This project will expand the functions and applications of FieldScope, a web-based science information portal currently supported by the National Geographic Society (NGS). The goal is to create a single, powerful infrastructure for Public Participation in Science Research (PPSR) projects that any organization can use to create their own project and support their own community of participants. FieldScope currently provides various tools and applications for use by its existing user base that includes the GLOBE project and the Chesapeake Bay monitoring system. The application enables users to contribute volunteered geographic data collection efforts and sharing information among both professional and amateur users. The project would develop and test an enhanced version of the existing FieldScope application. The project supports major programming development for a fully-functional web-based application that would significantly enhance the usability of the current application. Along with programming new features and capabilities, the project involves extensive evaluation of the new capabilities and involves three citizen-based organizations as testbeds.
The project will increase the capability of the existing system to handle large numbers of users and user groups and also increase the number and variety of tools available to any user; provide customization through the adaption of common APIs; and provide for expansion of computer space through use of virtual servers in a cloud computing environment thereby limiting the need for installed hardware. This approach would maximize storage and computing power by being able to call on resources when necessary and scaling back when demand decreases. The platform would include advanced visualization capabilities as part of a suite of analytic tools available to the user. Social networking applications would also be incorporated as a way of enabling communication among users of a particular site. The operation of the portal would be supported by the NGS and made available free of charge to any group of users applying for space. Nominal fees will be applied to large organizations requiring large computing space or additional features. User groups can request NGS supply custom features for the cost of development and deployment.
The evaluation of this project is extensive and focused on formative evaluation as a means to identify user preferences, from look and feel of the site to types of tools desired and types of uses expected. The formative evaluation would be conducted ahead of any commitment to programming and formatting of the features of the site. The project responds to a need expressed throughout the citizen science community for web-based applications that enable individuals to engage in a topic of interest, interact in various ways on such a site including the submission of data and information, analyze the information in concert with others and with working scientists in the field, and utilize state-of-the-art tools such as visualization as a way of making sense of the data being collected. There have been numerous proposals to create similar types of sites from various groups, each based on its own perceived needs and grounded in its own particular discipline or topic. This activity could serve this community more broadly and save similar groups the trouble and expense of creating sites from scratch.
Climate Change Education produced climate change educational experiences for both professional and general public audiences. In particular, the Science Museum of Minnesota (SMM), in collaboration with NASA Goddard Institute for Space Studies (GISS), University of Minnesota’s Institute on the Environment, and the University of Wisconsin’s Cooperative Institute for Meteorological Satellite Studies (CIMSS), developed new content for SMM’s Earth Buzz online network, developed a climate change educational program for middle and high school teachers, invited audiences of policy- and decision-makers to SMM for climate change discussions, and recruited and mentored a climate change team of high school students through SMM’s Kitty Andersen Youth Science Center. The project goals were to increase the awareness and understanding in target audiences that (1) human activities are now surpass natural processes as driving forces of atmospheric change, (2) the behavior of Earth's atmosphere in the 21st Century will be increasingly determined by humans, and (3) human ingenuity is the key to adapting to and mitigating the climate changes underway. Highlights of the project included organizing and hosting the October 26-28, 2011 City of Saint Paul Climate Change Adaptation Scenario Planning Workshop, which catalyzed climate resilience as a city planning priority, organizing and hosting with Morris A. Ward, Inc. the October 5-6, 2012 Climate Change Science for Minnesota Broadcast Meteorologists workshop which brought together local TV and radio meteorologists with some of the best climate scientists in the U.S., helping to organize and host on November 7, 2013 the State of Minnesota’s first conference devoted exclusively to climate change adaptation, and the adoption by the museum of a public statement on climate change (www.smm.org/climatechange). The project endures although the grant has concluded through the continued delivery of the museum’s Climate Changed outreach program to a wide array of audiences and through the museum’s continued involvement with the many partnerships established during the Climate Change Education project, as exemplified by the museum working with the City of Saint Paul and Macalester College on an upcoming St. Paul Neighborhood Climate Adaptation Workshop and a Worldwide Views on Climate and Energy event (climateandenergy.wwviews.org/).
This short video entitled "Urban Science for the Hip-Hop Generation: The Documentary" provides an overview of a research program led by Chris Emdin of Teacher's College in NYC. Professor Emdin has designed a science program that builds on students' cultural and personal resources to engage students in STEM learning from a position of familiarity and strength. This is a powerful example of making STEM culturally relevant to students as a way to engage and excite them in learning.
