Automated Field Usability Evaluation Using Generated Task Trees

Jedes Produkt hat eine Gebrauchstauglichkeit (Usability). Das umfasst auch Software,Webseiten und Apps auf mobilen Endgeräten und Fernsehern. Im heutigen Anbieterwettbewerb kann Usability ein entscheidender Faktor für den Erfolg eines Produktes sein. Dies gilt speziell für Software, da alternative Angebote meist schnell und einfach verfügbar sind. Daher sollte jede Softwareentwicklung Gebrauchstauglichkeit als eines ihrer Ziele definieren. Um dieses Ziel zu erreichen, wird beim Usability Engineering während der Entwicklung und der Nutzung eines Produkts kontinuierlich dessen Gebrauchstauglichkeit erfasst und verbessert. Hierfür existiert eine Reihe von Methoden, mit denen in allen Projektphasen entsprechende Probleme erkannt und gelöst werden können. Die meisten dieser Methoden sind jedoch nur manuell einsetzbar und daher kostspielig in der Anwendung.    Die vorliegende Arbeit beschreibt ein vollautomatisiertes Verfahren zur Bewertung der Usability von Software. Das Verfahren zählt zu den nutzerorientierten Methoden und kann für Feldstudien eingesetzt werden. In diesem Verfahren werden zunächst detailliert die Aktionen der Nutzer auf der Oberfläche einer Software aufgezeichnet. Aus diesen Aufzeichnungen berechnet das Verfahren ein Modell der Nutzeroberfläche sowie sogenannte Task-Bäume, welche ein Modell der Nutzung der Software sind. Die beiden Modelle bilden die Grundlage für eine anschließende Erkennung von 14 sogenannten Usability Smells. Diese definieren unerwartetes Nutzerverhalten, das auf ein Problem mit der Gebrauchstauglichkeit der Software hinweist. Das Ergebnis des Verfahrens sind detaillierte Beschreibungen zum Auftreten der Smells in den Task-Bäumen und den aufgezeichneten Nutzeraktionen. Dadurch wird ein Bezug zwischen den Aufgaben des Nutzers, den entsprechenden Problemen sowie ursächlichen Elementen der graphischen Oberfläche hergestellt.    Das Verfahren wird anhand von zwei Webseiten und einer Desktopanwendung validiert. Dabei wird zunächst die Repräsentativität der generierten Task-Bäume für das Nutzerverhalten überprüft. Anschließend werden Usability Smells erkannt und die Ergebnisse manuell analysiert sowie mit Ergebnissen aus der Anwendung etablierter Methoden des Usability Engineerings verglichen. Daraus ergeben sich unter anderem Bedingungen, die bei der Erkennung von Usability Smells erfüllt sein müssen.    Die drei Fallstudien, sowie die gesamte Arbeit zeigen, dass das vorgestellte Verfahren fähig ist, vollautomatisiert unterschiedlichste Usabilityprobleme zu erkennen. Dabei wird auch gezeigt, dass die Ergebnisse des Verfahrens genügend Details beinhalten, um ein gefundenes Problem genauer zu beschreiben und Anhaltspunkte für dessen Lösung zu liefern. Außerdem kann das Verfahren andere Methoden der Usabilityevaluation ergänzen und dabei sehr einfach auch im großen Umfang eingesetzt werden.Usability is an important aspect of any kind of product. This also applies for software like desktop applications and websites, as well as apps on mobile devices and smart TVs. In a competitive market, the usability of a software becomes a discriminator between success and failure. This is especially important for software, as alternatives are often close at hand and only one click away. Hence, the software development must strive for highly usable products. Usability engineering allows for continuously measuring and improving the usability of a software during its development and beyond. For this, it offers a broad variety of methods, that support detecting usability issues in early development stages on a prototype level, as well as during the operation of a final software. Unfortunately, most of these methods are applied manually, which increases the effort of their utilization. In this thesis, we describe a fully automated approach for usability evaluation. This approach is a user-oriented method to be applied in the field, i.e., during the operation of a software. For this, it first traces the usage of a software by recording user actions on key stroke level. From these recordings, it compiles a model of the Graphical User Interface (GUI) of a software, as well as a usage model in the form of task trees. Based on these models and the recorded actions, our approach performs a detection of 14 different so called usability smells. These smells are exceptional user behavior and indicate usability issues. The result of the application of our approach on a software is a list of findings for each of the smells. These findings provide detailed information about the user tasks that are affected by the related usability issues, as well as about the elements of the GUI that cause the issues. By applying it on two websites and one desktop application, we perform an in-depth validation of our approach in three case studies. In these case studies, we verify if task trees can be generated from recorded user actions and if they are representative for the user behavior. Furthermore, we apply the usability smell detection and analyze the corresponding results with respect to their validity. For this, we also compare the findings with the results of generally accepted usability evaluation methods. Finally, we conclude on the results and derive conditions for findings of our approach, which must be met to consider them as indicators for usability issues. The results of the case studies are promising. They show, that our approach can find, fully automated, a broad range of usability issues. In addition, we show, that the findings can reference in detail the elements of the GUI that cause a usability issue. Our approach is supplemental to established usability engineering methods and can be applied with minimal effort on a large scale

