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The combination of globalization and digitalization emphasizes the importance of media-related and intercultural competencies of teacher educators and preservice teachers. This article reports on the initial prototypical implementation of a pedagogical concept to foster such competencies of preservice teachers. The proposed pedagogical concept utilizes a social virtual reality (VR) framework since related work on the characteristics of VR has indicated that this medium is particularly well suited for intercultural professional development processes. The development is integrated into a larger design-based research approach that develops a theory-guided and empirically grounded professional development concept for teacher educators with a special focus on teacher educator technology competencies (TETC8). TETCs provide a suitable competence framework capable of aligning requirements for both media-related and intercultural competencies. In an exploratory study with student teachers, we designed, implemented, and evaluated a pedagogical concept. Reflection reports were qualitatively analyzed to gain insights into factors that facilitate or hinder the implementation of the immersive learning scenario as well as into the participants’ evaluation of their learning experience. The results show that our proposed pedagogical concept is particularly suitable for promoting the experience of social presence, agency, and empathy in the group.
Uplink vs. Downlink: Machine Learning-Based Quality Prediction for HTTP Adaptive Video Streaming
(2021)
Streaming video is responsible for the bulk of Internet traffic these days. For this reason, Internet providers and network operators try to make predictions and assessments about the streaming quality for an end user. Current monitoring solutions are based on a variety of different machine learning approaches. The challenge for providers and operators nowadays is that existing approaches require large amounts of data. In this work, the most relevant quality of experience metrics, i.e., the initial playback delay, the video streaming quality, video quality changes, and video rebuffering events, are examined using a voluminous data set of more than 13,000 YouTube video streaming runs that were collected with the native YouTube mobile app. Three Machine Learning models are developed and compared to estimate playback behavior based on uplink request information. The main focus has been on developing a lightweight approach using as few features and as little data as possible, while maintaining state-of-the-art performance.
In this paper, we bridge the gap between procedural content generation (PCG) and user-generated content (UGC) by proposing and demonstrating an interactive agent-based model of self-assembling ensembles that can be directed though user input. We motivate these efforts by considering the opportunities technology provides to pursue game designs based on according game design frameworks. We present three different use cases of the proposed model that emphasize its potential to (1) self-assemble into predefined 3D graphical assets, (2) define new structures in the context of virtual environments by self-assembling layers on the surfaces of arbitrary 3D objects, and (3) allow novel structures to self-assemble only considering the model’s configuration and no external dependencies. To address the performance restrictions in computer games, we realized the prototypical model implementation by means of an efficient entity component system (ECS). We conclude the paper with an outlook on future steps to further explore novel interactive, dynamic PCG mechanics and to ensure their efficiency.
Measurements of physiological parameters provide an objective, often non-intrusive, and (at least semi-)automatic evaluation and utilization of user behavior. In addition, specific hardware devices of Virtual Reality (VR) often ship with built-in sensors, i.e. eye-tracking and movements sensors. Hence, the combination of physiological measurements and VR applications seems promising. Several approaches have investigated the applicability and benefits of this combination for various fields of applications. However, the range of possible application fields, coupled with potentially useful and beneficial physiological parameters, types of sensor, target variables and factors, and analysis approaches and techniques is manifold. This article provides a systematic overview and an extensive state-of-the-art review of the usage of physiological measurements in VR. We identified 1,119 works that make use of physiological measurements in VR. Within these, we identified 32 approaches that focus on the classification of characteristics of experience, common in VR applications. The first part of this review categorizes the 1,119 works by field of application, i.e. therapy, training, entertainment, and communication and interaction, as well as by the specific target factors and variables measured by the physiological parameters. An additional category summarizes general VR approaches applicable to all specific fields of application since they target typical VR qualities. In the second part of this review, we analyze the target factors and variables regarding the respective methods used for an automatic analysis and, potentially, classification. For example, we highlight which measurement setups have been proven to be sensitive enough to distinguish different levels of arousal, valence, anxiety, stress, or cognitive workload in the virtual realm. This work may prove useful for all researchers wanting to use physiological data in VR and who want to have a good overview of prior approaches taken, their benefits and potential drawbacks.
Having a mixed-cultural membership becomes increasingly common in our modern society. It is thus beneficial in several ways to create Intelligent Virtual Agents (IVAs) that reflect a mixed-cultural background as well, e.g., for educational settings. For research with such IVAs, it is essential that they are classified as non-native by members of a target culture. In this paper, we focus on variations of IVAs’ speech to create the impression of non-native speakers that are identified as such by speakers of two different mother tongues. In particular, we investigate grammatical mistakes and identify thresholds beyond which the agents is clearly categorised as a non-native speaker. Therefore, we conducted two experiments: one for native speakers of German, and one for native speakers of English. Results of the German study indicate that beyond 10% of word order mistakes and 25% of infinitive mistakes German-speaking IVAs are perceived as non-native speakers. Results of the English study indicate that beyond 50% of omission mistakes and 50% of infinitive mistakes English-speaking IVAs are perceived as non-native speakers. We believe these thresholds constitute helpful guidelines for computational approaches of non-native speaker generation, simplifying research with IVAs in mixed-cultural settings.
