Your search keyword '"Herbert Jodlbauer"' showing total 2 results

1. The Orbit-Polynomial: A Novel Measure of Symmetry in Networks

Author

Matthias Dehmer, Zengqiang Chen, Frank Emmert-Streib, Abbe Mowshowitz, Kurt Varmuza, Lihua Feng, Herbert Jodlbauer, Yongtang Shi, and Jin Tao

Subjects

Quantitative graph theory, networks, symmetry, graphs, graph measures, data science, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Research on the structural complexity of networks has produced many useful results in graph theory and applied disciplines such as engineering and data analysis. This paper is intended as a further contribution to this area of research. Here we focus on measures designed to compare graphs with respect to symmetry. We do this by means of a novel characteristic of a graph G, namely an “orbit polynomial.”A typical term of this univariate polynomial is of the form czn, where c is the number of orbits of size n of the automorphism group of G. Subtracting the orbit polynomial from 1 results in another polynomial that has a unique positive root, which can serve as a relative measure of the symmetry of a graph. The magnitude of this root is indicative of symmetry and can thus be used to compare graphs with respect to that property. In what follows, we will prove several inequalities on the unique positive roots of orbit polynomials corresponding to different graphs, thus showing differences in symmetry. In addition, we present numerical results relating to several classes of graphs for the purpose of comparing the new symmetry measure with existing ones. Finally, it is applied to a set of isomers of the chemical compound adamantane C10H16. We believe that the measure can be quite useful for tackling applications in chemistry, bioinformatics, and structure-oriented drug design.

Published

2020

2. Equipment Performance Measurement in Production Plants Based on Customer Demand

Author

Alexander Hübl, Josef Pilstl, Klaus Altendorfer, and Herbert Jodlbauer

Subjects

Performance rate, Customer order, Production manager, Performance measurement, Business, Performance metric, Stock (geology), Reliability engineering

Abstract

Companies have to focus on their customers to stay competitive in the future. Therefore, metrics are necessary to measure the performance of production plants. Based on the TPM approach a metric is introduced in this paper which includes the market. This is done by taking only the produced products into account which fulfill a customer order. Products produced on stock are excluded. As a result the new metric is suitable as a performance measurement in production plants because it supports on the one hand the management objective of optimizing quality rate, performance rate and availability of the equipment. And on the other hand the management has to adjust the loading time on the customer demand. A numerical example emphasis the major drawbacks of the classical TPM metrics and illustrates the advantages of the presented performance metric.

Published

2009