Investigating the Usability of a Mobile App for Finding and Exploring Places and Events

In our two-step field study, we developed and evaluated mobEx, a mobile app for faceted exploration of social media data on Android phones. mobEx unifies the data sources of related commercial apps in the market by retrieving information from various providers. The goal of our study was to find out, if the subjects understood the metaphor of a time-wheel as novel user interface feature for finding and exploring places and events and how they use it. In addition, mobEx offers a grid-based navigation menu and a list-based navigation menu for exploring the data. Here, we were interested in gaining some qualitative insights about which type of navigation approach the users prefer when they can choose between them. In this paper, we present the design and a preliminary analysis of the results of our study

Designing gaze-based interaction for pervasive public displays

The last decade witnessed an increasing adoption of public interactive displays. Displays can now be seen in many public areas, such as shopping malls, and train stations. There is also a growing trend towards using large public displays especially in airports, urban areas, universities and libraries. Meanwhile, advances in eye tracking and visual computing promise straightforward integration of eye tracking on these displays for both: 1) monitoring the user's visual behavior to evaluate different aspects of the display, such as measuring the visual attention of passersby, and for 2) interaction purposes, such as allowing users to provide input, retrieve content, or transfer data using their eye movements. Gaze is particularly useful for pervasive public displays. In addition to being natural and intuitive, eye gaze can be detected from a distance, bringing interactivity to displays that are physically unreachable. Gaze reflects the user's intention and visual interests, and its subtle nature makes it well-suited for public interactions where social embarrassment and privacy concerns might hinder the experience. On the downside, eye tracking technologies have traditionally been developed for desktop settings, where a user interacts from a stationary position and for a relatively long period of time. Interaction with public displays is fundamentally different and hence poses unique challenges when employing eye tracking. First, users of public displays are dynamic; users could approach the display from different directions, and interact from different positions or even while moving. This means that gaze-enabled displays should not expect users to be stationary at a specific position, but instead adapt to users' ever-changing position in front of the display. Second, users of public displays typically interact for short durations, often for a few seconds only. This means that contrary to desktop settings, public displays cannot afford requiring users to perform time-consuming calibration prior to interaction. In this publications-based dissertation, we first report on a review of challenges of interactive public displays, and discuss the potential of gaze in addressing these challenges. We then showcase the implementation and in-depth evaluation of two applications where gaze is leveraged to address core problems in today's public displays. The first presents an eye-based solution, EyePACT, that tackles the parallax effect which is often experienced on today's touch-based public displays. We found that EyePACT significantly improves accuracy even with varying degrees of parallax. The second is a novel multimodal system, GTmoPass, that combines gaze and touch input for secure user authentication on public displays. GTmoPass was found to be highly resilient to shoulder surfing, thermal attacks and smudge attacks, thereby offering a secure solution to an important problem on public displays. The second part of the dissertation explores specific challenges of gaze-based interaction with public displays. First, we address the user positioning problem by means of active eye tracking. More specifically, we built a novel prototype, EyeScout, that dynamically moves the eye tracker based on the user's position without augmenting the user. This, in turn, allowed us to study and understand gaze-based interaction with public displays while walking, and when approaching the display from different positions. An evaluation revealed that EyeScout is well perceived by users, and improves the time needed to initiate gaze interaction by 62% compared to state-of-the-art. Second, we propose a system, Read2Calibrate, for calibrating eye trackers implicitly while users read text on displays. We found that although text-based calibration is less accurate than traditional methods, it integrates smoothly while reading and thereby more suitable for public displays. Finally, through our prototype system, EyeVote, we show how to allow users to select textual options on public displays via gaze without calibration. In a field deployment of EyeVote, we studied the trade-off between accuracy and selection speed when using calibration-free selection techniques. We