Crowdsourced network measurements (CNMs) are becoming increasingly popular as they assess the performance of a mobile network from the end user's perspective on a large scale. Here, network measurements are performed directly on the end-users' devices, thus taking advantage of the real-world conditions end-users encounter. However, this type of uncontrolled measurement raises questions about its validity and reliability. The problem lies in the nature of this type of data collection. In CNMs, mobile network subscribers are involved to a large extent in the measurement process, and collect data themselves for the operator. The collection of data on user devices in arbitrary locations and at uncontrolled times requires means to ensure validity and reliability. To address this issue, our paper defines concepts and guidelines for analyzing the precision of CNMs; specifically, the number of measurements required to make valid statements. In addition to the formal definition of the aspect, we illustrate the problem and use an extensive sample data set to show possible assessment approaches. This data set consists of more than 20.4 million crowdsourced mobile measurements from across France, measured by a commercial data provider.
The presence of a partner can attenuate physiological fear responses, a phenomenon known as social buffering. However, not all individuals are equally sociable. Here we investigated whether social buffering of fear is shaped by sensitivity to social anxiety (social concern) and whether these effects are different in females and males. We collected skin conductance responses (SCRs) and affect ratings of female and male participants when they experienced aversive and neutral sounds alone (alone treatment) or in the presence of an unknown person of the same gender (social treatment). Individual differences in social concern were assessed based on a well-established questionnaire. Our results showed that social concern had a stronger effect on social buffering in females than in males. The lower females scored on social concern, the stronger the SCRs reduction in the social compared to the alone treatment. The effect of social concern on social buffering of fear in females disappeared if participants were paired with a virtual agent instead of a real person. Together, these results showed that social buffering of human fear is shaped by gender and social concern. In females, the presence of virtual agents can buffer fear, irrespective of individual differences in social concern. These findings specify factors that shape the social modulation of human fear, and thus might be relevant for the treatment of anxiety disorders.
Mindfulness is considered an important factor of an individual's subjective well-being. Consequently, Human-Computer Interaction (HCI) has investigated approaches that strengthen mindfulness, i.e., by inventing multimedia technologies to support mindfulness meditation. These approaches often use smartphones, tablets, or consumer-grade desktop systems to allow everyday usage in users' private lives or in the scope of organized therapies. Virtual, Augmented, and Mixed Reality (VR, AR, MR; in short: XR) significantly extend the design space for such approaches. XR covers a wide range of potential sensory stimulation, perceptive and cognitive manipulations, content presentation, interaction, and agency. These facilities are linked to typical XR-specific perceptions that are conceptually closely related to mindfulness research, such as (virtual) presence and (virtual) embodiment. However, a successful exploitation of XR that strengthens mindfulness requires a systematic analysis of the potential interrelation and influencing mechanisms between XR technology, its properties, factors, and phenomena and existing models and theories of the construct of mindfulness. This article reports such a systematic analysis of XR-related research from HCI and life sciences to determine the extent to which existing research frameworks on HCI and mindfulness can be applied to XR technologies, the potential of XR technologies to support mindfulness, and open research gaps. Fifty papers of ACM Digital Library and National Institutes of Health's National Library of Medicine (PubMed) with and without empirical efficacy evaluation were included in our analysis. The results reveal that at the current time, empirical research on XR-based mindfulness support mainly focuses on therapy and therapeutic outcomes. Furthermore, most of the currently investigated XR-supported mindfulness interactions are limited to vocally guided meditations within nature-inspired virtual environments. While an analysis of empirical research on those systems did not reveal differences in mindfulness compared to non-mediated mindfulness practices, various design proposals illustrate that XR has the potential to provide interactive and body-based innovations for mindfulness practice. We propose a structured approach for future work to specify and further explore the potential of XR as mindfulness-support. The resulting framework provides design guidelines for XR-based mindfulness support based on the elements and psychological mechanisms of XR interactions.
