Touch-sensitive devices are becoming more and more common. Many people use touch interaction, especially on handheld devices like iPhones or other mobile phones. But the question is, do people really understand the different gestures, i.e., do they know which gesture is the correct one for the intended action and do they know how to transfer the gestures to bigger devices and surfaces? This paper reports the results of usability tests which were carried out in semi public space to explore peoples’ ability to find gestures to navigate on a virtual globe. The globe is presented on a multi-touch
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Jim SpadacciniMarkus JokischThomas BartoschekAngela Schwering
Launched in 2010, the NMC Horizon Report: Museum Edition expanded the NMC Horizon Report series to provide insight on the entrance of new tools and applications in the museum sector. The Museum Edition examines emerging technologies for their potential impact on and use in education and interpretation within the museum environment. This edition is made possible by the generous support of the Edward and Betty Marcus Foundation and the Marcus Institure for Digital Education in the Arts.
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The New Media ConsortiumJohnson, L.Witchey, H.Smith, R.Levine, A.Haywood, K.
The project includes a simulation based Family Learning Program to be administered through the International Challenger Learning Center (CLC) network. The goal is to develop families' skills in learning as a team through science, math and technology (SMT) in an environment where parents and children are co-travelers in a world of ideas. PACCT is disseminated through ten of the Challenger Learning Centers reaching 22,000 families nationwide. Many of these activities are completed in the home at no cost to the anticipated 12,500 participating families. Through this network of centers, all types of communities are served in many states. The activities include Sim-U-Voyages, where family teams work at home; Sim-U-Challenges, where families create a physical model responding to a challenge; Sim-U-Visits, where families hear from scientists and work as scientists in a team solving a problem; and Sim-U-Ventures, which result in flying a mission. Cost sharing is 8%.
In this Communicating Research to Public Audiences project, the University of Colorado at Boulder -- in partnership with the University of Colorado Museum of Natural History, the City of Boulder Open Space and Mountain Parks, and the CU-Boulder Office of Diversity, Equity and Community Engagement -- is building on the work they have done via their NSF research award, A Meta-Design Framework for Participative Software Systems, in which they have been developing participative software systems (PPS) and applications of the framework. Community of Soundscapes will employ newly developed mobile computing and collaborative mapping technology in programs that help users gain greater insights and stake into the shared environment in which they live and visit. Sound Camera, a digital recording device outfitted with GPS mapping software, allows users to collect audio clips of their sonic experiences as they explore their cities, parks and other environments and upload them online onto a digital map through a Web 2.0 application. They can then compose, annotate, and share soundscapes of the places where the sounds were recorded. A Web site will be developed to expand the project's reach to audiences not in the Boulder programs. Professional development training will be provided for collaborators and through the Colorado Alliance for Environmental Education. The educational goals are to promote literacy of PSS and engage the public in personally meaningful activities that benefit environmental education (cognitive goal) and expand environmental awareness (affective goal). The project work and its evaluation processes (by Wells Resources, Inc.) are intended to advance the field of informal science education with respect to PSS and to study how these new technologies might affect shifts in the kinds of experiences various audiences prefer to have.
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TEAM MEMBERS:
Gerhard FischerElisa GiaccardiGerhard Fischer
Maine is a rural state with unequal access to computers and information technology. To remedy this, the Maine laptop program supplies iBooks to every seventh and eighth grade student in the state. The goal of EcoScienceWorks is to build on this program and develop, test and disseminate a middle school curriculum featuring computer modeling, simple programming and analysis of GIS data coupled with hands-on field experiences in ecology. The project will develop software, EcoBeaker: Maine Explorer, to stimulate student exploration of information technology by introducing teachers and students to simple computer modeling, applications of simulations in teaching and in science, and GIS data manipulation. This is a three-year, comprehensive project for 25 seventh and eighth grade teachers and their students. Teachers will receive 120 contact hours per year through workshops, summer sessions and classroom visits from environmental scientists. The teachers' classes will field test the EcoScienceWorks curriculum each year. The field tested project will be distributed throughout the Maine laptop program impacting 150 science teachers and 17,000 middle school students. EcoScienceWorks will provide middle school students with an understanding of how IT skills and tools can be used to identify, investigate and model possible solutions to scientific problems. EcoScienceWorks aligns with state and national science learning standards and integrates into the existing middle school ecology curriculum. An outcome of this project will be the spread of a field tested IT curriculum and EcoBeaker: Maine Explorer throughout Maine, with adapted curriculum and software available nationally.
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TEAM MEMBERS:
Walter AllanEric KlopferEleanor Steinberg
This planning effort, a collaboration of teams at the University of Maryland, Cornell University, Carnegie Mellon University and the Sciencenter of Ithaca, deals with the development and testing of a unique methodology for educating youth in computer programming. Through a mobile robot that is cleverly disguised as a small animal, participants will learn to manipulate the system by physically moving it as well as setting variables via electronic buttons thereby learning programming and design. The eventual use of this system and methodology is in museum exhibits so preliminary survey data will be gathered from various venues that presently use less capable devices. Iterative testing will be done at the Sciencenter in its exhibits.