found that users of public displays value faster interactions over accurate ones, and are willing to correct system errors in case of inaccuracies. We conclude by discussing the implications of our findings on the design of gaze-based interaction for public displays, and how our work can be adapted for other domains apart from public displays, such as on handheld mobile devices.In den letzten zehn Jahren wurden vermehrt interaktive Displays in öffentlichen Bereichen wie Einkaufszentren, Flughäfen und Bahnhöfen eingesetzt. Große öffentliche Displays finden sich zunehmend in städtischen Gebieten, beispielsweise in Universitäten und Bibliotheken. Fortschritte in der Eye-Tracking-Technologie und der Bildverarbeitung versprechen eine einfache Integration von Eye-Tracking auf diesen Displays. So kann zum einen das visuelle Verhalten der Benutzer verfolgt und damit ein Display nach verschiedenen Aspekten evaluiert werden. Zum anderen eröffnet Eye-Tracking auf öffentlichen Displays neue Interaktionsmöglichkeiten. Blickbasierte Interaktion ist besonders nützlich für Bildschirme im allgegenwärtigen öffentlichen Raum. Der Blick bietet mehr als eine natürliche und intuitive Interaktionsmethode: Blicke können aus der Ferne erkannt und somit für Interaktion mit sonst unerreichbaren Displays genutzt werden. Aus der Interaktion mit dem Blick (Gaze) lassen sich Absichten und visuelle Interessen der Benutzer ableiten. Dadurch eignet es sich besonders für den öffentlichen Raum, wo Nutzer möglicherweise Datenschutzbedenken haben könnten oder sich bei herkömmlichen Methoden gehemmt fühlen würden in der Öffentlichkeit mit den Displays zu interagieren. Dadurch wird ein uneingeschränktes Nutzererlebnis ermöglicht. Eye-Tracking-Technologien sind jedoch in erster Linie für Desktop-Szenarien entwickelt worden, bei denen ein Benutzer für eine relativ lange Zeitspanne in einer stationären Position mit dem System interagiert. Die Interaktion mit öffentlichen Displays ist jedoch grundlegend anders. Daher gilt es völlig neuartige Herausforderungen zu bewältigen, wenn Eye-Tracking eingesetzt wird. Da sich Nutzer von öffentlichen Displays bewegen, können sie sich dem Display aus verschiedenen Richtungen nähern und sogar währenddessen mit dem Display interagieren. Folglich sollten "Gaze-enabled Displays" nicht davon ausgehen, dass Nutzer sich stets an einer bestimmten Position befinden, sondern sollten sich an die ständig wechselnde Position des Nutzers anpassen können. Zum anderen interagieren Nutzer von öffentlichen Displays üblicherweise nur für eine kurze Zeitspannen von ein paar Sekunden. Eine zeitaufwändige Kalibrierung durch den Nutzer vor der eigentlichen Interaktion ist hier im Gegensatz zu Desktop-Szenarien also nicht adäquat. Diese kumulative Dissertation überprüft zunächst die Herausforderungen interaktiver öffentlicher Displays und diskutiert das Potenzial von blickbasierter Interaktion zu deren Bewältigung. Anschließend wird die Implementierung und eingehende Evaluierung von zwei beispielhaften Anwendungen vorgestellt, bei denen Nutzer durch den Blick mit öffentlichen Displays interagieren. Daraus ergeben sich weitere greifbare Vorteile der blickbasierten Interaktion für öffentliche Display-Kontexte. Bei der ersten Anwendung, EyePACT, steht der Parallaxeneffekt im Fokus, der heutzutage häufig ein Problem auf öffentlichen Displays darstellt, die über Berührung (Touch) gesteuert werden. Die zweite Anwendung ist ein neuartiges multimodales System, GTmoPass, das Gaze- und Touch-Eingabe zur sicheren Benutzerauthentifizierung auf öffentlichen Displays kombiniert. GTmoPass ist sehr widerstandsfähig sowohl gegenüber unerwünschten fremden Blicken als auch gegenüber sogenannten thermischen Angriffen und Schmierangriffen. Es bietet damit eine sichere Lösung für ein wichtiges Sicherheits- und Datenschutzproblem auf öffentlichen Displays. Der zweite Teil der Dissertation befasst sich mit spezifischen Herausforderungen der Gaze-Interaktion mit öffentlichen Displays. Zuerst wird der Aspekt der Benutzerpositionierung durch aktives Eye-Tracking adressiert. Der neuartige Prototyp EyeScout bewegt den Eye-Tracker passend zur Position des Nutzers, ohne dass dieser dafür mit weiteren Geräten oder Sensoren ausgestattet werden muss. Dies ermöglicht blickbasierte Interaktion mit öffentlichen Displays auch in jenen Situationen zu untersuchen und zu verstehen, in denen Nutzer in Bewegung sind und sich dem Display von verschiedenen Positionen aus nähern. Zweitens wird das System Read2Calibrate präsentiert, das Eye-Tracker implizit kalibriert, während Nutzer Texte auf Displays lesen. Der Prototyp EyeVote zeigt, wie man die Auswahl von Textantworten auf öffentlichen Displays per Blick ohne Kalibrierung ermöglichen kann. In einer Feldstudie mit EyeVote wird der Kompromiss zwischen Genauigkeit und Auswahlgeschwindigkeit unter der Verwendung kalibrierungsfreier Auswahltechniken untersucht. Die Implikationen der Ergebnisse für das Design von blickbasierter Interaktion öffentlicher Displays werden diskutiert. Abschließend wird erörtert wie die verwendete Methodik auf andere Bereiche, z.B. auf mobilie Geräte, angewendet werden kann

