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
The Children's Museum of San Jose, in collaboration with developmental psychology researchers at UC Santa Cruz (UCSC) and science and education staff of the UC Berkeley Museum of Paleontology (UCMP), is conducting a 48-month long project that focuses on children's use of evidence to construct scientific explanations. Key deliverables are: a 2,300 square-foot paleontology exhibit with an Evidence Central area three "evidence hubs" at the Children's Museum of San Jose, an educational Web site developed by UCMP, research on children's use of evidence conducted by Maureen Callanan's research group at UCSC, a "state of the children's museum field" study on varieties of perspectives on "science" and "evidence," and professional development experiences for staff at children's museums. Additional partners include the children's museums in Austin, TX, Madison, WI, and Providence, RI and local Vietnamese and Latino organizations in the museum's neighborhood. Randi Korn & Associates will conduct the program summative evaluation process and the "state of the field" study. The project identifies and will work to address two specific needs in the field: (a) a clearer sense of the developmental progression of children's understanding of evidence, and (b) a rigorous and systematic investigation of children's open-ended reasoning about evidence in a rich content domain (paleontology). The strategic impact goal is to build capacity in children's museums, enabling them to offer more evidence-based science learning experiences for their visitors.
The Informal Science Education Program of the National Science foundation will provide $320,000 in partial support of "Research in Learning in Museums Project." This will be the NSF contribution to a four federal agency effort to collaboratively support a major research project on learning in museums. As the result of an RFP developed by representatives of the National Endowment for the Arts (NEA), the National Endowment for the Humanities (NEH), and Institute of Museum and Library Services (IMLS), and the National Science Foundation (NSF), an award was made to the Learning Research and Development Center at the University of Pittsburgh. It was agreed by the four agencies that the IMLS would be the coordinating agency of this award since they represent all museum regardless of subject, content, or type of audience.
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TEAM MEMBERS:
Rebecca Danvers
resourceprojectProfessional Development, Conferences, and Networks
Under the direction of Kevin Crowley, the Learning Research and Development Center at the University of Pittsburgh will investigate gender bias in parental explanations in informal learning settings. This project, Responding to the Gender Gap in Informal Science Education, will build on previous research at children's museums where the conversations of 338 families with children eight years and younger at sixteen different interactive exhibits were recorded and analyzed. They found that parents were almost three times more likely to use explanations when interacting with boys than girls. In this project they will conduct additional research to isolate the causes and outcomes associated with gender bias in these parental explanations and then they will develop, evaluate, and disseminate a range of low-cost methods to modify science exhibits to support parental explanation to both girls and boys. The latter will take the form of an Explanation Toolbox (XBox) which will be a set of resources to help museums construct and evaluate their own modifications to support non-biased parental explanations, with special attention paid to including explanations for the young girls, in addition to the usual conversations about manipulating the exhibits and about the visual, auditory, and tactile information produced by the exhibit. Results of the research and the toolbox will be broadly disseminated via the World Wide Web and published research reports.
Franklin Institute proposes to develop Kid Science, a 4,000 square foot, bi-level, core exhibit space for parents and children ages 5-8 years old. Kid Science will accomplish two parallel goals: First, it will provide parents information and insight about K-4 National Science Education Standards, theories of learning and development, and suggestions for interaction with children. For children, the exhibit will be an introduction to basic science learning principles as defined by the national science standards for children ages 5-8, and encourage collaborative learning to foster beneficial parent/child interactions. The development of the Kid Science exhibit will serve as a model to build upon research for establishing effective methods for communicating directly to parents and caregivers through exhibit activities. These activities will be specifically designed to reach elementary age school children and their parents. The cost share for this project is 33% of the total project cost.
The Association for Science-Technology Centers (ASTC) will gather data and develop a report to the field on mathematics activities in science museums. The purpose of the Small Grant for Exploratory Research (SGER) grant is to support initial research on the current status of mathematics in science museums, to document exemplary models for the field, and to determine the feasibility of a mathematics initiative for science museums and their client schools. The final product, a document similar to the NSF-funded publication "First Hand Learning," will serve the field as well as the education community in seeking better approaches for improving mathematics education.
With a Small Grant for Exploratory Research, Georgia Tech Research Institute will identify and measure the properties of spatial layout that affect visitors' exploration and exposure to information in science museum exhibitions. It is the nature of museum learning that it is associated with movement in space. The ways in which displays are arranged in spatial sequences, the ability to simultaneously view different objects, the grouping of objects in space, the rate of change in directions, the relative distance between one display and another, all become powerful aspects of the presentation of knowledge that are far more important in the museum than they are in any other learning environment. This study will apply new techniques for spatial analysis to provide rigorous, quantitative descriptions of spatial layout. These descriptors will then be used to understand how layout affects visitor movement patterns in exhibitions.
The National Zoological Park, a component of the Smithsonian Institution, proposes transforming three traditional zoo exhibit buildings into centers for informal science learning. Based on current knowledge about learning, the proposed project will feature interactive elements as well as the greater use of human interpreters to help visitors examine animals, handle objects and play games. The project is to be a collaborative effort by the National Zoological Park, the Dallas Zoo and Zoo Atlanta, with the National Zoo developing the materials and making and shipping copies to Dallas and Atlanta as centers for tryout and evaluation, with the results of the studies going to other zoos in way of encouraging them of the importance of interactive science education.
