Mega - mobile multimodal extended games

Tese de mestrado em Engenharia Informática, apresentada à Universidade de Lisboa, através da Faculdade de Ciências, 2012As aplicações de entretenimento móvel têm hoje em dia um papel importante e significativo no mercado de software, abrangendo um grupo variado de utilizadores. Tudo isto se deve ao repentino sucesso de dispositivos de interacção inovadora, como o Wiimote da Nintendo, o Move da Sony e o Kinect da Microsoft. Por sua vez estas técnicas de interacção multimodal têm sido exploradas para jogos móveis. A recente geração de dispositivos móveis vem equipada com uma grande variedade de sensores, para além dos óbvios como ecrã táctil e microfone. Existem ainda outros componentes interessantes como bússola digital, acelerómetros, sensores ópticos. Os dispositivos móveis são também utilizados como máquina fotográfica digital, agenda pessoal, assim como para ver videos e ouvir música, e claro, para jogar jogos. Olhar para os novos grupos de utilizadores e para as novas formas de jogar e incluir nos jogos formas de interacção novas, usando os atributos e potencialidades de novas plataformas e novas tecnologias é pois um assunto pungente e deveras desafiante. Com este trabalho pretende-se estudar e propor novas dimensões de jogo e interacção com plataformas móveis, sejam smartphones, sejam tablets, que se adequem às mais distintas comunidades de jogadores. Pretende-se sobretudo explorar modalidades alternativas como as baseadas no tacto e vibração, assim como no áudio, combinadas ou não com outras mais tradicionais de foro visual. Almeja-se ainda explorar jogos em grupo, à distância e co-localizados, encontrando e estudando novas formas de expressão em jogos clássicos e jogos inovadores que envolvam pequenos conjuntos de indivíduos. A ubiquidade inerente aos dispositivos móveis faz ainda com que se tenham que encontrar neste jogos de grupo formas de fluxo de jogo que sustentem saídas e entradas rápidas ou menos rápidas sem que ainda assim se perca o interesse e a motivação de jogar. Este trabalho iniciou-se com uma pesquisa intensiva de trabalho relacionado, sobre a área de jogos móveis e suas multimodalidades, passando consequentemente pela acessibilidade inerente, jogos em grupo e suas formas de comunicação e conexão, e por último dando especial atenção a jogos de puzzle, sendo o tipo de jogo focado neste trabalho. Seguidamente, foi efectuado o levantamento de requisitos e exploradas as opções de jogo e de interacção relativas a jogos de puzzle móveis multimodais. No âmbito deste estudo foram criados três pequenos jogos sobre um conceito comum: jogos de puzzle. A primeira aplicação contém três modalidades diferentes de jogo: uma visual, apresentando um jogo de puzzle de imagens baseado nos tradicionais; uma segunda auditiva, que recria o conceito de jogo através de música, tornando as peças em pequenas parcelas sonoras da música de tamanhos equivalentes; e a terceira háptica, criando deste modo um puzzle com peças de padrões vibratórios diferentes. A segunda aplicação recriou o mesmo conceito de jogo, puzzle, no modo audio, mas retirando toda a informação visual, apresentando simples formas de interacção. A terceira aplicação apresenta uma abordagem sobre os jogos em grupo, permitindo jogar puzzles visuais e de audio em dois modos distintos: cooperativo, onde os jogadores têm de jogar em equipa de forma a conseguir completar o puzzle; e competitiva, onde os jogadores são forçados a ser mais rápidos que o adversário de modo a poderem vencer. Todas estas aplicações permitem ao utilizador definir o tamanho do puzzle e o nível de dificuldade, assim como escolher as imagens e músicas que pretendem resolver em forma de puzzle. Foram conduzidos vários testes de utilizador, nomeadamente um para cada aplicação desenvolvida. Sobre a primeira aplicação vinte e quatro participantes jogaram puzzles visuais e auditivos, distribuídos equitativamente pelas modalidades. Deste modo, cada participante resolveu nove puzzles de imagem ou nove puzzles audio distintos. Neste primeiro estudo procurou descobrir-se as estratégias de resolução dos puzzles, procurando principalmente igualdades e diferenças entre os diferentes modos. Para o segundo estudo foi usada a segunda aplicação desenvolvida, e foram abrangidos novamente vinte e quatro utilizadores, doze dos quais sendo cegos. Cada participante resolveu três puzzles audio diferentes. Relativamente a este estudo, foi proposta uma comparação entre os modos estudados anteriormente, especialmente sobre o modo audio, uma vez que foi usado o mesmo procedimento. Para os utilizadores cegos o objectivo foi provar que seria possível criar um jogo divertido, desafiante e sobretudo acessível a partir de um conceito de jogo clássico. Para o último estudo, vinte e quatro participantes, organizados em pares, jogaram puzzles visuais e de audio em modo cooperativo e competitivo. Cada conjunto de