Microbial community response to petroleum hydrocarbon contamination in the unsaturated zone at the experimental field site Værløse, Denmark

This study investigates the influence of petroleum hydrocarbons on a microbial community in the vadose zone under field conditions. An artificial hydrocarbon mixture consisting of volatile and semi-volatile compounds similar to jet-fuel was emplaced in a previously uncontaminated vadose zone in nutrient-poor glacial melt water sand. The experiment included monitoring of microbial parameters and CO2 concentrations in soil gas over 3 months in and outside the hydrocarbon vapor plume that formed around the buried petroleum. Microbial and chemical analyses of soil and vadose zone samples were performed on samples from cores drilled to 3.3 m depth on three dates and three lateral distances from the buried petroleum mass. Significantly elevated CO2 concentrations were observed after contamination. Total cell numbers as determined by fluorescence microscopy were strongly correlated with soil organic carbon and nitrogen content but varied little with contamination. Redundancy analysis (RDA) allowed direct analysis of effects of selected environmental variables or the artificial contamination on microbiological parameters. Variation in biomass and CO2 production was explained by soil parameters, to 46%, and by the duration of contamination, to 39.8%. The microbial community structure was assessed by community level physiological profiles (CLPP) analysis using BiologTM Eco-Plates. In the CLPP data only 35.9% of the variation could be linked to soil parameters and contamination, however, the samples with greatest exposure to hydrocarbons grouped together on RDA plots. It is concluded that, at this nutrient-poor site, the microbial community was dominated by natural heterogeneity and that the influence of petroleum hydrocarbon vapors was wea

Inter-organizational network management in an innovation context:combining ego and whole network perspective

Although there is growing interest into the research field of inter-organizational innovation networks, few attempts have been made to develop systematic methods for the active management of such networks. This is especially true for approaches combining the view of single actors and the network as a whole. In response to this gap, this research presents a new method for the management of inter-organizational networks that can help to increase innovation outcome. The introduced approach accomplishes two goals. Firstly, it provides guidance for the measurement of the current collaboration status of a network, its optimal future collaboration status and the gap between them. Secondly, it provides systematics for the development of clear network management strategies for each network actor for closing this collaboration gap. As a result, better exploitation of existing collaboration potential is expected to increase innovation output. The method builds upon work by Kohl et al. (2015) who approached network management on a whole network level providing a solution for the management of entire networks and Ojasalo (2004) who suggested a network management method taking the perspective of a single network actor on the so called ego level. The novelty value of the presented method lies in the demonstration of how these different levels of network management can be combined. The two levels of analysis are linked through reliance on the same data set. The developed method is demonstrated through a case study. The analysis builds upon a questionnaire asking network actors for an estimation of the current collaboration status and a future collaboration potential amongst them. Social network analysis software was used to calculate network measures such as the level of density and to visualize the network graphically. As a result customized strategies for improving collaboration within the investigated network are presented

Vegetation response to invasive Tamarix control in southwestern U.S. rivers: a collaborative study including 416 sites

Most studies assessing vegetation response following control of invasive Tamarix trees along southwestern U.S. rivers have been small in scale (e.g., river reach), or at a regional scale but with poor spatial-temporal replication, and most have not included testing the effects of a now widely used biological control. We monitored plant composition following Tamarix control along hydrologic, soil, and climatic gradients in 244 treated and 172 reference sites across six U.S. states. This represents the largest comprehensive assessment to date on the vegetation response to the four most common Tamarix control treatments. Biocontrol by a defoliating beetle (treatment 1) reduced the abundance of Tamarix less than active removal by mechanically using hand and chain-saws (2), heavy machinery (3) or burning (4). Tamarix abundance also decreased with lower temperatures, higher precipitation, and follow-up treatments for Tamarix resprouting. Native cover generally increased over time in active Tamarix removal sites, however, the increases observed were small and was not consistently increased by active revegetation. Overall, native cover was correlated to permanent stream flow, lower grazing pressure, lower soil salinity and temperatures, and higher precipitation. Species diversity also increased where Tamarix was removed. However, Tamarix treatments, especially those generating the highest disturbance (burning and heavy machinery), also often promoted secondary invasions of exotic forbs. The abundance of hydrophytic species was much lower in treated than in reference sites, suggesting that management of southwestern U.S. rivers has focused too much on weed control, overlooking restoration of fluvial processes that provide habitat for hydrophytic and floodplain vegetation. These results can help inform future management of Tamarix-infested rivers to restore hydrogeomorphic processes, increase native biodiversity and reduce abundance of noxious species

Advanced sequencing approaches detected insertions of viral and human origin in the viral genome of chronic hepatitis E virus patients