The read/write web, or Web 2.0, offers ways for users to personalise their online existence, and to develop their own critical identities though their control of a range of tools. Exerting control enables those users to forge new contexts, profiles and content through which to represent themselves, based upon the user-centred, participative, social networking affordances of specific technologies. In turn these technologies enable learners to integrate their own contexts, profiles and content, in order to develop informal associations or communities of inquiry. Within educational contexts these
Problem-based learning (PBL) is a student-centered instructional strategy in which students solve problems and reflect on their experiences. Different domains need different approaches in the design of PBL systems. Therefore, we present one case study in this article: A Java Programming PBL. The application is developed as an additional module for the Learning Management System (LMS). This way the LMS is extended by PBL functionality and the LMS learning resources can be used in PBL.
This paper advocates for place-based education to guide research and design for mobile computers used in outdoor informal environments (e.g., backyards, nature centers and parks). By bringing together research on place-based education with research on location awareness, we developed three design guidelines to support learners to develop robust science-related understandings within local communities. The three empirically- derived design guidelines are: (1) Facilitate participation in disciplinary conversations and practices within personally-relevant places, (2) Amplifying observations to see
The term 'cyberlearning' reflects a growing national interest in managing the interactions of technology and education, especially with respect to the use of networking and information technologies. However, there is little agreement about what the term means. Such disagreements reflect underlying differences in beliefs about the purposes of education. These disagreements are problematic for anyone interested in evaluating cyberlearning practices. This study used surveys and interviews to investigate how practitioners and experts in the field of cyberlearning define it, how they implement it
Recently, the relationship between identity and learning has come front and center in discussions about how to design successful learning environments for youth who struggle in mainstream institutions. In this essay, I explore the role identity development plays in constructing learning environments for traditionally marginalized youth. While I agree with DeGennaro and Brown on the importance of identity development for learning, I stretch the relationship between these two constructs in several ways: First, I will argue that how we define “technology” and what that means for marginalized
The author reflects on the use of some media channels to disseminate information about astronomy. He states that there is a striking absence of regularly maintained blogs hosted by major astronomical institutions. He asserts that social networking sites offer a quick and efficient channel for dissemination of content to a younger audience. He offers information on Second Life, the most popular non-game-based virtual community.
The Zooniverse projects turn everyday people into "citizen scientists" who work online with real data to assist scientists in conducting research on a variety of topics related to galaxies, exoplanets, lunar craters, and solar flares, among others. This paper describes our initial study to assess the conceptual knowledge and reasoning abilities of citizen scientists participating in two Zooniverse projects: Galaxy Zoo and Moon Zoo. In order to measure their knowledge and abilities, we developed two new assessment instruments, the Zooniverse Astronomical Concept Survey (ZACS) and the Lunar
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TEAM MEMBERS:
Edward PratherSebastien CormierColin WallaceChris LintottJordan RaddickArfon Smith
"Birds in the Hood" or "Aves del Barrio" builds on the Cornell Laboratory of Ornithology's (CLO) successful Project Pigeon Watch, and will result in the creation of a web-based citizen science program for urban residents. The primary target audience is urban youth, with an emphasis on those participating in programs at science centers and educational organizations in Philadelphia, Tampa, Milwaukee, Los Angeles, Chicago and New York. Participants will develop science process skills, improve their understanding of scientific processes and design research projects while collecting, submitting and retrieving data on birds found in urban habitats. The three project options include a.) mapping of pigeon and dove habitats and sightings, b.) identifying and counting gulls and c.) recording habitat and bird count data for birds in the local community. Birds in the Hood will support CLO's Urban Bird Studies initiative by contributing data on population, community and landscape level effects on birds. Support materials are web-based, bilingual and include downloadable instructions, tally sheets, exercises and results. The website will also include a web-based magazine with project results and participant contributions. A training video and full color identification posters will also be produced. The program will be piloted at five sites in year one, and then field-tested at 13 sites in year two. Regional dissemination and training will occur in year three. It is anticipated that 5,000 urban bird study groups will be in place by the end of the funding period, representing nearly 50,000 individuals.
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TEAM MEMBERS:
Rick BonneyJohn FitzpatrickMelinda LaBranche
This report summarizes findings from a three-year study of the Time Team America: Science of Archeology project, funded by the National Science Foundation. The project included a series of archaeology field schools for youth, four broadcast episodes and a redesigned website with a variety of information and instructional resources. The evaluation included both formative and summative components and a mix of qualitative and quantitative methods including surveys, interviews, and focus groups. Includes interview protocol and survey.