The University of Pittsburgh's Center for Learning in Out-of-School Environments (UPCLOSE), the Carnegie Museum of Natural History, and the Robotics Institute at Carnegie Mellon University are building an open access cyberlearning infrastructure that employs super high-resolution gigapixel images as a tool to support public understanding, participation, and engagement with science. Networked, gigapixel image technology is an information and communication technology that creates zoomable images that viewers can explore, share, and discuss. The technology presents visual information of scientifically important content in such detail that it can be used to promote both scientific discovery and education. The purpose of the project is to make gigapixel technology accessible and usable for informal science educators and scientists by developing a robotic imaging device and online services for the creation, storage, and sharing of billion-pixel images of scientifically important content that can be analyzed visually. Project personnel are conducting design activities, user studies, and formative evaluation studies to support the development of a gigapan technology platform for demonstration and further prototyping. The project builds on and leverages existing technologies to provide informal science education organizations use of gigapixel technology for the purpose of facilitating three types of activities that promote participatory learning by the public--Public Understanding of Science activities; Public Participation in Scientific Research activities; and Public Engagement in Science activities. The long-terms goals of the work are to (1) create an accessible database of gigapixel images that informal science educators can use to facilitate public-scientist interactions and promote participatory science learning, (2) characterize and demonstrate the affordances of networked gigapixel technologies to support socially-mediated, science-focused cyberlearning experiences, (3) generate knowledge about how gigapixel technology can enable three types of learning interactions between scientists and the public around visual data, and (4) disseminate findings that describe the design, implementation, and evaluation of the gigapixel platform to support participatory science learning. The project\'s long-term strategic impacts include guiding the design of high-resolution images for promoting STEM learning in both informal and formal settings, developing an open educational resource and science communication platform, and informing informal science education professionals about the use and effectiveness of gigapixel images in promoting participatory science learning by the public.
The University of Central Florida Media Convergence Laboratory, New York Hall of Science, and the Queens Museum of Art are developing a 3-D, multi-user virtual environment (MUVE) of the 1964/65 New York World's Fair. Virtual fairgoers of all ages will be immersed in an accurately modeled historical world with more than 140 pavilions on science, technology, engineering, and mathematics (STEM) disciplines and an array arts and humanities exhibits. The virtual world can be freely explored through self-designed avatars, and avatar-led guided tours. Discovery Points throughout the virtual environment will afford opportunities for in-depth engagement in STEM topics that will empower participants to explore the broader consequences of technological innovations. The centerpiece of user-generated content is FutureFair, an area where online users can create and share their personal visions of the future. Interconnections reaches beyond its virtual component through its partnership with the New York Hall of Science and the Queens Museum of Art, which are both situated in the heart of Queens in Flushing Meadows Corona Park, a 1255 acre urban park that hosted the 1939/1940 and 1964/65 Fairs. The New York Hall of Science will provide face-to-face youth workshops that employ problem-based learning. Single and multi-session programs will connect adolescents to STEM content presented at the Fair through the virtual world environment. Participants will create multimedia content for inclusion in the project's website. Multi-touch interactive stations at the Queens Museum of Art will enhance their NY World's Fair Exhibit Hall by empowering visitors to individually or collectively explore various STEM topics and the symbiotic relationships between STEM and the humanities, and by serving as an attractor for visitors to the online Fair exploration. The project will be completed in time for the 50th Anniversary celebration of the 1964 World's Fair. Building upon prior research on learning in virtual worlds, the project team will investigate how STEM concepts are advanced in a simulated multi-user virtual environment and studying the effectiveness of using Virtual Docents as enhancements to the informal learning process. The research and development deliverables have strong potential to advance the state of informal science education, research on modeling and simulation in virtual world development, and education research. Michigan Technological University will conduct the project formative and summative evaluations.
