Life on Earth aims to advance (1) public understanding of the history of life on Earth and biodiversity, and (2) our knowledge of how people interact and learn from large interactive science data visualizations on multi-touch displays in public settings. Our multi-institutional project team has developed the DeepTree, the FloTree, and Build-A-Tree (BAT). The focal exhibit, called the DeepTree, utilizing large data sets from four online databases including Tree of Life web project (www.tolweb.org), Encyclopedia of Life (www.eol.org), National Center for Biotechnology Information (https://www.ncbi.nlm.nih.gov/) and Time Tree (www.timetree.org), allow museum visitors to explore the relationships of 70,000 species, spanning over 3.5 billion years of evolutionary history using touch gestures on a large multi-touch computer display. Embedded inside the DeepTree, the "FloTree" encourages exploration of evolutionary processes within a single population. "Build-a-Tree" (BAT) is a multi-level phylogenetic tree-building game. These learning experiences are designed to target core evolutionary concepts and be self-directed, physically interactive, embodied, and collaborative. The Life on Earth exhibit has been installed at California Academy of Sciences in San Francisco, the Field Museum in Chicago, University of Nebraska State Museum in Lincoln Nebraska, and Harvard Museum of Natural in Cambridge Massachusetts. Please visit the Life on Earth website at https://lifeonearth.seas.harvard.edu/ to find more details on publications, and the ongoing learning research and summative evaluation. The Life on Earth project brings together a team of interdisciplinary researchers in human-computer interaction and information visualization, learning sciences, museum exhibit design, cognitive and developmental psychology, and evolutionary biology.
The objective of this youth media project is to provide 14-24 year olds with training and hands-on experience in engineering, and the physical and biological sciences. The project is designed around core practices that engage youth in original research and inquiry through experimentation, development, and creative use of new technologies and tools to communicate STEM to the public. Youth Radio project participants in Oakland, CA, Atlanta, GA and Washington, DC include 540 youth, 80% of whom are low-income and/or youth of color, plus another 400 youth via off-site outreach in schools and community centers. Core deliverables include: (1) "Brains and Beakers," eight live events per year where a visiting STEM researcher brings his/her work out of the lab and onto the stage at Youth Radio facilities, demonstrating key principles and discoveries and interacting with youth participants; (2) "Youth Radio Investigates," an annual 6-part multimedia series, where youth partner with university and industry-based researchers to explore the veracity of scientific claims applied to products and services and they use every day; (3) The "Application Development Lab," where youth develop, create and disseminate online embeddable and downloadable applications (12 annually) that serve real needs in youth communities. The digital media produced by the youth will be broadcast by National Public Radio and distributed online through various sites including iTunes and BoingBoing.net, one of the most frequently visited technology-focused sites on the web. Project advisors include STEM researchers in universities as well as highly experienced and successful new media technology developers. Project partners include National Public Radio, KQED, the California Academy of Sciences, and the Oakland Unified School District. This project builds on the successful prior work (NSF #0610272) that initiated a Science and Technology program within the Youth Radio organization. The summative evaluation by Rockman et al will measure how the program affects students' science and technology knowledge, skills, and attitudes. It will build on the evaluation from the prior NSF funded project (#0610272) that highlighted the organizational and staff growth processes as Youth Radio discovered how to design and implement successful, sustainable STEM programs. Rockman will evaluate the new programs (Youth Investigates, Brains and Beakers, and the Application Lab), measuring the following STEM-related student outcomes/impacts: perceptions of selves as producers/creators of science or technology; attitudes toward science and perceptions of scientists; understanding the process of scientific inquiry and research and/or technology skills development; and understanding or interest in careers in science or technology (based on National Research Council report, 2009). Data will be collected from the youth at the Oakland site and from the other Youth Radio bureaus to determine which aspects of the program transfer to multiple sites and which ones are unique to a specific location or set of circumstances. Methods include surveys of student attitudes, participant focus groups, interim assessments, objective skills assessments, and interviews. This project provides an innovative new model for collaborations between STEM researchers and under-represented youth resulting in digital media that impacts the youth as well as the public's understanding and engagement in science.
