This project will bring STEM content knowledge to visitors to Cuyahoga Valley National Park via mobile device applications. Visitors will be able to use their mobile phones to access details about Park features (such as where they are in the park, what they are looking at, and where are related features), supporting just-in-time STEM learning. Cuyahoga Valley National Park receives around 2.5 million visitors every year and experiences multitudes of inquiries. Until this project, visitors were subjected to less than optimum signage for information and background about a given feature that may or may not be of interest to them. In this project, knowledge building information will be selected by the visitors and delivered to them with convenience and speed. The data base supporting this effort will provide the visitor with identification and the history of park features as well as more in depth knowledge building information while they are in the park and after the leave, providing a more holistic experience than is currently available. The investigators will build the system in parts, testing the feasibility at each stage and evaluating affective and cognitive outcomes of each portion. Research questions that will be addressed in the course of this project include: (1) What outcomes associated with use of this GPS-base system could inform future development and implementation? and (2) What contributions do these GPS-based mobile learning applications have on informal science learning as understood within the Six Strands of Informal Science Learning? It is expected knowledge generated in this project will stimulate additional programing for increasing efficacy and use in other widely ranging venues. If successful, it is easy to imagine how this STEM knowledge-building application could be extended for use in other venues across the country.
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TEAM MEMBERS:
Richard FerdigRuoming JinPatrick LorchAnnette Kratcoski
resourceprojectProfessional Development, Conferences, and Networks
This conference at Arizona State University is an early-stage activity inspired by the upcoming 2016 - 2018 bicentennial of the conception, writing and publication of Mary Shelley's "Frankenstein - or The Modern Prometheus." That book, and the dozens of films produced subsequently, have provoked questions for researchers and citizens that have endured for two centuries and are relevant today. - How have we gone from a world in which Mary Shelley could watch public demonstrations of voltaic power on dead animals to one in which the dissection of animals in classrooms is frowned upon, but the creation of new life forms via an international synthetic biology competition (iGEM) is celebrated? - How do literary, artistic and other cultural portrayals of science and engineering inspire and inflect STEM research? - What steps do contemporary scientists and engineers need to take in order to proceed with their innovative activity in a responsible fashion? - What role do lay citizens have in making decisions about science and technology?- How can we understand the broad relationship between creativity and responsibility? The convening brings together a USA and international group of educators in informal science education and multi-disciplinary scholars who study various aspects of the interactions of science, technology and society (STS). This team of natural and social scientists, engineers, museum professionals (Museum of Science, Boston (MOS); Science Museum of Minnesota (SMM)), artists and humanities scholars will begin to formulate plans for producing exhibits, educational programs and demonstrations, fiction and nonfiction writing contests, performances, and curricula that explore science education, ethics and artistry. An overarching goal is to establish a process that could create a national and global network of collaborators to plan programs worldwide and establish new professional collaborations of researchers beyond the bicentennial. The workshop, a first step toward a possible larger initiative, could be significant both for the public's engagement with contemporary issues of science and society and for stimulating new inter-disciplinary research on such issues.
