We describe OctoPocus, an example of a dynamic guide that combines on-screen feedforward and feedback to help users learn, execute and remember gesture sets. OctoPocus can be applied to a wide range of single-stroke gestures and recognition algorithms and helps users progress smoothly from novice to expert performance. We provide an analysis of the design space and describe the results of two experiments that show that OctoPocus is significantly faster and improves learning of arbitrary gestures, compared to conventional Help menus. It can also be adapted to a markbased gesture set
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Olivier BauWendy E. Mackay
resourceresearchProfessional Development, Conferences, and Networks
The Conference on Public Participation in Scientific Research 2012 was held on 4 and 5 August in association with the Ecological Society of America’s 97th Annual Meeting in Portland, Oregon. The conference took important steps toward formalizing the field of public participation in scientific research (PPSR); facilitated communication, collaboration, and innovation, and identified points of strength and concern for the field. Additional information about and results from the conference can be found at citizenscience.org.
Science museums play a role in creating visitor experiences that relate to contemporary issues in science, and in linking audiences to the scientific enterprise and the community of scientists. In the Portal to the Public approach, science researchers are trained by museum educators with experience in inquiry-based learning, and are then given opportunities to translate their current research for museum audiences. Portal to the Public offers one solution to museums seeking to sustain a commitment to delivering experiences that reflect the dynamic pace of research, and the need to connect local
The First Synthesis Meeting was held in January 2008, at the front end of the Portal to the Public grant period. For this meeting, forty-three experts, stakeholders and members of the project team came together at Pacific Science Center for two days of dialog and reflection. Participants brought diverse knowledge and experience, and represented public, research scientist and informal science education perspectives. The First Synthesis Meeting's goal was to facilitate in-depth conversation to identify current initiatives, best practices, and future directions regarding activities in the field
Social science research into public understanding of animal cognition has tended toward a disciplinary focus with conceptual frameworks, questionnaires, concepts and categories that do not appear to align with the findings emerging from the scientific study of animal cognition. The goal of this paper is to present a framework that aligns the dimensions of these two disparate research fields to allow for better assessment of public perceptions of animal minds. The paper identifies different dimensions that have been categorized through the empirical study of animal cognition, as well as the
Funded by the National Science Foundation (NSF), the Center for High-rate Nanomanufacturing (CHN) brings together three universities with unique strengths in nanoscience and nanomanufacturing: the University of Massachusetts, Lowell (UML); Northeastern University, Boston (NEU); and the University of New Hampshire, Durham (UNH). The University of Massachusetts Donahue Institute (UMDI) is conducting the five-year evaluation of CHN's education and outreach activities. The evaluation uses multiple sources of evidence to analyze project processes and outcomes. Using quantitative and qualitative
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Center for High-rate NanomanufacturingCarol Lynn AlpertCarol Barry
resourceevaluationProfessional Development, Conferences, and Networks
Funded by the National Science Foundation (NSF), the Center for High-rate Nanomanufacturing (CHN) brings together three universities with unique strengths in nanoscience and nanomanufacturing: the University of Massachusetts, Lowell (UML); Northeastern University, Boston (NEU); and the University of New Hampshire, Durham (UNH). The University of Massachusetts Donahue Institute (UMDI) is conducting the five-year evaluation of CHN's education and outreach activities. The evaluation uses multiple sources of evidence to analyze project processes and outcomes. Using quantitative and qualitative
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Center for High-rate NanomanufacturingCarol Lynn AlpertCarol BarryUMass Donahue Institute Research and Evaluation Group
To conserve species, we must first identify them. Field researchers, land managers, educators, and citizen scientists need up-to-date and accessible tools to identify organisms, organize data, and share observations. Emerging technologies complement traditional, book-form field guides by providing users with a wealth of multimedia data. We review technical innovations of next-generation field guides, including Web-based and stand-alone applications, interactive multiple-access keys, visual-recognition software adapted to identify organisms, species checklists that can be customized to
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New England Wild Flower SocietyElizabeth FarnsworthMiyoko ChuW. John KressJason BestJohn PickeringRobert StevensonGregory CourtneyJohn VanDyckAaron Ellison
These audio presentation and transcript files are from a series of webinars about the NSF Advancing Informal STEM Learning (AISL) FY14 solicitation. "AISL Webinar 101: Introduction to the Solicitation" includes an overview of the AISL program, project types, preparing competitive proposals, the review process and NSF merit criteria, other relevant programs and resources, and contact information. "AISL Webinar 102: Digging Deeper into the Solicitation" focuses on key issues in the submission and review processes, examples of project types, an introduction to the Common Guidelines for Education
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National Science FoundationNational Science Foundation
National Parks are full of interesting and unusual STEM features which often intrigue visitors whose questions are answered by park personnel. In addition to the natural features, there are often researchers in the parks gathering data and conducting experiments. Park personnel are not apprised of these studies yet are often questioned about them. This collaborative project's goals are to derive a mechanism to educate the park personnel so they can respond to the visitor's inquiries. Collaborators include the National Park Service (NPS), TERC, Winston-Salem State University, and the park personnel at Carlsbad Caverns National Park. The plan is to work through the park interpreters who are employees of NPS and often are the voice for explaining the park's natural features. For this project, the interpreters and researchers will collaborate on the explanations of the science and TERC will work with the interpreters on interacting or educating the public visitors on the research. This is a pilot study to determine how best to bridge the scientists and their research to the park visitors. Evaluation on all elements in this study will be done by Char Associates and the Institute for Mathematics and Science Education at New Mexico State University. The results of this study are to determine the issues in explaining the research to the park interpreters and thence to the park visitors. If successful, it is anticipated that a model will be developed in collaboration with the NPS for use in other National Parks.
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.
This Pathways project from the Ocean Discovery Institute (ODI) seeks to develop and pilot a program model designed to fill an identified gap in citizen science research and practice literature: how to effectively engage and better understand how to foster participation among people from under-represented groups in citizen science research. The ODI model is designed around six principles: (1) leaders who are reflective of the community, (2) science that is locally relevant, (3) guided, as opposed to self-guided, experiences, (4) direct interactions with scientists, (5) progressively increasing responsibilities for participants who express interest, and (6) removing barriers to participation, such as transportation, language, family involvement and access to technology. The project addresses environmentally degraded, crime-ridden local canyons, a locally relevant STEM-related issue, and leverages the Southern California Coastal Water Research Project's (SCCWRP) regional citizen science effort focused on identifying the sources and pathways of trash through regional watersheds. The scientific research components of the project focus on four canyons in the area, employing sampling methods developed by SCCWRP. Youth who are part of other ODI programs and who have demonstrated leadership and interest in science, work with the project team to scaffold family and youth participation in project activities taking place during afterschool and weekend time. Based on continued participation in the project, community participants can become more involved in the project, starting as "new scientists" and moving through "returning scientists" to "expert scientists" roles. The project evaluation seeks to identify the role and importance of the components of the proposed model with respect to participation, retention, and learning by participants from groups under-represented in STEM. The dissemination products of this Pathways project include a white paper describing the model and lessons learned as well as presentations to community groups and education and citizen science practitioners. Based on insights from the iterative approach to the model during this Pathways study, a subsequent full-scale development project would seek to engage citizen science projects around the nation in adapting the model to increase participation of individuals from groups underrepresented in STEM, including building out ODI's citizen science programming.
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TEAM MEMBERS:
Lindsay GoodwinRoxanne RuzicTheresa Sinicrope Talley