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TEAM MEMBERS:
Judith WhiteJames MurphyDale MarcelliniJeffrey Swanagan
The Family Science Learning Project is comprised of a research study and subsequent program development designed to fundamentally improve family science learning in museums. The endeavor will be carried out in the Philadelphia area by PISEC, a partnership of The Academy of Natural Sciences, The Franklin Institute, the Thomas H. Kean New Jersey State Aquarium at Camden and the Philadelphia Zoo, joined for this project by the University of the Arts. To achieve the goal of fostering science literacy by encouraging families to engage in successful learning strategies while visiting science museums, PISEC has identified the following objectives for the project: - To increase understanding of the processes and potential of science museum-based family learning. - To apply this understanding to the development and implementation of effective program and exhibit enhancements in four science museums. - To involve existing staff so that evaluation and research become an ongoing component of program and exhibit development in the participating museums. - To utilize a multi-institution team approach designed to maximize impact, be cost-effective and be replicable in other regions across the country. The project has three phases. First, a research study using ethnographic data collection and focus groups will be conducted at the participating museums. This study will lead to the formulation of a set of criteria for successful family science learning and hypotheses about what is needed to facilitate this behavior. Second, utilizing these findings, the four institutions will develop four distinct programs and/or exhibit enhancements designed to foster positive family learning experiences. Formative evaluation and inter-museum collaborative will be integral parts of this process. Finally, the summative findings of the individual efforts will be compared to look for constants in successful programming across the sites. Results will be assembled in a handbook which will be widely disseminated to the field. In carrying out this study, the project will fill in the body of existing museum-based family learning research. The knowledge gained will give science museum professionals a new set of tools which can be used to increase the frequency of positive learning experiences in their facilities, and to broaden the diversity of visiting families as well. Because the subject matter under investigation represents a wide range of scientific disciplines, the results of the projects should prove applicable to many different types of informal science learning environments, including science centers, natural history museums, zoos, aquariums and botanic gardens. The collaborative nature of the project will serve as a model for similar partnerships among cultural institutions and universities in other large metropolitan areas.
The Science Museum of Minnesota would like to create a network of partnerships between the museum and small community-based science organizations (CBSOs). CBSOs will receive professional development workshops to increase their capacity to produce high quality exhibits and publications and offer effective science programming. A team from each science organization will participate in a 12-hour skills development workshop to cover such topics as exhibit development, audience research, science communication and program development. A workshop "tool kit" will capture the essence of the training workshops and be made available to other museums. Each team will develop a small traveling exhibit and supporting materials. Annual Science Summit programs will showcase the CBSOs to the general public, museum visitors and students, while a CBSO Roundtable will invite the participants to explore collaborations and programming strategies. An online database will be created and a complimentary printed resource guide of all local CBSOs will be available to the public. The model will be tested at two small science centers, the Kirby Science Discovery Center in Sioux Falls, SD, and at the Headwaters Science Center in Bemidji, MN. It is anticipated that 72 organizations and 450 CBSO staff members will be served by this project, in addition to over 5,000 members of the general public.
The Milwaukee Public Museum will develop two test stations: A Wetland/Wood Station and a Mobile Testing Station that will be used to evaluation how hands-on activities that incorporate scientific tools and methods can be applied to supplement the educational experience of traditional natural history museum dioramas. As a result of the MPM's work, visitors will become engaged in a "field experience" by means of techniques to encourage observing, recording of data, and hypothesizing using tools that a scientists might use to study the natural environment such as a hand lens, radio telemetry receiver, scales, rulers, and/or calipers. Visitors will also have the opportunity to investigate further in the "lab". Here visitors will use such tools as a computer, microscope, measuring grid, and they will be encouraged to experiment, infer, predict, and classify. The intent is to have the visitor discover how scientific information is used to support decisions in every day life. The development of these stations will be accompanied by considerable formative and summative evaluation studies. The results will be disseminated in order that other natural history museums with dioramas may replicate these ideas in order that visitors might move beyond the primary "animal identification" phase in their examination and enjoyment of dioramas.
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TEAM MEMBERS:
William HackbarthW. Carl TaylorJames KellyAllen YoungMary Korenic
resourceprojectProfessional Development, Conferences, and Networks
The Exploratorium will develop an exhibit "Memory: A Biological Cognitive and Cultural Exploration" along with various complementary components. The primary objective of this project is to increase the public's awareness of the extent, importance, and nature of their everyday rememberings. Exploratorium staff will use an approach to memory, and cognition in general, that considers culture and cultural differences as essential to people's thinking and behavior. The exhibit area will be about 2000 sq ft in size and will consist of ten to twelve new activities and six revised interactive, interdisciplinary exhibits. Here visitors will have the opportunity to interact with the exhibits, researchers, scientists, artists, and other visitors, to explore the nature of memory and its effect on their lives. The exhibits will give visitors direct, experiential insight into the workings of their memories. Other major components of the project include multimedia presentations, printed materials, demonstrations, film programs and a symposium. A publication Memory and Perception will be a supplemental guide that can be used by teachers and students at the secondary level. It will address appropriate themes in the Science Framework for California Public Schools. Museum professionals, researchers, teachers, and evaluators will be invited to participate in a one- week symposium on Cognition in Science Centers. The purpose of the symposium is to develop a conceptual and practical model of what presenting cognition in an informal education setting means. A report will be published and broadly disseminated by professional museum organizations. It is estimated that the project will reach approximately 629,000 visitors annually which includes 69,000 students and 550 teachers.