The awareness of hepatitis E virus (HEV) increased significantly in the last decade due to its unexpectedly high prevalence in high-income countries. There, infections with HEV-genotype 3 (HEV-3) are predominant which can progress to chronicity in immunocompromised individuals. Persistent infection and antiviral therapy can select HEV-3 variants; however, the spectrum and occurrence of HEV-3 variants is underreported. To gain in-depth insights into the viral population and to perform detailed characterization of viral genomes, we used a new approach combining long-range PCR with next-generation and third-generation sequencing which allowed near full-length sequencing of HEV-3 genomes. Furthermore, we developed a targeted ultra-deep sequencing approach to assess the dynamics of clinically relevant mutations in the RdRp-region and to detect insertions in the HVR-domain in the HEV genomes. Using this new approach, we not only identified several insertions of human (AHNAK, RPL18) and viral origin (RdRp-derived) in the HVR-region isolated from an exemplary sample but detected a variant containing two different insertions simultaneously (AHNAK- and RdRp-derived). This finding is the first HEV-variant recognized as such showing various insertions in the HVR-domain. Thus, this molecular approach will add incrementally to our current knowledge of the HEV-genome organization and pathogenesis in chronic hepatitis E.Peer Reviewe

Measurement and subtraction of Schumann resonances at gravitational-wave interferometers

Correlated magnetic noise from Schumann resonances threatens to contaminate the observation of a stochastic gravitational-wave background in interferometric detectors. In previous work, we reported on the first effort to eliminate global correlated noise from the Schumann resonances using Wiener filtering, demonstrating as much as a factor of two reduction in the coherence between magnetometers on different continents. In this work, we present results from dedicated magnetometer measurements at the Virgo and KAGRA sites, which are the first results for subtraction using data from gravitational-wave detector sites. We compare these measurements to a growing network of permanent magnetometer stations, including at the LIGO sites. We show the effect of mutual magnetometer attraction, arguing that magnetometers should be placed at least one meter from one another. In addition, for the first time, we show how dedicated measurements by magnetometers near to the interferometers can reduce coherence to a level consistent with uncorrelated noise, making a potential detection of a stochastic gravitational-wave background possible

Vegetation response to invasive Tamarix control in southwestern U.S. rivers: a collaborative study including 416 sites

Most studies assessing vegetation response following control of invasive Tamarix trees along southwestern U.S. rivers have been small in scale (e.g., river reach), or at a regional scale but with poor spatial-temporal replication, and most have not included testing the effects of a now widely used biological control. We monitored plant composition following Tamarix control along hydrologic, soil, and climatic gradients in 244 treated and 172 reference sites across six U.S. states. This represents the largest comprehensive assessment to date on the vegetation response to the four most common Tamarix control treatments. Biocontrol by a defoliating beetle (treatment 1) reduced the abundance of Tamarix less than active removal by mechanically using hand and chain-saws (2), heavy machinery (3) or burning (4). Tamarix abundance also decreased with lower temperatures, higher precipitation, and follow-up treatments for Tamarix resprouting. Native cover generally increased over time in active Tamarix removal sites, however, the increases observed were small and was not consistently increased by active revegetation. Overall, native cover was correlated to permanent stream flow, lower grazing pressure, lower soil salinity and temperatures, and higher precipitation. Species diversity also increased where Tamarix was removed. However, Tamarix treatments, especially those generating the highest disturbance (burning and heavy machinery), also often promoted secondary invasions of exotic forbs. The abundance of hydrophytic species was much lower in treated than in reference sites, suggesting that management of southwestern U.S. rivers has focused too much on weed control, overlooking restoration of fluvial processes that provide habitat for hydrophytic and floodplain vegetation. These results can help inform future management of Tamarix-infested rivers to restore hydrogeomorphic processes, increase native biodiversity and reduce abundance of noxious species

Scientific Potential of Einstein Telescope

Einstein gravitational-wave Telescope (ET) is a design study funded by the European Commission to explore the technological challenges of and scientific benefits from building a third generation gravitational wave detector. The three-year study, which concluded earlier this year, has formulated the conceptual design of an observatory that can support the implementation of new technology for the next two to three decades. The goal of this talk is to introduce the audience to the overall aims and objectives of the project and to enumerate ET's potential to influence our understanding of fundamental physics, astrophysics and cosmology.Comment: Conforms to conference proceedings, several author names correcte

Scientific Objectives of Einstein Telescope

The advanced interferometer network will herald a new era in observational astronomy. There is a very strong science case to go beyond the advanced detector network and build detectors that operate in a frequency range from 1 Hz-10 kHz, with sensitivity a factor ten better in amplitude. Such detectors will be able to probe a range of topics in nuclear physics, astronomy, cosmology and fundamental physics, providing insights into many unsolved problems in these areas.Comment: 18 pages, 4 figures, Plenary talk given at Amaldi Meeting, July 201