participantes resolveu quatro puzzles, um para cada modo de jogo por cada tipo de puzzle, o que significa dois puzzles visuais, um competitivo e outro cooperativo, e dois puzzles audio, sendo também um cooperativo e outro competitivo. O objectivo mais uma vez foi procurar as estratégias de resolução, permitindo também a comparação com outros modos anteriormente estudados. Todos os jogos foram transformados em dados contendo todas as acções que cada jogador tomou durante a resolução do puzzle. Esses dados foram depois transformados em números específicos de forma a poderem ser analisados e discutidos. Os valores obtidos foram divididos em três grupos principais, as tentativas de colocação de peças, o número de ajudas, e o tempo de conclusão do puzzle. Em relação às tentativas de colocação de peças é possível identificar a ordem correspondente segundo três formas distintas, pela classificação do tipo de peças, pela disposição das peças na fita e pela ordem sequencial do puzzle. Os resultados do estudo mostram que uma mesma estratégia de resolução de puzzles é usada através de todos os modos estudados, os jogadores optam por resolver primeiro as zonas mais relevantes do puzzle, deixando as partes mais abstractas e confundíveis para o final. No entanto, parente novas modalidades de jogo, pequenas percentagens de utilizadores mostraram diferentes estratégias de resolução. Através das opiniões dos utilizadores é também possível afirmar que todas as aplicações desenvolvidas são jogáveis, divertidas e desafiantes. No final foi criado um conjunto de componentes reutilizáveis e um conjunto de parâmetros para a criação de novos jogos. Numa linha de trabalho futuro foram propostos vários objectivos interessantes que podem promover e reaproveitar o trabalho desenvolvido. Deste modo foi criado um jogo de puzzle baseado na primeira aplicação desenvolvida, mantendo os modos visual e audio, de forma a poder integrar no mercado de aplicações móveis, permitindo deste modo, um estudo em larga escala sobre os mesmos conceitos estudados neste trabalho. Foi também pensada a criação de um servidor centralizado, permitindo conter os resultados de todos os jogadores de forma a criar um ranking geral, podendo deste modo incentivar os jogadores a melhorar o seu desempenho, e ajudar a promover o próprio jogo. Outra alternativa passa por melhorar e aperfeiçoar o modo háptico, de forma a criar mais uma modalidade viável sobre o mesmo conceito de jogo, de forma a poder ser também estudada de forma equivalente. O puzzle para invisuais pode também ser melhorado e aperfeiçoado de forma a criar mais desafios através da inclusão dum modo háptio. E por fim, não menos importante, criar novas dimensões de jogo em grupo, permitindo jogar os modos cooperativo e competitivo em simultâneo, tendo por exemplo duas equipas de dois jogadores cada, a cooperar entre si para completar o puzzle, e de certa forma a competir contra a outra equipa para terminar primeiro e com melhores resultados. O objectivo seria, mais uma vez, estudar as estratégias usadas.Mobile entertainment applications have an important and significant role in the software market, covering a diverse group of users. All this is due to the sudden success of innovative interaction devices such as Nintendo’s Wiimote, Sony’s Move and Kinect’s Microsoft. On the other hand, these multimodal interaction techniques have been explored for mobile games. The latest generation of mobile devices is equipped with a wide variety of sensors, in addition to the obvious such as touch screen and microphone. There are other interesting components such as digital compass, accelerometers and optical sensors. Mobile devices are also used as a digital camera, personal organizer, to watch videos and listen to music, and of course, to play games. Looking for the new users groups and for the new ways to play the games and include new forms of interaction, using the attributes and capabilities of new platforms and new technologies is an issue as poignant and very challenging. This work aims to study and propose new dimensions of play and interaction with mobile platforms, whether smartphones or tablets, which suit most distinct communities of players. It is intended primarily to explore alternative modalities such as touch-based and vibratory, as well as audio based, combined or not with traditional visual ones. It also aims at exploring group games, spatially distributed and co-located, finding and studying new forms of expression in classic games and innovative games that involve small sets of individuals. The ubiquity inherent to mobile devices leads us to find input and output flows which support rapid or less rapid entry commands, without losing the interest and motivation to play. In addition to the design and implementation of three or four small game applications intended to create a set of reusable components and a set of guidelines for creating new games