The Cyberlearning and Future Learning Technologies Program funds efforts that support envisioning the future of learning technologies and advancing what we know about how people learn in technology-rich environments. Development and Implementation (DIP) Projects build on proof-of-concept work that shows the possibilities of the proposed new type of learning technology, and PI teams build and refine a minimally-viable example of their proposed innovation that allows them to understand how such technology should be designed and used in the future and that allows them to answer questions about how people learn, how to foster or assess learning, and/or how to design for learning. This project team aims to explore how to foster learning in socially-networked communities, particularly learning that results in behavior change. Understanding how to foster such learning could have a wide variety of societal impacts, e.g., better fostering science, engineering, mathematical, or design thinking in school or college or on the job, fostering healthy behaviors, helping teens develop pro-social behaviors, and helping people learn to make environmentally-friendly choices as they live their lives. In previous work, this team has developed YardMap, an infrastructure for citizen science that brings together retired adults who are interested in planting and managing their yards in environmentally-friendly ways. YardMap enables social interactions and shared creation of virtual worlds in which participants can try out different ways of managing their yards and see what the downstream effects will be. They also track and display their changing practices and actual yards in ways that are visible to others. YardMap is used by many thousands of participants. In this project, the team is taking YardMap to the next level, using what is known about how people learn and come to change their behaviors to design and refine ways to more directly support individuals in critiquing and improving their behaviors and designs for the common good. What can be learned from the new YardMap will be useful in other fields that focus on helping people change their behaviors in productive ways. The PIs seek to explore how people learn and how to foster learning in socially-networked citizen science communities. Their research addresses how learning happens, how to foster learning, how to design to increase social activity, and how increased interaction with others elevates interest, generates knowledge, and leads to behavior change. Their technological innovation, an infrastructure for citizen science that fosters behavior change, builds on YardMap, an existing infrastructure for citizen science around environmental issues that allows collective data collection and analysis and supports interactive graphing and mapping. Participants design and refine ways of managing their yards in ways that take into account environmental concerns. YardMap enables social interaction and co-creation of a set of virtual worlds for trying out new ideas; learners who are part of the community interact with others in the community, create and refine virtual worlds together, interact with things in the virtual world, manipulate those worlds and collect and analyze data about outcomes, and discuss visual objects that represent real things and practices. As well, individuals track and display their changing practices and actual yards in ways that are visible to others. YardMap can be thought of as a maker movement community focused on yard maintenance; like other maker communities, it encourages participants to create, share and discuss new inventions and practices in a social-networked community setting. Using both what is known about learning in communities and what is known about social drivers of interaction, the team is is extending YardMap to focus on fostering learning and investigating the relationships between learning and behavior change and the influences each has on the other. Much will be learned about how to use social interactions in positive ways to help individuals become more comfortable with behaviors they need to or should take on for health, civic, or educational reasons. What is learned and the technological infrastructure that is created will be directly applicable to other situations where individual behavior changes are needed for change to happen in a social system (e.g., environmental action, changing the culture of an organization, changing norms in a community, perhaps even creating learning communities in formal on-line courses).
The Rutgers Film Bureau in collaboration with the scientists of the LTER (Long Term Ecological Research) project at Palmer will produce a multi-platform documentary project, Antarctic Quest: Racing to Understand a Changing Ocean. This Connecting Researchers to Public Audiences proposal will focus on the scientists who are studying ocean physics, chemistry, biology, and ecology in the West Antarctic Peninsula (WAP), which is the fastest winter warming location on earth. The aim of the project is to promote scientific knowledge about the world's oceans and climate change, inspire interest in scientific careers, as well as train a cadre of next generation film students in the craft of science documentary filmmaking. The project will articulate the research of the Palmer LTER's quest to understand the impact of climate change on the marine ecosystems of the WAP, while involving university students in the filmmaking process. Deliverables include an hour television documentary intended for PBS television broadcast, an online "Antarctic Quest community" created through interactive and interconnected social media, three five-minute educational videos produced for the PBS Learning Media website, and a Digital Media Library to assist Earth science educators. The production team will employ a diverse group of twenty film students from Rutgers University to be involved in the many phases and components of the project. The project is designed to advance the public's environmental literacy. The project will raise awareness of the changes being observed in the world's oceans by illustrating how small changes in the physical conditions in the WAP can have profound impact on marine ecosystems and potentially the entire ocean system. The project will also highlight the significance of innovative new technologies that are revolutionizing research methods as well document the importance of scientific collaboration to understand a complex interdisciplinary problem and the challenges of working in extreme environments. The summative evaluation of the project will assess the effectiveness of the project in meeting its educational goals. By communicating significant scientific research to the public while training a cohort of next generation of science documentary filmmakers, the project will also contribute to capacity-building in the Informal Science Education field.