E-Mails, Online Banking und Videokonferenzen sind aus unserem heutigen Alltag nicht mehr wegzudenken. Bei all diesen Aktivitäten werden zahlreiche personenbezogene Informationen und vertrauenswürdige Daten digital übertragen und gespeichert. Zur Sicherstellung der digitalen Daten vor unbefugten Zugriffen und Manipulationen existieren verschiedenste Konzepte, Methoden und Verfahren, die sich unter dem Begriff IT-Sicherheit zusammenfassen lassen. Klassische Sicherheitslösungen aus dem Bereich IT-Sicherheit sind Firewalls und Virenscanner. Derartige Ansätze sind meist regelbasiert und prüfen Dateien beziehungsweise eingehenden Netzwerkverkehr anhand einer Liste bekannter Angriffssignaturen. Folglich können diese Systeme nur bereits bekannte Angriffsszenarien detektieren und bieten keinen Schutz vor neuartigen Angriffen. Somit entsteht im Bereich IT-Sicherheit ein Wettlauf zwischen Hackern und IT-Sicherheitsexperten, bei dem die Hacker stets nach neuen Mitteln und Wegen suchen, die existierenden Sicherheitslösungen zu überwinden, während IT-Sicherheitsexperten stetig ihre Schutzmechanismen verbessern.
Die vorliegende Arbeit widmet sich der Detektion von Angriffsszenarien in Unternehmensnetzwerken mithilfe von Data Mining-Methoden. Diese Methoden sind in der Lage anhand von repräsentativen Daten die darin enthaltenen Strukturen zu erlernen und zu generalisieren. Folglich können sich Data Mining-Methoden grundsätzlich zur Detektion neuer Angriffsszenarien eignen, wenn diese Angriffsszenarien Überschneidungen mit bekannten Angriffsszenarien aufweisen oder sich wesentlich vom bekannten Normalverhalten unterscheiden. In dieser Arbeit werden netzwerkbasierte Daten im NetFlow Format analysiert, da diese einen aggregierten Überblick über das Geschehen im Netzwerk bieten. Häufig können Netzwerkdaten aufgrund datenschutzrechtlicher Bedenken nicht veröffentlicht werden, was für die Erzeugung synthetischer, aber realistischer Netzwerkdaten spricht. Des Weiteren führt die Beschaffenheit der Netzwerkdaten dazu, dass eine Kombination von kontinuierlichen und kategorischen Attributen analysiert werden muss, was vor allem das Vergleichen der Daten bezüglich ihrer Ähnlichkeit erschwert.
Diese Arbeit liefert methodische Beiträge zu jeder der drei genannten Herausforderungen. Im Bereich der Abstandsberechnung kategorischer Werte werden mit ConDist und IP2Vec zwei unterschiedliche Ansätze entwickelt. ConDist ist ein universell einsetzbares Abstandsmaß zur Berechnung von Abständen zwischen Datenpunkten, die aus kontinuierlichen und kategorischen Attributen bestehen. IP2Vec ist auf Netzwerkdaten spezialisiert und transformiert kategorische Werte in kontinuierliche Vektoren.
Im Bereich der Generierung realistischer Netzwerkdaten werden neben einer ausführlichen Literaturrecherche zwei unterschiedliche Ansätze vorgestellt. Zunächst wird ein auf Simulation basierter Ansatz zur Generierung flowbasierter Datensätze entwickelt. Dieser Ansatz basiert auf einer Testumgebung und simuliert typische Benutzeraktivitäten durch automatisierte Python Skripte. Parallel hierzu wird ein zweiter Ansatz zur synthetischen Generierung flowbasierter Netzwerkdaten durch Modellierung mithilfe von Generative Adversarial Networks entwickelt. Dieser Ansatz erlernt die zugrundeliegenden Eigenschaften der Netzwerkdaten und ist anschließend in der Lage, neue Netzwerkdaten mit gleichen Eigenschaften zu generieren.Während sich der erste Ansatz zur Erstellung neuer Datensätze eignet, kann der zweite Ansatz zur Anreicherung existierender Datensätze genutzt werden.
Schließlich liefert diese Arbeit noch zwei Beiträge zur Detektion von Angriffsszenarien. Im ersten Beitrag wird ein Konzept zur Detektion von Angriffsszenarien entwickelt, welches sich an die typischen Phasen eines Angriffsszenarios orientiert. Im zweiten Beitrag werden eine überwachte und eine unüberwachte Methode zur Detektion von langsamen Port Scans vorgestellt.
The recently published ITU-T Recommendation G1.032 proposes a list of factors that may influence cloud and online gaming Quality of Experience (QoE). This paper provides two practical evaluations of proposed system and context influence factors: First, it investigates through an online survey (n=488) the popularity of platforms, preferred ways of distribution, and motivational aspects including subjective valuations of characteristics offered by today's prevalent gaming platforms. Second, the paper evaluates a large dataset of objective metrics for various gaming platforms: game lists, playthrough lengths, prices, etc., and contrasts these metrics against the gamers' opinions. The combined data-driven approach presented in this paper complements in-person and lab studies usually employed.