ITR: A Networked, Media-Rich Programming Environment to Enhance Informal Learning and Technological Fluency at Community Technology Centers The MIT Media Laboratory and UCLA propose to develop and study a new networked, media-rich programming environment, designed specifically to enhance the development of technological fluency at after-school centers in economically disadvantaged communities. This new programming environment (to be called Scratch) will be grounded in the practices and social dynamics of Computer Clubhouses, a network of after-school centers where youth (ages 10-18) from low-income communities learn to express themselves with new technologies. We will study how Clubhouse youth (ages 10-18) learn to use Scratch to design and program new types of digital-arts projects, such as sensor-controlled music compositions, special-effects videos created with programmable image-processing filters, robotic puppets with embedded controllers, and animated characters that youth trade wirelessly via handheld devices. Scratch's networking infrastructure, coupled with its multilingual capabilities, will enable youth to share their digital-arts creations with other youth across geographic, language, and cultural boundaries. This research will advance understanding of the effective and innovative design of new technologies to enhance learning in after-school centers and other informal-education settings, and it will broaden opportunities for youth from under-represented groups to become designers and inventors with new technologies. We will iteratively develop our technologies based on ongoing interaction with youth and staff at Computer Clubhouses. The use of Scratch at Computer Clubhouses will serve as a model for other after-school centers in economically-disadvantaged communities, demonstrating how informal-learning settings can support the development of technological fluency, enabling young people to design and program projects that are meaningful to themselves and their communities.
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TEAM MEMBERS:
Mitchel ResnickJohn MaedaYasmin Kafai
While we should celebrate our success at evolving many vital aspects of the human-technology interactive experience, we question the scope of this progress. Step back with us for a moment. What really matters? Everyday life spans a wide range of emotions and experiences -- from improving productivity and efficiency to promoting wonderment and daydreaming. But our research and designs do not reflect this important life balance. The research we undertake and the applications we build employ technology primarily for improving tasks and solving problems. Our claim is that our successful future
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TEAM MEMBERS:
Eric PaulosTom JenkinsAugust JokiParul Vora
resourceprojectWebsites, Mobile Apps, and Online Media
SETAC is funded by the Lifelong Learning Programme of the European Union and emerges out of the need to undertake specific action for the improvement of science education. It regards science education as among the fundamental tools for developing active citizens in the knowledge society. SETAC draws on the cooperation between formal and informal learning institutions, aiming to enhance school science education and active citizenship looking further into the role of science education as a lifelong tool in the knowledge society. On the day of the project’s conclusion, 31 October 2010, after two years of work SETAC contributes the following products and results to the field: 1. “Quality Science Education: Where do we stand? Guidelines for practice from a European experience” This is the concluding manifesto that presents the results of the SETAC work in the form of recommendations for practitioners working in formal and informal science learning institutions; 2. “Teaching and Learning Scientific Literacy and Citizenship in Partnership with Schools and Science Museums” This paper constitutes the theoretical framework of the project and innovative ways of using museums for science education and develop new modes of linking formal and informal learning environments; 3. Tools for teaching and learning in science: misconceptions, authentic questions, motivation. Three specific studies, leading to three specific reports, have been conducted in the context of the project, looking in particular into notions with an important role in science teaching and learning. These are on: Children’s misconceptions; Authentic questions as tool when working in science education; Students’ attitudes and motivation as factors influencing their achievement and participation in science and science-related issues; 4. Activities with schools: SETAC developed a series of prototype education activities which were tested with schools in each country. Among the activities developed between the partners, two have been chosen and are available on-line for practitioners to use and to adapt in their own context. These are: The Energy role game, a role game on Energy invites students to act in different roles, those of the stakeholders of an imaginary community, called to debate and decide upon a certain common problem; MyTest www.museoscienza.org/myTest, which aims to encourage students to engage in researching, reflecting and communicating science-oriented topics; 5. European in-service training course for primary and secondary school teachers across Europe. The training course is designed in such a way as to engage participants in debate and exploration of issues related to science education and active citizenship. The course is open to school teachers, headteachers and teacher trainers from all EU-member and associate countries. Professionals interested can apply for a EU Comenius grant. All the products of the project as well as information about the training course are available at the project website, some of them in more than one languages: www.museoscienza.org/setac
Researchers at the U.C. Davis will carry out observations of museum visitors to plan for a study of how visualizations affect visitors of an Earth Sciences exhibit using 3D technology. The researchers will be able to conduct an experimental study about how much participants in an education center learn from the model of earthquakes and of a model of the Lake Tahoe basin. The researchers will conduct a quasi-experiment of a sample of 100 visitors to the center at Lake Tahoe to study their experience with visualization and learning of science. The funding for this phase of the project will include the development of audience surveys, conducting focus groups to develop types of feedback, train staff to conduct data collection, and to conduct a literature review of technology visualization.
The authors present an exploratory study of Black middle school boys who play digital games. The study was conducted through observations and interviews with Black American middle school boys about digital games as an informal learning experience. The first goal of the study is to understand the cultural context that Black students from economically disadvantaged inner-city neighborhoods bring to playing digital games. The second goal of the study is to examine how this cultural context affects the learning opportunities with games. Third, the authors examine how differences in game play are
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TEAM MEMBERS:
Betsy James DiSalvoKevin CrowleyRoy Norwood
John Falk and Lynn Dierking tackle the challenge of helping museums become better at the learning process for visitors. As they put it, "[d]igital media, well designed and wisely used, are important tools that can enhance visitor interaction and learning in museums, ensuring that these environments inspire and provoke curiosity and further understanding among visitors with varying backgrounds, interests, and knowledge levels."
