The connections between technology applications of all sorts and human users that are ubiquitous in informal learning and assume a great deal about how the technology is used and how learning takes place. Much of the research in this area has been focused on game design and interaction. This project will examine this interaction involving the use of gestures that represent how individuals work with systems and large data sets that represent complex systems like the oceans, to understand how basic elements of a project with a 3-D type of design might enhance the user experience and increase the utility and learning that takes place by understanding the cognitive elements of these game like interactions in specific STEM related settings like museums.
This exploratory pathways project will investigate the use of interactive, gesture-enabled, multi-touch spheres for teaching about ocean systems in science centers and museums. The gesture-enabled aspect of the project will improve on interactive table-top installations which can frustrate users who use unexpected gestures and receive no response leading to brief interaction and abandonment without significant interaction or learning. The project will investigate ways in which unsupported gestures would still produce a system response which would encourage the user to remain at the installation and continue to investigate. The effect of multiple gestures will be supported by using natural mappings between gestures and interactions with the on-sphere data.
The project investigates theories of embodied cognition that support the notion that by engaging with global-scale datasets on a spherical display more effectively models the earth in a non-distorted manner and therefore will be more natural and allow users to develop a more accurate conceptual model of how data relates to itself and the globe. In this way, the project shares some aspects of understanding about learning through game play. The sphere will not be a fully developed game but will share characteristics of game play.
This project is funded by the Advancing Informal STEM Learning (AISL) program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants.
In 2011 the Bishop Museum and two collaborating organizations, University of Hawai’i at Manoa (UH) and the Pacific Voyaging Society (PVS), were awarded a multi-year grant from the Native Hawaiian Education Program (NHEP) to develop classroom and dockside curricula, an online resource center for educators, teacher workshops, a planetarium show, and a field-trip program for middle school students. The overall goal of these educational products and programs is to make STEM content accessible to Native Hawaiian students by presenting it through the lens of ancient Hawaiian navigational systems.
Researchers at the American Association of Variable Star Observers, the Living Laboratory at the Boston Museum of Science, and the Adler Planetarium are studying stereoscopic (three-dimensional or 3D) visualizations so that this emerging viewing technology has an empirical basis upon which educators can build more effective informal learning experiences that promote learning and interest in science by the public. The project's research questions are: How do viewers perceive 3D visualizations compared to 2D visualizations? What do viewers learn about highly spatial scientific concepts embedded in 3D compared to 2D visualizations? How are viewers\' perceptions and learning associated with individual characteristics such as age, gender, and spatial cognition ability? Project personnel are conducting randomized, experimental mixed-methods research studies on 400 children and 1,000 adults in museum settings to compare their cognitive processing and learning after viewing two-dimensional and three-dimensional static and dynamic images of astronomical objects such as colliding galaxies. An independent evaluator is (1) collecting data on museum workers' and visitors' perceived value of 3D viewing technology within museums and planetariums and (2) establishing a preliminary collection of best practices for using 3D viewing technology based on input from museum staff and visitors, and technology creators. Spatial thinking is important for learning many domains of science. The findings produced by the Two Eyes, 3D project will researchers' understanding about the advantages and disadvantages of using stereoscopic technology to promote learning of highly spatial science concepts. The findings will help educators teach science in stereoscopic ways that mitigate problems associated with using traditional 2D materials for teaching spatial concepts and processes in a variety of educational settings and science content areas, including astronomy.
This report summarizes findings from an evaluation of the NSF-funded project: Two Eyes, 3D. Through collaborations with two museums, the project sought to develop and test learning outcomes for stereoscopic (3D) resources. More specifically, the external evaluation—conducted by Rockman Et Al—sought to determine the perceived value of using stereoscopic technology within museums and planetariums, uncover best practices for implementation of stereoscopic resources, and further explore best practices for research partnerships within museum settings.
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TEAM MEMBERS:
American Association of Variable Star ObservrsJennifer Borland
Curious Scientific Investigators (CSI): Flight Adventures immerses children and families in science, technology, engineering, and math (STEM) disciplines. Launched in February 2012, the project supports NASA’s Aeronautics Research Mission Directorate (ARMD), focusing on “innovative ideas to convey the fundamentals of flight, flight technology, and NASA’s role in aeronautics.” The project’s audience includes youth ages 6-18 and the Museum’s more than 1 million annual visitors of all ages. The project’s lead agency, The Children’s Museum of Indianapolis (Museum), developed and implemented the project in Indianapolis in partnership with the Academy of Model Aeronautics and NASA Dryden Flight Research Center. The project’s goals focus on inspiring children and families to develop an interest in STEM concepts and learn about NASA’s role in science and aeronautics research and the evolution of flight, and on engaging and educating them through inquiry-based programs that facilitate understanding of STEM concepts and knowledge and NASA’s contributions to flight. Centered on an original Multimedia Planetarium Show on flight, Flight Adventures, the Museum designed several components, all of which complement the show and the messages it conveys. Among these components are an exhibit area composed of a movable wind tunnel, a display of models, low- and high-tech interactives; a Unit of Study; a TV show, Wings Over Indiana; a website; and a variety of educational and family programs.