This full-scale development project would use a multi-platform approach (TV, Field School, and Web site) to engage public audiences and underserved youth in archaeology research and discovery. The project will advance knowledge and practice in the field of ISE by establishing the utility of archaeology as an entry point to multiple STEM fields showing how it answers important questions about human origins-culture, history, and the natural environment. The target audience includes a broad demographic of viewers who will watch the PBS broadcasts. The other key audience is underserved youth who will participate in the archeology digs and be featured in the national broadcast. They will engage other underserved youth who will have the opportunity to participate in the interactive online virtual field school. Primary organizational partners include the Crow Canyon Archaeology Center in Colorado and other archeology organizations at the 4 field sites. Deliverables include four hours of PBS programming filmed at four archaeological sites telling the stories of diverse cultures (Native American, African American, Hispanic); field schools designed for underrepresented youth both onsite and online; blogs, online discussions, and user-generated videos. The evaluation will determine the impact of the television series, online content, and the on-site Field School on audiences' understanding of, interest in, and interactions around STEM topics within the context of archaeology. Formative evaluation will provide input and help refine the television programs, web site, and field school. The summative evaluation will use a variety of methods and artifacts to determine the degree to which the process of the TV series, web site, and Field School was successful. The television programs are expected to reach 13 million viewers via broadcast, 300,000 via streaming video and 50,000 unique web site visitors. The lessons learned from this project will be disseminated to other media and ISE organizations.
This project will develop an interactive application for spherical displays developed by NOAA called Science on a Sphere. The spheres are animated globes that can show dynamic, animated images of the atmosphere, oceans, and land of a planet. NOAA primarily uses SOS as an education and outreach tool to describe the environmental processes of Earth. Science On a Sphere was initially developed as a way to explore environmental data using new visualization techniques. There are about 70 installations of the sphere in science centers, planetariums and museums world-wide with 40 in the US. Currently the spheres only display static content. This project will extend the amount of content available and provide interactivity. The resulting application will be available to both installed spheres and those institutions thinking about purchasing and installing the sphere display. Math on a Sphere will enable users to create 3-D interactive graphic content for spheres. The project will enable users to interact with the displays they develop for the spheres either on-site or remotely. Through the use of a computer-based toolkit, users can create their own programs, build geometric patterns, and send a variety of graphical content to the spherical display. The project hypothesizes that user-directed development combined with a visually compelling spherical display will spark interest in STEM topics and specifically, in the test version, mathematical content. This project will prototype, design, implement, test, and evaluate software that allows users to display their computational work on an installed sphere as well as work remotely on the project and to test their mathematical computations by viewing the spherical display remotely either through a computer monitor or a camera view of the sphere itself. While the prototype will be developed focusing on mathematical concepts, there are clear links between the toolkit being developed to physics, meteorology, oceanography and astronomy. The project will increase the computational and spatial reasoning and thinking of the target audience of middle school and high school students. The application will be available remotely for individual users but could easily be used in classroom settings. The application can be used by teachers and museum and science center staff as well to encourage its use among users both on site and remotely. The successful demonstration of interactive 3-D display of science concepts using the Science on a Sphere installations can lead to interactive use of other large public display installations such as walls or large screen projection. This capability would extend the ability of users to derive greater use of these visually driven devices for learning STEM concepts and content.
The Herpetology Education in Rural Places & Spaces (HERPS) project is a four-year full-scale development project designed to engage diverse North Carolina residents from the Central Piedmont, Eastern Piedmont, and Inner Coastal Plain regions of the state in conservation and field experiences focused on herpetology, the study of reptiles and amphibians. The project targets rural underrepresented groups in STEM; predominately African-Americans, Hispanics, and Lumbee Native Americans. The University of North Carolina-Greensboro and its partner organizations, Elon University and University of North Carolina-Pembroke, will partner to develop and implement all phases of the project. Ultimately, the project aims to increase knowledge of and interest in herpetology and related conservation issues, provide authentic research experiences, and better understand identity-related motivations and affordances of the casual, regular, and enthusiastic participant across project strands. HERPS builds on four pilot studies and will engage people of all ages in a broad range of herpetological activities including: (a) an annual herpetology-focused community event (HERPS Celebrations), (b) technology resources such as a project website and customized mobile applications (HERPS Cyberhub), (c) summer and year-long herpetological research experiences (HREs) for high school students and teachers, and (d) in-depth longitudinal herpetological study opportunities (e.g., box turtle study). In addition, there is separate but integrated research stand that will focus on identity and HERPS experiences, as settings for informal science learning. The identity research will study: (a) identity-related motivations and (b) identity-related affordances of casual, regular and enthusiastic participants across threads. In addition, an extensive formative and summative evaluation will be conducted using a mixed methods approach by an external evaluator. Using a multiple-entry-points approach for learning and engagement, this project could serve as a replicable model for similar efforts in other settings. In addition, the results of the identity reseach strand could fill a critical gap in the identity and informal science education research bases. With an average estimated reach of nearly 15,000 people of all ages and diverse backgrounds, the potential broader impacts of this project could be extensive.