Grossology Live! was a creative and innovative program that involved unique format, content, and collaboration. The program used live video-conferencing techniques to create two-way interaction between onscreen actors in a colorful Grossology set in the studio in Noblesville, Indiana; uniquely imaginative comedic and musical presentations on the human body; and a live presenter, stage set, and audience at 5 small science or health centers primarily in the mid-west and southeast. The receiving sites were members of the National Association of Health Education Centers (NAHEC), which played a
Most tabletop research presents findings from lab-based user studies, focusing on specific interaction techniques. This means we still know little about how these new interfaces perform in real life settings and how users appropriate them. This paper presents findings from a field study of an existing interactive table in a museum of natural history. Visitors were found to employ a wide variety of gestures for interacting; different interface elements invited different types of gesture. The analysis highlights challenges and design conflicts in the design of tabletop interfaces for public
Video games have been heralded as models of technology-enhanced learning environments as they exemplify many of the ideas emerging from contemporary learning sciences research. In particular, such games promote learning through goal-directed action in simulated environments, through producing as well as consuming information, embedded assessments, and through participation in self-organizing learning systems. Research suggests that participation in such environments involves many forms of scientific thinking and may lead to increased civic engagement, although to date, there are few examples of game-based learning environments that capitalize on these affordances. This project will investigate the potential of online role playing games for scientific literacy through the iterative design and research of Saving Lake Wingra, an online role playing game around a controversial development project in an urban area. Saving Lake Wingra positions players as ecologists, department of natural resources officials, or journalists investigating a rash of health problems at a local lake, and then creating and debating solutions. Players will solve challenges within an interactive, simulated lake ecosystem as they attempt to save the lake, working for one of several constituencies. This design-based research project will span the full life cycle of a project, from case studies of learning in small, constrained settings to controlled experimental studies of games implemented across classrooms. In addition to asking if participation in scientific role-playing games can produce robust conceptual understandings, it will also examine if role playing games might serve as assessment tools for comprehending scientific texts, assessing conceptual understandings within scientific domains, and designing innovative solutions to environmental problems that draw upon scientific understandings. The education plan includes the production of game-based media that can be used to support a variety of research studies, an online professional development community of educators using games for learning, support for graduate students trained in game theory, the learning sciences, and new forms of assessment, and new courses in game-based learning and assessment.
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 project will research distributed, online fantasy basketball games, which are quite popular with many kinds of players, including informal science education under-represented groups, and which entail some degree of informal statistical reasoning and decision-making strategies. The game is not playing basketball per se, but taking on the role of a team owner or coach who needs to decide how best to compose a team given necessarily limited resources. The research team will provide a method for framing and researching statistical understanding and decision making of expert and novice players, then, based on the research, will develop scaffolded techniques for helping players become more reflective on and adept with the statistical knowledge and decision making strategies they use.
The Shared Signing Science Planning Project will develop a prototype of a web-based Signing Science Pictionary. The prototype will be piloted to families and caretakers of deaf and hard of hearing children to study the feasibility and effectiveness of the learning technology and identify the activities that are most effective in helping deaf children learn life science at informal science centers. The project team will also compile a dictionary of science terms with the intention of including the terms in a full version of the Pictionary. The final Pictionary will be comprehensive; including scientific terms from life, physical, Earth, and space science and will be presented in animated sign language accompanied by written explanations and pictorial illustrations. The project will also produce a video guide with a description of activities that parents can implement with their children. The planning project will result in a prototype with 100 life science terms of species found at the three informal science centers the children and parents will visit to test the prototype. These informal sites are hands-on and exploratory featuring marine organisms and a range of terrestrial flora and fauna to touch and interact with. To prepare for the site visits, parents and caretakers of deaf or hard of hearing children will be taught how to use the Pictionary with children through a Flash-based movie that introduces the interactive features and assists the parents in engaging with their children in three activities using the signing scientific vocabulary. The preparatory vocabulary work with the parents and children will lay the educational foundation for the visits to the informal science education sites. Families will test the initial project prototypes with deaf children using a control group for comparison. Pre-tests will be used to assess childrens' vocabulary before use of the Pictionary. Follow up tests will test knowledge of the new words and will include field observations of children in museums, zoos, and farms, where the new terms will come to life in corresponding exhibits. The results of the ongoing evaluation will be compiled into a guide for other developers of similar materials for the deaf community, and will impact the development of the final project. The project will broaden participation of an underserved audience in STEM learning and generate new knowledge about how to effectively integrate emerging learning technologies into exhibits and programs for deaf learners.The project team includes TERC and Vcom3D and collaborators from Gallaudet University Regional Center at Northern Essex Community College, the College of the Holy Cross, and the Learning Center for Deaf Children. Participating informal science education institutions are represented by the EcoTarium, Davis' Farmland, and the Stone Zoo. These partnerships provide the necessary expertise and support for the proposed project to have significant impact on advancing STEM learning in informal settings for children with hearing disabilities through the use of assistive learning technologies.