Enabling audio-haptics

This thesis deals with possible solutions to facilitate orientation, navigation and overview of non-visual interfaces and virtual environments with the help of sound in combination with force-feedback haptics. Applications with haptic force-feedback, s

Multi-Sensory Interaction for Blind and Visually Impaired People

This book conveyed the visual elements of artwork to the visually impaired through various sensory elements to open a new perspective for appreciating visual artwork. In addition, the technique of expressing a color code by integrating patterns, temperatures, scents, music, and vibrations was explored, and future research topics were presented. A holistic experience using multi-sensory interaction acquired by people with visual impairment was provided to convey the meaning and contents of the work through rich multi-sensory appreciation. A method that allows people with visual impairments to engage in artwork using a variety of senses, including touch, temperature, tactile pattern, and sound, helps them to appreciate artwork at a deeper level than can be achieved with hearing or touch alone. The development of such art appreciation aids for the visually impaired will ultimately improve their cultural enjoyment and strengthen their access to culture and the arts. The development of this new concept aids ultimately expands opportunities for the non-visually impaired as well as the visually impaired to enjoy works of art and breaks down the boundaries between the disabled and the non-disabled in the field of culture and arts through continuous efforts to enhance accessibility. In addition, the developed multi-sensory expression and delivery tool can be used as an educational tool to increase product and artwork accessibility and usability through multi-modal interaction. Training the multi-sensory experiences introduced in this book may lead to more vivid visual imageries or seeing with the mind’s eye

Making Spatial Information Accessible on Touchscreens for Users who are Blind and Visually Impaired

Touchscreens have become a de facto standard of input for mobile devices as they most optimally use the limited input and output space that is imposed by their form factor. In recent years, people who are blind and visually impaired have been increasing their usage of smartphones and touchscreens. Although basic access is available, there are still many accessibility issues left to deal with in order to bring full inclusion to this population. One of the important challenges lies in accessing and creating of spatial information on touchscreens. The work presented here provides three new techniques, using three different modalities, for accessing spatial information on touchscreens. The first system makes geometry and diagram creation accessible on a touchscreen through the use of text-to-speech and gestural input. This first study is informed by a qualitative study of how people who are blind and visually impaired currently access and create graphs and diagrams. The second system makes directions through maps accessible using multiple vibration sensors without any sound or visual output. The third system investigates the use of binaural sound on a touchscreen to make various types of applications accessible such as physics simulations, astronomy, and video games

A Support System for Graphics for Visually Impaired People

As the Internet plays an important role in today’s society, graphics is widely used to present, convey and communicate information in many different areas. Complex information is often easier to understand and analyze by graphics. Even though graphics plays an important role, accessibility support is very limited for web graphics. Web graphics accessibility is not only for people with disabilities, but also for people who want to get and use information in ways different from the ones originally intended. One of the problems regarding graphics for blind people is that we have few data on how a blind person draws or how he/she receives graphical information. Based on Katz’s pupils’ research, one concludes that blind people can draw in outline and that they have a good sense of three-dimensional shape and space. In this thesis, I propose and develop a system, which can serve as a tool to be used by researchers investigating these and related issues. Our support system is built to collect the drawings from visually impaired people by finger movement on Braille devices or touch devices, such as tablets. When the drawing data is collected, the system will automatically generate the graphical XML data, which are easily accessed by applications and web services. The graphical XML data are stored locally or remotely. Compared to other support systems, our system is the first automatic system to provide web services to collect and access such data. The system also has the capability to integrate into cloud computing so that people can use the system anywhere to collect and access the data

Touch- and Walkable Virtual Reality to Support Blind and Visually Impaired Peoples‘ Building Exploration in the Context of Orientation and Mobility

