Designing for Mixed Reality Urban Exploration

This paper introduces a design framework for mixed reality urban exploration (MRUE), based on a concrete implementation in a historical city. The framework integrates different modalities, such as virtual reality (VR), augmented reality (AR), and haptics-audio interfaces, as well as advanced features such as personalized recommendations, social exploration, and itinerary management. It permits to address a number of concerns regarding information overload, safety, and quality of the experience, which are not sufficiently tackled in traditional non-integrated approaches. This study presents an integrated mobile platform built on top of this framework and reflects on the lessons learned.Peer reviewe

Designing for Mixed Reality Urban Exploration

This paper introduces a design framework for mixed reality urban exploration (MRUE), based on a concrete implementation in a historical city. The framework integrates different modalities, such as virtual reality (VR), augmented reality (AR), and haptics-audio interfaces, as well as advanced features such as personalized recommendations, social exploration, and itinerary management. It permits to address a number of concerns regarding information overload, safety, and quality of the experience, which are not sufficiently tackled in traditional non-integrated approaches. This study presents an integrated mobile platform built on top of this framework and reflects on the lessons learned

Exploring Hand-Based Haptic Interfaces for Mobile Interaction Design

Visual attention is crucial in mobile environments, not only for staying aware of dynamic situations, but also for safety reasons. However, current mobile interaction design forces the user to focus on the visual interface of the handheld device, thus limiting the user's ability to process visual information from their environment. In response to these issues, a common solution is to encode information with on-device vibrotactile feedback. However, the vibration is transitory and is often difficult to perceive when mobile. Another approach is to make visual interfaces even more dominant with smart glasses, which enable head-up interaction on their see-through interface. Yet, their input methods raise many concerns regarding social acceptability, preventing them from being widely adopted. There is a need to derive feasible interaction techniques for mobile use while maintaining the user's situational awareness, and this thesis argues that solutions could be derived through the exploration of hand-based haptic interfaces. The objective of this research is to provide multimodal interaction for users to better interact with information while maintaining proper attention to the environment in mobile scenarios. Three research areas were identified. The first is developing expressive haptic stimuli, in which the research investigates how static haptic stimuli could be derived. The second is designing mobile spatial interaction with the user's surroundings as content, which manifests situations in which visual attention to the environment is most needed. The last is interacting with the always-on visual interface on smart glasses, the seemingly ideal solution for mobile applications. The three areas extend along the axis of the demand of visual attention on the interface, from non-visual to always-on visual interfaces. Interactive prototypes were constructed and deployed in studies for each research area, including two shape-changing mechanisms feasible for augmenting mobile devices and a spatial-sensing haptic glove featuring mid-air hand-gestural interaction with haptic support. The findings across the three research areas highlight the immediate benefits of incorporating hand-based haptic interfaces into applications. First, shape-changing interfaces can provide static and continuous haptic stimuli for mobile communication. Secondly, enabling direct interaction with real-world landmarks through a