (1994), Schulmann (1994), Baxter (1998), Dantas (1998 and 2005) and Papanek (1995 and 2000). This study sought to identify the key elements of the role of materials in the project process today, to serve as a parameter for the analysis of the models studied. A comparative analysis of the models investigated enabled identification of positive and negative aspects to adapt to the needs previously mentioned and identify conceptual guidelines for compiling a collection of materials for use in design projects. Keywords: Design, Materials, Project Methodology, Library</p

Daple is a novel non-receptor GEF required for trimeric G protein activation in Wnt signaling

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UEG Young Talent Group : What do we do?

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Supersymmetric Polarization Anomaly in Photonic Discrete-Time Quantum Walks

Quantum anomalies lead to finite expectation values that defy the apparent symmetries of a system. These anomalies are at the heart of topological effects in electronic, photonic, and atomic systems, where they result in a unique response to external fields but generally escape a more direct observation. Here, we implement an optical-network realization of a discrete-time quantum walk, where such an anomaly can be observed directly in the unique circular polarization of a topological midgap state. We base the system on a single-step protocol overcoming the experimental infeasibility of earlier multistep protocols. The evolution combines a chiral symmetry with a previously unexplored unitary version of supersymmetry. Having experimental access to the position and the coin state of the walker, we perform a full polarization tomography and provide evidence for the predicted anomaly of the midgap states. This approach opens the prospect to dynamically distill topological states for quantum information applications