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TEAM MEMBERS:
Jennifer Pace-RobinsonGordon Schimmel
Over the last decade, hundreds of planetariums worldwide have adopted digital “fulldome” projection as their primary projection and presentation medium. This trend has far-reaching potential for science centers. Digital planetarium capabilities extend educational and cultural programming far beyond night-sky astronomy. These “digital domes” are, in essence, immersive visualization environments capable of supporting art and live performances and reproducing archeological sites, as well as journeying audiences through the local cluster of galaxies. Their real-time and rapid-update capabilities
This research and development project would inform and engage audiences (especially middle school age girls) about the fundamental research under investigation at the Large Hadron Collider (LHC) at CERN in Geneva, Switzerland. A research plan and summative evaluation will fill a gap in what is known about the public's perception and understanding of the LHC/particle physics and include studies on girl's interest and engagement. Deliverables include a 40 minute giant screen film (3D/2D), full dome planetarium film, an interactive theater lobby exhibit, website, mobile app, materials and professional development workshops for educators. The giant screen film will use scientific visualizations and artistic interpretation to reveal compelling scientific stories recreating conditions following the Big Bang and the discovery in 2012 of the Higgs boson. CERN is providing unprecedented access to the collider and particle detectors including filming inside the 17 mile long underground tunnel while it is closed for upgrades in 2013-2014. There are 8 partner science museums (7 with planetariums) that will show the film/exhibit and serve as sites for research, evaluation, and outreach to underserved audiences ( Adventure Science Center, Carnegie Science Center, The Franklin Institute, Liberty Science Center, OMSI, Orlando Science Center, the Smithsonian, and the St. Louis Science Center). Additional distribution/marketing channels include giant screen theaters, planetariums, DVD, and social social media. Launch is targeted for 2016. Learning outcomes will focus on increasing awareness and interest in the LHC and increasing young people's engagement and excitement about the nature of scientific discovery. The research on girl's engagement and interest in physics will fill a gap in field. The project deliverables are projected to reach large audiences through national distribution of the giant screen film, the planetarium show, the exhibit, 3D/2D Blu Ray and DVDs, and access on computers, tablets, and other mobile devices.
The Science Museum of Minnesota prototyped interpretive approaches to using an innovative scientific visualization system developed by the National Oceanic and Atmospheric Administration (NOAA) called Science On a Sphere (SOS). SOS is composed of a wide variety of visualizations projected onto a six-foot sphere creating animated, whole-planet views of the Earth, other planets in our solar system, and their moons. Visualizations of the Earth cover topics such as weather, climate, topography, earth system dynamics, and geophysical processes. A challenge of SOS is making the content accessible
The Science Museum of Minnesota conducted a study to find out how many visitors stopped at the Science on a Sphere (SOS) exhibit during their visit to the museum, visitors' prior knowledge of SOS, and why a visitor might chose not to visit SOS. A total of 189 visitors were interviewed. Findings included: - Groups of adults and children were more likely to visit SOS than groups composed of adults only. - Most visitors just happened across the exhibit during their visit rather than sought it out. - Of the visitors who did not stop at SOS, few were familiar with the exhibit. - Both visitors who
In May of 2006, Science on a Sphere (SOS) was set up in a permanent exhibit space at the Science Museum of Minnesota. With the new installation of the Sphere, came the addition of a variety of features that were not included in the initial front-end study. These new features included an expanded playlist, new audio for some of the visualizations, accompanying labels projected on the wall describing the visualization, indication on the labels of what image will be playing next, and seating for visitors so they can sit and view the sphere. The new master playlist was composed of three smaller
During January 2007, the Science Museum of Minnesota carried out a study to gather visitor feedback on a variety of potential interpretive features of Science on a Sphere. Visitor preferences related to the use of interpretive labels and graphics directly on the Sphere and the speed in which visualizations rotate were studied. A total of 51 visitors were interviewed. Key findings include: 1. Three quarters of visitors preferred descriptive labels to be directly on the Sphere. 2. If labels were projected on the Sphere, almost all the visitors wanted them to disappear after a period of time. 3
The first phase of the evaluation, a front-end visitor study, assessing visitors' knowledge of and interest in space science and the cosmos, was conducted in May and June of 2000 at Boston's Museum of Science (MOS). The evaluation's second phase, a formative evaluation of the exhibition prototype, was completed in February of 2001 at the MOS. This summative report represents the third round of the evaluation process conducted by PERG, and is an evaluation of the current Cosmic Questions exhibition and related activities, based on data obtained by evaluators at two sites Boston's Museum of
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TEAM MEMBERS:
Joan KarpJudah LeblangSusan Baker CohenHarvard-Smithsonian Center for Astrophysics