Der Zugang zu digitalen Inhalten und Informationen wird immer wichtiger für eine erfolgreiche Teilnahme an der heutigen, zunehmend digitalisierten Zivilgesellschaft. Solche Informationen werden meist visuell präsentiert, was den Zugang für blinde und sehbehinderte Menschen einschränkt. Die grundlegendste Barriere ist oft die elementare Orientierung und Mobilität (und folglich die soziale Mobilität), einschließlich der Erlangung von Kenntnissen über unbekannte Gebäude vor deren Besuch. Um solche Barrieren zu überbrücken, sollten technische Hilfsmittel entwickelt und eingesetzt werden. Es ist ein Kompromiss zwischen technologisch niedrigschwellig zugänglichen und verbreitbaren Hilfsmitteln und interaktiv-adaptiven, aber komplexen Systemen erforderlich. Die Anpassung der Technologie der virtuellen Realität (VR) umfasst ein breites Spektrum an Entwicklungs- und Entscheidungsoptionen. Die Hauptvorteile der VR-Technologie sind die erhöhte Interaktivität, die Aktualisierbarkeit und die Möglichkeit, virtuelle Räume und Modelle als Abbilder von realen Räumen zu erkunden, ohne dass reale Gefahren und die begrenzte Verfügbarkeit von sehenden Helfern auftreten. Virtuelle Objekte und Umgebungen haben jedoch keine physische Beschaffenheit. Ziel dieser Arbeit ist es daher zu erforschen, welche VR-Interaktionsformen sinnvoll sind (d.h. ein angemessenes Verbreitungspotenzial bieten), um virtuelle Repräsentationen realer Gebäude im Kontext von Orientierung und Mobilität berührbar oder begehbar zu machen. Obwohl es bereits inhaltlich und technisch disjunkte Entwicklungen und Evaluationen zur VR-Technologie gibt, fehlt es an empirischer Evidenz. Zusätzlich bietet diese Arbeit einen Überblick über die verschiedenen Interaktionen. Nach einer Betrachtung der menschlichen Physiologie, Hilfsmittel (z.B. taktile Karten) und technologischen Eigenschaften wird der aktuelle Stand der Technik von VR vorgestellt und die Anwendung für blinde und sehbehinderte Nutzer und der Weg dorthin durch die Einführung einer neuartigen Taxonomie diskutiert. Neben der Interaktion selbst werden Merkmale des Nutzers und des Geräts, der Anwendungskontext oder die nutzerzentrierte Entwicklung bzw. Evaluation als Klassifikatoren herangezogen. Begründet und motiviert werden die folgenden Kapitel durch explorative Ansätze, d.h. im Bereich 'small scale' (mit sogenannten Datenhandschuhen) und im Bereich 'large scale' (mit einer avatargesteuerten VR-Fortbewegung). Die folgenden Kapitel führen empirische Studien mit blinden und sehbehinderten Nutzern durch und geben einen formativen Einblick, wie virtuelle Objekte in Reichweite der Hände mit haptischem Feedback erfasst werden können und wie verschiedene Arten der VR-Fortbewegung zur Erkundung virtueller Umgebungen eingesetzt werden können. Daraus werden geräteunabhängige technologische Möglichkeiten und auch Herausforderungen für weitere Verbesserungen abgeleitet. Auf der Grundlage dieser Erkenntnisse kann sich die weitere Forschung auf Aspekte wie die spezifische Gestaltung interaktiver Elemente, zeitlich und räumlich kollaborative Anwendungsszenarien und die Evaluation eines gesamten Anwendungsworkflows (d.h. Scannen der realen Umgebung und virtuelle Erkundung zu Trainingszwecken sowie die Gestaltung der gesamten Anwendung in einer langfristig barrierefreien Weise) konzentrieren.Access to digital content and information is becoming increasingly important for successful participation in today's increasingly digitized civil society. Such information is mostly presented visually, which restricts access for blind and visually impaired people. The most fundamental barrier is often basic orientation and mobility (and consequently, social mobility), including gaining knowledge about unknown buildings before visiting them. To bridge such barriers, technological aids should be developed and deployed. A trade-off is needed between technologically low-threshold accessible and disseminable aids and interactive-adaptive but complex systems. The adaptation of virtual reality (VR) technology spans a wide range of development and decision options. The main benefits of VR technology are increased interactivity, updatability, and the possibility to explore virtual spaces as proxies of real ones without real-world hazards and the limited availability of sighted assistants. However, virtual objects and environments have no physicality. Therefore, this thesis aims to research which VR interaction forms are reasonable (i.e., offering a reasonable dissemination potential) to make virtual representations of real buildings touchable or walkable in the context of orientation and mobility. Although there are already content and technology disjunctive developments and evaluations on VR technology, there is a lack of empirical evidence. Additionally, this thesis provides a survey between different interactions. Having considered the human physiology, assistive media (e.g., tactile maps), and technological characteristics, the current state of the art of VR is introduced, and the application for blind and visually impaired users and the way to get there is discussed by introducing a novel taxonomy. In addition to the interaction itself, characteristics of the user and the device, the application context, or the user-centered development respectively evaluation are used as classifiers. Thus, the following chapters are justified and motivated by explorative approaches, i.e., in the group of 'small scale' (using so-called data gloves) and in the scale of 'large scale' (using an avatar-controlled VR locomotion) approaches. The following chapters conduct empirical studies with blind and visually impaired users and give formative insight into how virtual objects within hands' reach can be grasped using haptic feedback and how different kinds of VR locomotion implementation can be applied to explore virtual environments. Thus, device-independent technological possibilities and also challenges for further improvements are derived. On the basis of this knowledge, subsequent research can be focused on aspects such as the specific design of interactive elements, temporally and spatially collaborative application scenarios, and the evaluation of an entire application workflow (i.e., scanning the real environment and exploring it virtually for training purposes, as well as designing the entire application in a long-term accessible manner)