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TEAM MEMBERS:
Catherine MatthewsAndy AshTerry TomasekAnn SomersHeidi Carlone
This project will develop a prototype intelligent cyberlearning platform for middle school audiences at a museum location to test and evaluate the use of virtual learning technologies. The content for this test is focused on sustainability issues that enable students to develop an age-appropriate understanding of the relationships between specific conservation decisions, energy use, human health, and population growth within Earth's ecosystem. The prototype cyberlearning system will demonstrate how users can learn about science topics by interacting with a display of environmental factors that enable them to explore the impact of social, economic, and technological forces that may change one existing state and condition to another. The system will enable users to understand the interrelationships of those elements by enabling them to change conditions and then observing the effect of the changes they make on the conditions presented in the initial model. The prototype intelligent cyberlearning system will provide a unique integration of a sophisticated agent-based modeling simulation of environmental, social, and economic phenomena with three advanced learning technologies: game-based learning systems, intelligent tutoring systems, and narrative-centered learning systems. The game-based and narrative aspects of the project are embodied in the interactive time-travel focus of the 3D display on a multi-touch surface computing table in which users will play the role of environmental scientists who have been charged with helping earth become a thriving green planet. They will go back in time and be given the opportunity to make different decisions on any range of options. After they make their decisions, they will travel forward in time to see the results of their decisions. All of the interactions will be used to dynamically generate their time-travel adventures. The intelligent tutoring system will track user\'s problem-solving activities in the simulated world. As users make decisions, the intelligent tutoring system will draw inferences about their level of understanding of key environmental concepts. Given the current problem-solving goal (e.g., reduce green house gases) and the current state of the environment (e.g., climatological state, earth's population, factory emissions), the intelligent tutoring system will draw on its knowledge of common environmental misconceptions to assist students as they progress through the sustainability narratives. The intelligent tutoring system will receive the updated state from the agent-based simulation, which will then provide explanatory commentary and advice through the virtual human to the users about the causal connections underlying the results of the decisions they have made. Similarly, during the course of decision-making, users will be able to request advice, and the same computational framework will drive the virtual human\'s advice generation functionalities. The project will design, development, deploy, and evaluate a prototype intelligent cyberlearning platform for sustainability that supports independent, but guided, exploration of science topics. Because all users interactions will be accompanied by a virtual environmental scientist who will narrate their journeys and offer problem-solving advice, users will be afforded rich learning opportunities that support independent inquiry but also provided guided exploration of complex science topics. With a focus on group learning experiences in the out-of-school setting, the virtual environmental scientist will answer questions that will engage groups of users in a collaborative effort to understand the rich interrelationships of sustainability. The project will demonstrate the transformative potential of intelligent cyberlearning systems that integrate agent-based modeling with game-based learning, intelligent tutoring systems, and narrative-centered learning in an out-of-school setting to enable users to experience science in fundamentally new ways.