The usability of knowledge based authentication methods on mobile devices

Mobile devices are providing ever increasing functionality to users, and the risks associated with applications storing personal details are high. Graphical authentication methods have been shown to provide better security in terms of password space than traditional approaches, as well as being more memorable. The usability of any system is important since an unusable system will often be avoided. This thesis aims to investigate graphical authentication methods based on recall, cued recall and recognition memory in terms of their usability and security

CyberParks: The interface between people, places and technology

This open access book is about public open spaces, about people, and about the relationship between them and the role of technology in this relationship. It is about different approaches, methods, empirical studies, and concerns about a phenomenon that is increasingly being in the centre of sciences and strategies – the penetration of digital technologies in the urban space. As the main outcome of the CyberParks Project, this book aims at fostering the understanding about the current and future interactions of the nexus people, public spaces and technology. It addresses a wide range of challenges and multidisciplinary perspectives on emerging phenomena related to the penetration of technology in people’s lifestyles - affecting therefore the whole society, and with this, the production and use of public spaces. Cyberparks coined the term cyberpark to describe the mediated public space, that emerging type of urban spaces where nature and cybertechnologies blend together to generate hybrid experiences and enhance quality of life

Model konsep reka bentuk antaramuka koswer berbantu mahasiswa Tunakerna

The era of global education today is in need of educational media, especially those involving people with disabilities, as an effective media can have an impact on the quality of education for this group. However, in previous studies revealed that the medium of learning for this group is very limited and more focused on conventional learning because the lack of learning technology support has made it difficult for the learning process. The main purpose of this study is to propose a conceptual design model of assistive courseware interface for hearing impaired undergraduates.The development of student learning that has a hearing problem known as „tunakerna‟ according to the Fourth Edition Kamus Dewan Bahasa dan Pustaka (2008). The theoretical framework of scientific research design was chosen as the methodology used in this study. Expert validation approach has been implemented on Conceptual Design Model of Assistive Courseware Interface for Hearing Impaired Undergraduates (KOSMAT) model is designed with seven reserve components of a generic component structure, multimedia design elements, multiple intelligences for visual, interpersonal and intrapersonal, a model of instructional design, learning theory, object-oriented learning styles, and development process. Prototype courseware was developed by applying the applicability of KOSMAT model that aims to test the usability of the target users among hearing impaired undergraduates. The study found that usability testing showed a satisfactory performance for the three dimensions of ease of use, ease of learn and content. KOSMAT model is the improved results of the expert validation through consultation with experts. Hence, it should serve as a guideline or a reference to develop a learning courseware to hearing impaired undergraduates especially in special education

Automation and Robotics: Latest Achievements, Challenges and Prospects

This SI presents the latest achievements, challenges and prospects for drives, actuators, sensors, controls and robot navigation with reverse validation and applications in the field of industrial automation and robotics. Automation, supported by robotics, can effectively speed up and improve production. The industrialization of complex mechatronic components, especially robots, requires a large number of special processes already in the pre-production stage provided by modelling and simulation. This area of research from the very beginning includes drives, process technology, actuators, sensors, control systems and all connections in mechatronic systems. Automation and robotics form broad-spectrum areas of research, which are tightly interconnected. To reduce costs in the pre-production stage and to reduce production preparation time, it is necessary to solve complex tasks in the form of simulation with the use of standard software products and new technologies that allow, for example, machine vision and other imaging tools to examine new physical contexts, dependencies and connections