Computer Entertainment Technologies for the Visually Impaired: An Overview

Over the last years, works related to accessible technologies have increased both in number and in quality. This work presents a series of articles which explore different trends in the field of accessible video games for the blind or visually impaired. Reviewed articles are distributed in four categories covering the following subjects: (1) video game design and architecture, (2) video game adaptations, (3) accessible games as learning tools or treatments and (4) navigation and interaction in virtual environments. Current trends in accessible game design are also analysed, and data is presented regarding keyword use and thematic evolution over time. As a conclusion, a relative stagnation in the field of human-computer interaction for the blind is detected. However, as the video game industry is becoming increasingly interested in accessibility, new research opportunities are starting to appear

The Tiresias Effect: Feedforward using Light versus Temperature in a Tangible User Interface

In this paper we discuss how light and temperature information can be designed to affect feedforward in a tangible user interface (TUI). In particular we focus on temperature, which has not been widely considered as a mode of information representation in feedback or feedforward. We describe a prototype that implements both information modes in a TUI. Finally, we outline a user study in which these modes are explored as feedforward coaching devices for a decision-making task. The expected outcomes are an understanding of the role of temperature as information for feedforward in TUIs and a set of design guidelines for designers of tangibles working with these physical characteristics

A Haptic System for Depicting Mathematical Graphics for Students with Visual Impairments

When teaching students with visual impairments educators generally rely on tactile tools to depict visual mathematical topics. Tactile media, such as embossed paper and simple manipulable materials, are typically used to convey graphical information. Although these tools are easy to use and relatively inexpensive, they are solely tactile and are not modifiable. Dynamic and interactive technologies such as pin matrices and haptic pens are also commercially available, but tend to be more expensive and less intuitive. This study aims to bridge the gap between easy-to-use tactile tools and dynamic, interactive technologies in order to facilitate the haptic learning of mathematical concepts. We developed an haptic assistive device using a Tanvas electrostatic touchscreen that provides the user with multimodal (haptic, auditory, and visual) output. Three methodological steps comprise this research: 1) a systematic literature review of the state of the art in the design and testing of tactile and haptic assistive devices, 2) a user-centered system design, and 3) testing of the system’s effectiveness via a usability study. The electrostatic touchscreen exhibits promise as an assistive device for displaying visual mathematical elements via the haptic modality

Haptics Rendering and Applications

There has been significant progress in haptic technologies but the incorporation of haptics into virtual environments is still in its infancy. A wide range of the new society's human activities including communication, education, art, entertainment, commerce and science would forever change if we learned how to capture, manipulate and reproduce haptic sensory stimuli that are nearly indistinguishable from reality. For the field to move forward, many commercial and technological barriers need to be overcome. By rendering how objects feel through haptic technology, we communicate information that might reflect a desire to speak a physically- based language that has never been explored before. Due to constant improvement in haptics technology and increasing levels of research into and development of haptics-related algorithms, protocols and devices, there is a belief that haptics technology has a promising future