haptic glove and leaving visual attention on the surroundings could result in a higher level of immersed experience. Lastly, the users of smart glasses can benefit from the unobtrusive hand-gestural interaction enabled by the isolated tracking technique of a haptic glove. Overall, this work calls for mobile interaction design to consider haptic stimuli beyond on-device vibration, and mobile hardware solutions beyond the handheld form factor. It also invites designers to consider how to confront the competition of cognitive resources among multiple tasks from an interaction design perspective.Visuaalisen huomiokyvyn säilyttäminen mobiililaitteita käytettäessä on tärkeää sekä ympäröivien tilanteiden havainnoimisen että käyttäjän turvallisuuden kannalta. Nykyiset mobiilikäyttöliittymäratkaisut kuitenkin vaativat käyttäjää keskittämään huomionsa mobiililaitteen ruudulle, mikä rajoittaa käyttäjän kykyä käsitellä ympäristöön liittyvää visuaalista informaatiota. Eräs paljon käytetty ratkaisu tähän ongelmaan on esittää informaatiota laitteen värinän avulla. Värinäpohjainen esitystapa on kuitenkin hetkeen sidottu ja siten ohimenevä, eikä sitä ole välttämättä helppo havaita käyttäjän liikkeellä ollessa. Toinen tapa hyödyntää ns. älylaseja visuaalisen informaation esittämiseen. Tämän tavan etuna on läpinäkyvä näyttöpinta, joka ei vaadi keskittämään katsetta erilliseen laitteeseen. Älylasien tyypilliset syötemuodot kuitenkin aiheuttavat ongelmia niiden sosiaaliselle hyväksyttävyydelle, mikä estää niiden laajempaa käyttöönottoa. Niinpä tämän tutkimuksen lähtökohtana on tarve uudenlaisten mobiilikäyttöliittymien suunnittelulle siten, että käyttäjän huomio säilyy ympäristössä. Väitöskirjatutkimuksessa esitetään, että ratkaisu voi pohjautua käsin kosketeltavaan haptiseen rajapintaan. Tutkimuksen tavoitteena on tuottaa mobiilitilanteisiin multimodaalisia käyttöliittymiä, joiden avulla käyttäjä voi vuorovaikuttaa informaation kanssa menettämättä huomiotaan ympäristöstä. Tutkimus keskittyy kolmeen tutkimuskohteeseen. Ensimmäisessä kehitetään ilmaisuvoimaisia haptisia ärsykkeitä tarkastelemalla staattisten haptisten ärsykkeiden suunnittelun mahdollisuuksia. Toinen kohde liittyy tilaan perustuvan vuorovaikutuksen suunnitteluun tilanteessa, jossa käyttäjä vuorovaikuttaa ympäristöön liittyvän informaation kanssa liikkeellä ollessaan, jolloin ympäristön visuaalinen havainnointi on tärkeää. Kolmannessa tutkimuskohteessa kehitetään uudenlainen syötemuoto älylaseille. Nämä kolme tutkimuskohdetta voidaan esittää osina jatkumoa, joka perustuu laitteen vaatiman visuaalisen huomion määrään täysin ei-visuaalisista täysin visuaalisiin käyttöliittymiin. Jokaisen tutkimuskohteen osalta kehitettiin vuorovaikutteisia prototyyppejä: kaksi muotoa muuttavaa mekanismia mobiililaitteiden täydentämiseksi uusilla palautemuodoilla sekä haptinen hansikas, joka mahdollistaa vuorovaikutuksen ilmassa suoritettavien eleiden ja haptisen palautteen avulla. Kaikkien kolmen tutkimuskohteen tulokset korostavat käsin kosketeltavien haptisten rajapintojen etuja käytännön sovelluksissa. Ensinnäkin muotoa muuttavat rajapinnat voivat tuottaa staattisia ja jatkuvia ärsykkeitä, joita voidaan hyödyntää mobiilivuorovaikutuksessa. Toiseksi haptisen hansikkaan mahdollistama suora vuorovaikutus ympäröivien maamerkkien kanssa auttaa säilyttämään visuaalisen huomion ympäristössä ja voi saada aikaan mukaansatempaavamman käyttökokemuksen. Kolmanneksi älylasien käyttäjät hyötyvät haptisen hansikkaan anturien mahdollistamasta huomaamattomasta elevuorovaikutuksesta. Tämä väitöskirja kehottaa mobiilikäyttöliittymien suunnittelijoita ottamaan huomioon muut kuin kädessä pideltävät laitemuodot sekä haptisten ärsykkeiden mahdollisuudet laajemmin kuin laitteen sisäänrakennetun värinäominaisuuden kautta. Väitöstutkimus myös pyytää suunnittelijoita ja muotoilijoita pohtimaan vuorovaikutussuunnittelun näkökulmasta, miten kohdata monisuorittamistilanteissa käyttäjän kognitiivisten resurssien välinen kilpailu