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TEAM MEMBERS:
James LesterBradford MottJames MinoguePatrick Fitzgerald
This project is designed to bridge the "public understanding of science" radio model with a "public engagement with science" approach using a new public media tool - the "Public Insight Network". Radiolab, an innovative hour-long radio program has developed a highly innovative and successful format over the past 5 years that fosters interest and understanding in STEM based on audiences' natural curiosity. It has exposed non-science attentive listeners to transformative STEM concepts such as Stochasticity (physics, statistics, neuroscience), Musical Language (behavioral science, neurology, acoustics) and Space (mathematics, astronomy, technology, engineering). This project will expand the model using innovative online strategies that will connect listeners with working scientists, with each other and with the Radiolab hosts. This new model is grounded in the direct interaction of audiences and scientists which positions listeners as active creators and curators of content rather than passive recipients. The target audience is young adults 18 years old and above. Key organizational partners are The Public Insight Network (and their affiliation with the National Academies of Science), American Public Media, the Borough of Manhattan Community College and Brooklyn College. Project deliverables include 30 hour-long Radiolab programs for broadcast on public radio stations; interactive, user generated articles for the web site; live online chats, engagement "apps" for mobile smart phones; and live events at college campuses and science centers. In addition, the project will implement a mentorship program to train college-aged underrepresented students that have demonstrated an interest in science and/or science journalism. Formative evaluation will gather actionable information from audiences and scientists than can inform the design of the deliverables.The summative evaluation will assess the success of the strategy for engaging audiences in ongoing science learning. Audiences are projected to increase from the current base of 1 million radio listeners per season and 2 million podcast downloads per month. The intended learning outcomes for the audience include their gaining greater knowledge and exposure to current scientific research, and increased engagement by becoming participatory learners through online interactions with science professionals and other listeners.
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TEAM MEMBERS:
Ellen HorneJad AbumradRobert KrulwichSoren Wheeler
The Change (working title) is a film project with supporting website and resource materials to document how climate change is impacting indigenous peoples in the most climate sensitive regions, and how anthropologists, environmental scientists, engineers, and others are working with these communities to help mitigate the effects. The documentary features Dr. Susie Crate, an NSF-funded anthropologist, and her bi-national teenage daughter Katie, whose father is from Siberia. The Viliui Sahka in Siberia, Alaska Natives in Nome, and South Pacific Islanders on Tuvalu are the communities portrayed in the film. The Change is a Full-Scale Development project produced by Ironbound Films. Outreach partners include the Center for Climate Change Communication (4C) at George Mason University, the Global Climate Adaptation Partnership (GCAP), the Society for Applied Anthropology (SfAA), the International Indian Treaty Council (IITC), and the Institute for Tribal Environmental Professionals (ITEP). Ironbound Films has designed this project to build upon its successful prior documentary work, The Linguists. Deliverables include a documentary for limited theatrical release and television and Internet broadcast along with an interactive website, curriculum guide, a shorter classroom version of the film, and a robust outreach strategy in collaboration with project partners. One of the components of the outreach in conjunction with SfAA will be to create the first social networking site around climate change adaptation. Another in conjunction with GCAP is to create a series of four virtual climate change tours for Google Maps and Earth applications. SmartStart Educational Consulting Services will conduct front-end, formative, and summative evaluations. The real-life characters and communities featured in the film will illustrate how climate change is affecting people today in various parts of the world. The project gives voice to anthropologists who have been working to understand climate change as a cultural phenomenon, a perspective rarely showcased in the media. Anthropologists have expressed the need for an effective means to share this work and its results with the public. The story is based on contemporary climate science and anthropology, but features the personal perspective of the bi-national teenage daughter, and is intended to appeal to an audience not typically drawn to a climate change documentary, especially the young or underserved. An aggressive, targeted marketing and outreach campaign reflects the film's innovative approach.
In this full-scale research and development project, Oregon State University (OSU), Oregon Sea Grant (OSG) and the Hatfield Marine Science Center Visitors Center (HMSCVC) is designing, developing, implementing, researching and evaluating a cyberlaboratory in a museum setting. The cyberlaboratory will provide three earth and marine science learning experiences with research and evaluation interwoven with visitor experiences. The research platform will focus on: 1) a climate change exhibit that will enable research on identity, values and opinion; 2) a wave tank exhibit that will enable research on group dynamics and problem solving in interactive engineering challenges; and 3) remote sensing exhibits that will enable research on visitor interactions through the use of real data and simulations. This project will provide the informal science educaton community with a suite of tools to evaluate learning experiences with emerging technologies using an iterative process. The team will also make available to the informal science community their answers to the following research questions: For the climate change exhibit, "To what extent does customizing content delivery based on real-time visitor input promote learning?" For the wave tank exhibit, "To what extent do opportunities to reflect on and share experiences promote STEM reasoning processes at a build-and-test exhibit?" For the data-sensing exhibit, "Can visitors' abilities to explain or use visualizations be improved by shaping their visual searches of images?" Mixed-methods using interviews, surveys, behavioral instruments, and participant observations will be used to evaluate the overall program. Approximately 60-100 informal science education professionals will discuss and test the viability of the exhibit's evaluation tools. More than 150,000 visitors, along with community members and local middle and high school students, will have the opportunity to participate in the learning experiences at the HMSCVC. This work contributes to the fields of cyberlearning and informal science education. This project provides the informal science education field with important knowledge about learning, customized content delivery and evaluation tools that are used in informal science settings.