This project will research factors influencing the implementation of programs designed to increase diverse participation in informal science. The goal is to provide the informal science education field with information and tools that will help them design effective programs that more effectively engage a broad range of diverse audiences. The project has two major components. First, the project will research the implementation of a citizen science project, Celebrate Urban Birds (CUB), in major U.S. cities. Citizen science projects involve public volunteers in gathering scientifically valid data as part of ongoing research. Second, building on results of the research, the project will launch a website and learning community (called a Community of Practice or CoP) supporting informal science educators that are involved in designing and implementing informal science programs with an emphasis on engaging diverse participants. The project will be lead by the Cornell Lab of Ornithology (CLO), a leader in designing and researching citizen science projects, in collaboration with the Association of Science-Technology Centers (ASTC) and five science center members of ASTC, where the CUB program will be implemented and researched. The objective of the research is to better understand contextual factors and how they impact implementation even when accepted practices are followed. Such research is key not only to revealing accepted practices but also to understanding how projects are implemented in the face of concrete operational, cultural, economic, and demographic variables. The research will use a comparative case study approach, which is designed for studies requiring holistic, in-depth investigation. The development of the website and the CoP will be guided by a Network Improvement Strategy, a research-based approach to designing educational CoPs. The development of the CoP will involve the project stakeholders including the informal science organization practitioners, community organization representatives, CUB staff, ASTC staff, advisors and consultants. This strategy will allow the project team and pilot sites to leverage their diverse experiences and skill sets to improve practice; provide space for researchers and practitioners to work together as partners; and develop a nuanced set of strategies that can be implemented across a variety of organizational contexts.
The Citizen Science Embedded Assessment project will explore the use of embedded assessment to measure participant science inquiry skill development within the context of citizen science projects. Citizen science (CS) projects partner volunteers with scientists to participate directly in research endeavors. Embedded assessments (EAs) assess participant skills and performance that are directly integrated and are indistinguishable from day-to-day activities. As such, EAs allow learners to demonstrate their science competencies through tasks that are integrated seamlessly into the learning experience itself. The CS field has a growing inventory of self-assessment tools, however, the evaluation of citizen science (and other informal science projects) using such subjective assessments can be remarkably improved when these are used in combination with objective measures of knowledge, skills or other resources participants gain through their participation. Science skills, such as data collection and analysis, are particularly important for CS projects because of their focus on the scientific process and their need for rigorous data collection. Despite the focus on skill gains, CS projects rarely measure such improvements. Embedded assessments (EAs) offer a critical method for understanding the impacts of these participatory learning environments. The project will develop and field test EAs on citizen science topics with an environmental science focus. It will also design training to support their use by individual projects. The project has three primary research foci: (1) identifying common and unique science inquiry skills targeted by CS projects, and how skills are currently being measured to document project impact; (2) identifying the opportunities and challenges present in developing and administering EA tools customized for CS projects to assess science inquiry skills; and (3) assessing whether EA tools created for a CS project can provide project leaders with a better understanding of their project's impact on participant science inquiry skills. The project will address these questions with a needs assessment of research and evaluation studies within the CS community and case studies to develop and test EAs customized for three identified and interested CS projects.
The Conservation Trust of Puerto Rico is creating citizen science projects in five research areas (insect monitoring; coastal/river system management; bird communities; bat assemblages; and cultural resources) that allow 140 Hispanic residents of Puerto Rico (age 14 and older) to move along a continuum of research involvement from contributor to collaborator to co-creator. As citizen scientists engage in scientific research that measures the effects of urban development on the Manati River watershed in northern Puerto Rico, the project team is evaluating the degree to which participants show changes in science knowledge, skills, attitudes, communication, and behavior. The proposed project is accelerating the development of citizen science activities in Puerto Rico. New scientific knowledge generated by citizen scientists will have practical importance within and beyond the Manati watershed because Puerto Rico is undergoing rapid urban development, resulting in the loss of biodiversity and emergence of environmental problems such as lower water quality. Environmental data collected by citizen scientists will form an environmental database that permits long-term watershed monitoring and informs land use decision making.
This CRPA award addresses the issue of multidisciplinary science and the public's awareness of the ideas. The PIs believe that the prevalence of multidisciplinary science is high and growing fast. Thus, the public and particularly the younger generations need to understand these concepts and to begin thinking in those terms. Thus, they will derive hands-on modules for three age groups that are age appropriate. The project team includes 7 NSF funded researchers who do multidiscipline-based research in biology, mathematics and engineering. These modules will be tested at the Boy and Girls Club of Dane County prior to being exhibited at the Madison Children's Museum and the Aldo Leopold Nature Center. Further, the local PBS TV station (WPT) will air some of the demonstrations giving the project more visibility and impact. Each set of modules designed for the three age groups shall be evaluated separately using age specific goals and objectives. The project is a collaboration between 7 scientists and engineers, the Boys and Girls Club of Dane County, the Aldo Leopold Nature Center, the Madison Children's Museum, and the Wisconsin Institutes of Discovery of the University of Wisconsin.