Electronic Textiles as Tangible Interface for Virtual Reality

This project investigates the development of a series of experimental, tangible, electronic textile (e-textile) interfaces to virtual reality (VR), using the approach of human-computer interaction (HCI). The e-textile interface is an unconventional controller that manipulates objects (3D visual asset) within virtual reality. This research has been framed within the context of HCI using a framework of Tangible User Interfaces (Ulmer and Ishii 2000). Through this research I explore how human touch relates to tangible objects and passive haptics. I also explore the overlap between visual experience and virtual reality by employing the theory of Haptic-Visual overlap (Fitzmaurice 1998), which deals with 3D volumetric perception of a physical object as well as the idea of Active Touch (Gibson 1962, Lederman and Klatzky 2009, Visell et al. 2016). Using the aforementioned theoretical frameworks and employing research through design methodology, I prototyped a series of explorative e-textile interfaces and virtual reality digital counterparts

An aesthetics of touch: investigating the language of design relating to form

How well can designers communicate qualities of touch? This paper presents evidence that they have some capability to do so, much of which appears to have been learned, but at present make limited use of such language. Interviews with graduate designer-makers suggest that they are aware of and value the importance of touch and materiality in their work, but lack a vocabulary to fully relate to their detailed explanations of other aspects such as their intent or selection of materials. We believe that more attention should be paid to the verbal dialogue that happens in the design process, particularly as other researchers show that even making-based learning also has a strong verbal element to it. However, verbal language alone does not appear to be adequate for a comprehensive language of touch. Graduate designers-makers’ descriptive practices combined non-verbal manipulation within verbal accounts. We thus argue that haptic vocabularies do not simply describe material qualities, but rather are situated competences that physically demonstrate the presence of haptic qualities. Such competencies are more important than groups of verbal vocabularies in isolation. Design support for developing and extending haptic competences must take this wide range of considerations into account to comprehensively improve designers’ capabilities

Toward New Ecologies of Cyberphysical Representational Forms, Scales, and Modalities

Research on tangible user interfaces commonly focuses on tangible interfaces acting alone or in comparison with screen-based multi-touch or graphical interfaces. In contrast, hybrid approaches can be seen as the norm for established mainstream interaction paradigms. This dissertation describes interfaces that support complementary information mediations, representational forms, and scales toward an ecology of systems embodying hybrid interaction modalities. I investigate systems combining tangible and multi-touch, as well as systems combining tangible and virtual reality interaction. For each of them, I describe work focusing on design and fabrication aspects, as well as work focusing on reproducibility, engagement, legibility, and perception aspects

Investigation and development of a tangible technology framework for highly complex and abstract concepts

The ubiquitous integration of computer-supported learning tools within the educational domain has led educators to continuously seek effective technological platforms for teaching and learning. Overcoming the inherent limitations of traditional educational approaches, interactive and tangible computing platforms have consequently garnered increased interest in the pursuit of embedding active learning pedagogies within curricula. However, whilst Tangible User Interface (TUI) systems have been successfully developed to edutain children in various research contexts, TUI architectures have seen limited deployment towards more advanced educational pursuits. Thus, in contrast to current domain research, this study investigates the effectiveness and suitability of adopting TUI systems for enhancing the learning experience of abstract and complex computational science and technology-based concepts within higher educational institutions (HEI)s. Based on the proposal of a contextually apt TUI architecture, the research describes the design and development of eight distinct TUI frameworks embodying innovate interactive paradigms through tabletop peripherals, graphical design factors, and active tangible manipulatives. These computationally coupled design elements are evaluated through summative and formative experimental methodologies for their ability to aid in the effective teaching and learning of diverse threshold concepts experienced in computational science. In addition, through the design and adoption of a technology acceptance model for educational technology (TAM4Edu), the suitability of TUI frameworks in HEI education is empirically evaluated across a myriad of determinants for modelling students’ behavioural intention. In light of the statistically significant results obtained in both academic knowledge gain (μ = 25.8%) and student satisfaction (μ = 12.7%), the study outlines the affordances provided through TUI design for various constituents of active learning theories and modalities. Thus, based on an empirical and pedagogical analyses, a set of design guidelines is defined within this research to direct the effective development of TUI design elements for teaching and learning abstract threshold concepts in HEI adaptations