We are in the midst of an explosion of emerging humancomputer interaction techniques that redefine our understanding of both computers and interaction. We propose the notion of Reality-Based Interaction (RBI) as a unifying concept that ties together a large subset of these emerging interaction styles. Based on this concept of RBI, we provide a framework that can be used to understand, compare, and relate current paths of recent HCI research as well as to analyze specific interaction designs. We believe that viewing interaction through the lens of RBI provides insights for design and uncovers
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TEAM MEMBERS:
Robert J.K. JacobAudrey GirouardLeanne M. HirshfieldMichael S. HornOrit ShaerErin Treacy SoloveyJamie Zigelbaum
This paper demonstrates a pressure-sensitive depth sorting technique that extends standard two-dimensional (2D) manipulation techniques, particularly those used with multitouch or multi-point controls. Then analyzes the combination of this layering operation with a page-folding metaphor for more fluid interaction in applications requiring 2D sorting and layout.
In this paper, we propose Objects, Containers, Gestures, and Manipulations (OCGM, pronounced like Occam’s Razor) as universal foundational metaphors of Natural User Interfaces. We compare OCGM to existing paradigms using SRK behavior classification and early childhood cognitive development, and justify the “universal” and “foundational” descriptors based upon cognitive linguistics and universal grammar. If adopted, OCGM would significantly improve the conceptual understanding of NUIs by developers and designers and ultimately result in better NUI applications.
We introduce our view of the relation between symbolic gestures and manipulations in multi-touch Natural User Interfaces (NUI). We identify manipulations not gestures as the key to truly natural interfaces. Therefore we suggest that future NUI research should be more focused on designing visual workspaces and model-world interfaces that are especially appropriate for multi-touch manipulations.
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TEAM MEMBERS:
Hans-Christian JetterJens GerkenHarald Reiterer
Though many tabletop applications allow users to interact with the application using complex multi-touch gestures, automated tool support for testing such gestures is limited. As a result, gesture-based interactions with an application are often tested manually, which is an expensive and error prone process. In this paper, we present TouchToolkit, a tool designed to help developers automate their testing of gestures by incorporating recorded gestures into unit tests. The design of TouchToolkit was informed by a small interview study conducted to explore the challenges software developers face
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TEAM MEMBERS:
Shahedul Huq KhandkarS. M. SohanJonathan SillitoFrank Maurer
Proton is a novel framework that addresses both of these problems. Using Proton, the application developer declaratively specifies each gesture as a regular expression over a stream of touch events. Proton statically analyzes the set of gestures to report conflicts, and it automatically creates gesture recognizers for the entire set. To simplify the creation of complex multitouch gestures, Proton introduces gesture tablature, a graphical notation that concisely describes the sequencing of multiple interleaved touch actions over time.
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TEAM MEMBERS:
Jim SpadacciniKenrick KinBjörn HartmannTony DeRoseManeesh Agrawala
This article introduces a new interaction model called Instrumental Interaction that extends and generalizes the principles of direct manipulation. It covers existing interaction styles, including traditional WIMP interfaces, as well as new interaction styles such as two-handed input and augmented reality. It defines a design space for new interaction techniques and a set of properties for comparing them.
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TEAM MEMBERS:
Michael Beaudouin-Lafon
resourceresearchProfessional Development, Conferences, and Networks
For document visualization, folding techniques provide a focus-plus-context approach with fairly high legibility on flat sections. To enable richer interaction, we explore the design space of multi-touch document folding. We discuss several design considerations for simple modeless gesturing and compatibility with standard Drag and Pinch gestures. We categorize gesture models along the characteristics of Symmetric/Asymmetric and Serial/Parallel, which yields three gesture models. We built a prototype document workspace application that integrates folding and standard gestures, and a system for
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TEAM MEMBERS:
Patrick ChiuChunyuan LiaoFrancine Chen
Delimiters are great for using gestures to overide application or OS commands. This paper investigates whether the DoubleFlip gesture is easy learn and practical to use as an effective delimter.
Many tasks in graphical user interfaces require users to interact with elements at various levels of precision. We present FingerGlass, a bimanual technique designed to improve the precision of graphical tasks on multitouch screens. It enables users to quickly navigate to different locations and across multiple scales of a scene using a single hand. The other hand can simultaneously interact with objects in the scene. Unlike traditional pan-zoom interfaces, FingerGlass retains contextual information during the interaction. We evaluated our technique in the context of precise object selection
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TEAM MEMBERS:
Dominik K¨aserManeesh AgrawalaMark Pauly
Modern smartphones contain sophisticated sensors to monitor three-dimensional movement of the device. These sensors permit devices to recognize motion gestures— deliberate movements of the device by end-users to invoke commands. However, little is known about best-practices in motion gesture design for the mobile computing paradigm. To address this issue, we present the results of a guessability study that elicits end-user motion gestures to invoke commands on a smartphone device. We demonstrate that consensus exists among our participants on parameters of movement and on mappings of motion
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TEAM MEMBERS:
Jim SpadacciniJaime RuizYang LiEdward Lank
WNET is producing "The Human Spark," a multimedia project that includes a four-part television series (4 x 60 min) for national primetime broadcast on PBS, innovative outreach partnerships with museums, an extensive Web site and outreach activities, including a Spanish-language version and companion book. Hosted by Alan Alda, "The Human Spark" will explore the intriguing questions: What makes us human? Can the human spark be found in the differences between us and our closest genetic relative -- the great apes? Is there some place or process unique to the human brain where the human spark resides? And if we can identify it, could we transfer it to machines? The programs will explore these questions through presenting cutting-edge research in a number of scientific disciplines including evolution, genetics, cognitive neuroscience, behavioral science, anthropology, linguistics, AI, robotics and computing. The series will highlight opposing views within each field, and the interdisciplinary nature of science, including its intersection with the humanities. The series will develop a new innovative format, the "muse concept", which involves pairing the host with a different scientific expert throughout each program. The outreach plan is being developed with a consortium of four leading science museums, American Museum of Natural History in New York, Museum of Science in Boston, The Exploratorium in San Francisco, and the Fort Worth Museum of Science and History, paired with their respective local public television stations. An additional six museums and local broadcasters will be chosen through an RFP process to develop local initiatives around the series. Multimedia Research and Leflein Associates will conduct formative as well as summative evaluations of the series and web.
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TEAM MEMBERS:
William GrantJared LipworthGraham CheddBarbara Flagg