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Lori WaltersMichael MoshellCharles HughesEileen Smith
The University of Southern California's Institute for Creative Technologies and the Museum of Science, Boston will create life-sized, 3-D Virtual Humans that will interact with visitors as interpretive guides and learning facilitators at science exhibits. Through the use of advanced artificial intelligence and intelligent tutoring techniques, Virtual Humans will provide a highly responsive functionality in their dialogue interpretation that will generate sophisticated interaction with visitors about the STEM content related to the exhibit. The project exemplifies how the confluence of science, technology, engineering, mathematics and education can creatively and collaboratively advance new tools and learning processes. The Virtual Human project will begin to present to the visitor a compelling, real life, interactive example of the future and of the related convergence of various interdisciplinary trends in technology, such as natural language voice recognition, mixed reality environments, para-holographic display, visitor recognition and prior activity recall, artificial intelligence, and other interdisciplinary trends. The 3-D, life-sized Virtual Humans will serve as museum educators in four capacities: 1) as a natural language dialogue-based interactive guide that can suggest exhibits to explore in specific galleries and answer questions about particular STEM content areas, such as computer science; 2) as a coach to help visitors understand and use particular interactive exhibits; 3) be the core focus of the Science behind the Virtual Humans exhibit; and 4) serve as an ongoing research effort to improve human and virtual human interactions at increasingly sophisticated levels of complexity. The deliverables will be designed to build upon visitor experiences and stimulate inquiry. A living lab enables visitors to become part of the research and development process. The project website will introduce visitors to the technologies used to build virtual humans and the research behind their implementation. The site will be augmented with videos and simulations and will generate user created content on virtual human characters. Project evaluation and research will collect language and behavioral data from visitors to inform the improvement of the virtual guide throughout the duration of the grant and to develop a database that directly supports other intelligent systems, and new interface design and development that will have broad impact across multiple fields.
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TEAM MEMBERS:
William SwartoutDavid TraumJacquelyn MorieDiane PiepolH. Chad Lane
This is a proposal for a 3 year, $1,297,456 project to be conducted as collaboration among 5 higher education institutions and one school system across the country, with St. Joseph's University in Philadelphia, PA serving as the lead institution (other collaborators are from Colorado School of Mines, Ithaca College, Santa Clara University, Duke University, and Virginia Beach School System). The primary goal is to attract and retain students in computer science, especially women and underrepresented minorities (including two EPSCoR states). To this end, the project will use Alice, a software program that utilizes 3-D visualization methods, as a medium to create a high-level of interest in computer graphics, animation, and storytelling among high school students, hence to build understanding of object-based programming. Such an IT focus on media and animation is aligned with national computer science standards. The project will build a network of college and high school faculty, who will offer workshops and provide continuing support during the academic year. In each site, pairs of teachers from each participating school (total = 90) will learn with university faculty via a 3-week summer program in which an introduction to using Alice for teaching will be followed by teacher development of materials for students that will then be used to teach high school students. An experimental start at one site will be followed by implementation at four additional sites and culminated with revised implementation at the sixth site (1-4-1 design).
This planning grant seeks funding for demonstrating proof of concept for the proposed traveling exhibition "Inside Phoebe's Field." It is an outgrowth of the prior NSF project (9979287) that resulted in an interactive book for middle-school age girls. This project extends the book through exploring the feasibility of using mixed reality in an exhibit format as well as virtual environments using the Internet. Intellectual Merit: The project will further the technology-enhanced three-dimensional storytelling approach by development of selected science exhibit prototypes. The project team combines academic, museum and professional expertise, as well as a partnership with the Girl Scouts of the USA. Broader Impact: This project will provide the ISE field valuable feedback about the use of metaphor in storytelling in a science-based exhibition, as well as about the application of new technologies (virtual reality, augmented reality technologies and interactive electromechanical events) for creating exhibit experiences. At the same time it will further the development of a national traveling science exhibition whose primary target audience will be girls from ages 10 to 13.
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TEAM MEMBERS:
Mitzi VernonKatherine CennamoIrene GoodmanMichael ErmannSteve HarrisonMargarita McGrath
The Educational Film Center will complete production of a science, engineering, and technology careers exhibit and informal science education project for use in science museums, libraries, schools, and community locations. The twelve additional interactive and linear career profiles to be produced under this grant will bring the total number of careers available in a fully interactive mode to thirty-two. Users will be able to explore each of these careers with first person video profiles of people in science and engineering and animated/reality video simulations of work experiences in these fields. The exhibit also with provide guidance to help users make decisions about education and career choices and will include a database of information about approximately 200 additional science and math-based professions. The project also will undertake the development and testing of eight permanent model Family Outreach Science Career Education Centers in eight cities. These centers will be based on and will expand upon the experience the project had in their earlier model Parent Outreach Science Career Program. Utilization support will be provided through special target leader guides, presentations and workshops at national and regional meetings of user organizations and groups, and a SETQuest bulletin board and e-mail network for the exchange of user science career programming. This project is a collaborative effort among four organizations: The Educational Film Center (EFC) is responsible for management of the project and for the development of production of the software and the documentary video profiles; COMAP is responsible for selecting and hiring content consultants, for formative and summative evaluation, and will jointly market and distribute the material with EFC; The New York Hall of Science is responsible for the exhibit kiosk and graphics, the design and development of the workbook and museum installation print components of the project, and will serve as principal test site for the exhibit; and the AAAS is coordinating the design, implementation, and testing of parent outreach program. All of the organizations will be involved in presentations and dissemination of project information to the informal and formal education communities.