The Cornell Lab of Ornithology is creating a new type of interactive, question-driven, online bird-identification tool called "Merlin," along with associated games, social networking tools, and other media. Unlike existing bird-identification guides, which are based on traditional taxonomic keys written by scientists, Merlin uses machine learning algorithms and crowd-sourced data (information provided by thousands of people) to identify birds and improve Merlin's performance with each interaction. The tool will help millions of people identify birds and participate in a collective effort to help others. The Crowd ID project will make it easier for people to discover the names of birds, learn observation and identification skills, find more information, and appreciate Earth's biodiversity. The summative evaluation plan is measuring increases in participants' knowledge, engagement, and skills, as well as changes in behavior. Impacts on participants will be compared to a control group of users not using Merlin. Merlin tools will be integrated into the Cornell Lab's citizen science and education projects, which reach more than 200,000 participants, schoolchildren, and educators across the nation. Merlin will be broadly adapted for use on other websites, social networking platforms, exhibits, mobile devices, curricula, and electronic field guides. Once developed, Merlin can be modified to identify plants, rocks, and other animals. Merlin will promote growth of citizen science projects which depend on the ability of participants to identify a wide range of organisms.
Open Exhibits has released a suite of open source multitouch-enabled exhibit modules and templates with the goal of transforming the way in which museum professionals and other informal educators assemble interactive computer-based exhibits for use in museums and other informal settings. Ideum Inc., proposes a full-scale development project that will develop, test, and disseminate a free suite of original, multitouch-enabled, open source exhibit software that will transform the ability of science museum professionals to assemble interactive computer-based exhibits for use in museums and on the Web. The project offers a novel approach to exhibit development that enhances the interoperability of science content and computer-based exhibit authoring tools to promote cyber-learning in informal settings. Open Exhibits will fulfill the need for a shared platform for interactive computer-based exhibits, driven by the exponential growth of cyber-learning and the need to streamline resources and investment in the exhibit development field. There has been a rapid rise in the development and use of open source software, but few of these technologies have been designed specifically to meet the needs of the ISE field, and few have been applied directly to enhancing the visitor experience. Open Exhibits will provide a model that promotes the sharing of technology, provides access to high-quality flexible tools to develop interactive computer-based exhibits, and strengthens cyber-infrastructure for the ISE field. It will also make interactive and new media technologies more accessible for small and rural museums with limited funding. The project will develop a library of extensible software modules for all major platforms that exhibit developers can configure in specific ways. These modules (developed using the popular Adobe Flash and Flex authoring tools) will be configured as three flexible templates that have broad application across the ISE field: 1) a current science news aggregator, 2) a timeline-based exhibit, and 3) a collections viewer. The templates will also be available in the form of universal modules that more advanced users can mix and match to build customized exhibits, allowing for modification that will yield further advancements to the software. Ideum will work closely with three partner museums: The Don Harrington Discovery Center (Amarillo, TX), Maxwell Museum of Anthropology (Albuquerque, NM), and New Mexico Museum of Natural History & Science (Albuquerque, NM) which represent a broad range of STEM topical areas, and the content that they develop will show the breadth of possibilities of the software modules and templates. Other deliverables include a mini-summit to convene museum and technology experts; user support strategies; and a community of practice centered around OpenExhibits.org that will standardize interoperability and design principles and serve as a hub for user support, prototype downloads, and as an exhibit showcase.
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.