An IMLS (Institute of Museum and Library Services) National Leadership project with University of California Museum of Paleontology (lead), Yale Peabody Museum of Natural History, Museum of the Earth and University of Kansas Natural History Museum to create a tree portal website with learning research, curriculum material and guides on how to effectively use and teach about the tree of life for teachers and museum professionals.
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TEAM MEMBERS:
University of California-BerkeleyTeresa MacDonaldRoy CaldwellAnna ThanukosLisa WhiteDavid HeiserRobert Ross
A team from Michigan State University, in partnership with six science, art-science, and art museum venues around the country and with the assistance of researchers at Georgia Institute of Technology, is implementing an EAGER project to conduct ongoing experiments on the chemical precursors to life as exhibit experiences for visitors to these venues. The experiments, to be run over the course of several months as the exhibit travels around the country, expand on the 1950s' work of Stanley Miller and Harold Urey, which continues to stimulate new investigations and publications, including experiments being conducted on the International Space Station. The experiments/exhibits share key features across the three different kinds of venues, allowing the team to study and compare the impacts on the various publics of engaging them in real-time science experiments. Two major goals are (1) to explore new ways to attract public interest in science by performing in public settings previously untried experiments on the chemical precursors to life, and (2) to investigate how the context of different kinds of venues and their visitor characteristics affect how visitors interpret the experience and what they learn. The team is also exploring how various data visualization representations can be designed to foster public interest and understanding. The intent is to develop an approach that has potential applications to other STEM content domains and expanding the reach to broader public audiences.
This Communicating Research to Public Audiences (CRPA) project is for promoting public understanding of and engagement with STEM by developing and implementing technology and formats for interactive exhibitions at the interface of underwater robotics and marine science. This program envisions the use of BRUCE (Bioinspired Robotic Underwater Carangiform Exhibit) featuring a shoal of ROSAs (Remotely Operated Swimming Avatars) at the River Project to engage the local New York City community and echo to the broader U.S. non-technical audience in marine science and technology. More specifically, this program is expected to put kids and adults behind the wheel of miniature robotic fish that can swim alone, school in groups, and compete against each other under the remote control of the audience. To further attract youngsters to the exhibit, an application for an iDevice, that is, an iPhone, iPad, or iPod Touch, for controlling the robotic fish while seeing through its eyes will be developed. This is a cooperative venture between New York University Polytechnic School of Engineering, New York University Steinhardt School of Culture, Education, and Human Development, and the River Project.
Living Liquid is a full-scale development project that will develop and research a new genre of science exhibit that engage visitors in inquiry with large scientific datasets through interactive visualizations. Building on findings from a prior pathways project, Living Liquid will develop three interactive visualizations on a multi-touch Viz Table with a tangible user interface. Each visualization will support visitors in the exploration of a dataset provided by the project’s science partners: 1) Plankton Patterns will show how the ocean is defined by regions of microscopic life using data from the MIT Darwin Project; 2) Ocean Tracks will reveal the “highways” large marine creatures travel with data from the TOPP project at Stanford University; and 3) Genetic Rhythms will follow the activity of marine creatures’ genes in response to environmental conditions based on data from the Center for Microbial Oceanography Research and Education (C-MORE). Through an iterative process of collaborative research and development among museum professionals, educational researchers, computer scientists, marine biologists, data artists and interaction designers, this project seeks to: (1) Advance public understanding of ocean ecosystems and large data inquiry skills through the development of a Viz Table. (2) Advance STEM professionals’ knowledge of how to engage the public in inquiry with visualizations through an educational research study. (3) Increase the capacity of STEM professionals (both ISE developers and research scientists) to develop visualizations through a collaborative development process that includes graduate student training and residencies.