This Research Advanced by Interdisciplinary Science and Engineering (RAISE) project is supported by the Division of Research on Learning in the Education and Human Resources Directorate and by the Division of Computing and Communication Foundations in the Computer and Information Science and Engineering Directorate. This interdisciplinary project integrates historical insights from geometric design principles used to craft classical stringed instruments during the Renaissance era with modern insights drawn from computer science principles. The project applies abstract mathematical concepts toward the making and designing of furniture, buildings, paintings, and instruments through a specific example: the making and designing of classical stringed instruments. The research can help instrument makers employ customized software to facilitate a comparison of historical designs that draws on both geometrical proofs and evidence from art history. The project's impacts include the potential to shift in fundamental ways not only how makers think about design and the process of making but also how computer scientists use foundational concepts from programming languages to inform the representation of physical objects. Furthermore, this project develops an alternate teaching method to help students understand mathematics in creative ways and offers specific guidance to current luthiers in areas such as designing the physical structure of a stringed instrument to improve acoustical effect.
The project develops a domain-specific functional programming language based on straight-edge and compass constructions and applies it in three complementary directions. The first direction develops software tools (compilers) to inform the construction of classical stringed instruments based on geometric design principles applied during the Renaissance era. The second direction develops an analytical and computational understanding of the art history of these instruments and explores extensions to other maker domains. The third direction uses this domain-specific language to design an educational software tool. The tool uses a calculative and constructive method to teach Euclidean geometry at the pre-college level and complements the traditional algebraic, proof-based teaching method. The representation of instrument forms by high-level programming abstractions also facilitates their manufacture, with particular focus on the arching of the front and back carved plates --- of considerable acoustic significance --- through the use of computer numerically controlled (CNC) methods. The project's novelties include the domain-specific language itself, which is a programmable form of synthetic geometry, largely without numbers; its application within the contemporary process of violin making and in other maker domains; its use as a foundation for a computational art history, providing analytical insights into the evolution of classical stringed instrument design and its related material culture; and as a constructional, computational approach to teaching geometry.
This project is funded by the National Science Foundation's (NSF's) Advancing Informal STEM Learning (AISL) program, which supports innovative research, approaches, and resources for use in a variety of learning settings.
In this article, science center and museum professionals from around the world share ways that they are engaging visitors in hands-on innovation. Work from the following organizations are discussed: Exploratorium, Discovery Center of Idaho, Lawrence Hall of Science, Iridescent, Conner Prairie Interactive History Park, Ideum, Discovery Place, Ontario Science Centre, Bootheel Youth Museum, Science Centre Singapore, Children's Museum of Phoenix, Discovery Museums (Acton, MA), Discovery Center of Springfield, Missouri, Museum of Science, Boston, Questacon--The National Science and Technology
The Institute for Learning Innovation, in collaboration with Mary Miss Studio and the Institute for Urban Design, is conducting an exploratory research and development project on sustainable practices related to the built infrastructure of New York City. The work will (1) pilot test and study new interpretive strategies for urban "place-based" public learning experiences that focus pedestrians' attention on a city's ecology and existing built sustainability infrastructure; (2) engage urban design professionals and STEM researchers to explore how these new strategies have the potential to transform how urban design fields inform, dialog and interact with the public about sustainable urban design and planning; and (3) assess the effectiveness of these public interpretation programs on STEM learning beyond traditional Informal Science Learning Environments (ISEs) such as science museums. Project participants also include faculty from the City College of NY Graduate Program in Urban Design, STEM faculty from Columbia University, and staff of the Provisions Library in Washington, D.C. The project is an early phase of the "City as Living Laboratory" initiative that can leverage the Rockefeller Foundation-funded Urban Design Week program in New York City scheduled to occur September 15 - 20, 2011. This request to NSF adds an additional track to the process to specifically focus on STEM learning and urban sustainability. From the promotional materials: "The Institute for Urban Design is currently preparing for the first annual Urban Design Week, a public festival created to engage New Yorkers in the fascinating and complex issues of the public realm and celebrate the city's exceptional urbanity. Through a rich roster of charettes, summits, installations, film screenings, exhibitions, and tours, Urban Design Week will draw in citizens from every borough and walk of life and highlight the idea that cities are made by collective effort, and that each of us can be a part of that great endeavor." The project goal is to generate new models for public engagement with science in the city environment and to explore how urban designers and planners, as they design for sustainability, can more effectively collaborate with STEM researchers and with the public. The project has both research and programmatic deliverables. Research activities include: Public Audiences: observational study of pedestrians in the installation environment; intercept surveys of the public about their experiences with the streetscape installations. Professional Audiences: pre-installation surveys on the role of public space science interpretation for altering public discourse about urban planning and sustainable cities; focus group assessment of professionals' experiences with observing public interactions with the installations; online delayed- post experience survey on learning outcomes in terms of knowledge, attitude, motivation and anticipated impacts on professional practices; analysis of blog postings and public media surrounding the installation; survey of attendees at an ISE forum on the project, its goals, outcomes and potential for future developments. Programmatic deliverables include: a workshop that engages urban design students in the development of experimental streetscape installations; a pilot installation on streets in the City College of NY (consistent with approvals already received by NYC Dept. of Transportation); a City as Living Laboratory art-science workshop for Urban Design Week professionals to highlight possible benefits of inter-disciplinary collaboration; a panel discussion around new forms of citizen engagement through a "city as a science learning environment"; a forum specifically for ISE professionals to explore the research findings and potential for use as a strategy to increase science learning in city places.
In this article, Marjorie Schwarzer, Professor of Museum Studies at John F. Kennedy University in Berkeley, California, describes eleven of the most influential exhibitions from the 20th century, according to NAME members surveyed for her book "Riches, Rivals and Radicals: 100 Years of Museums in America."
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Marjorie Schwarzer
resourceprojectProfessional Development, Conferences, and Networks
Arizona State University is conducting a May 2010 two-day workshop that will bring together "Next Generation" (NextGen) science communicators (writers, journalists, bloggers, documentary filmmakers, museum professionals); NextGen scholars/researchers in science and technology policy; and publication editors. The goals are: to help improve the communications skills of these professionals, to encourage collaborations of communicators and scholars, and, ultimately, to help the public gain a better understanding of the policy dimensions of STEM by encouraging more effective communications about STEM and policy issues that affect their lives. The workshop provides direct experience in a writing genre called "narrative nonfiction" or "creative nonfiction," a domain in which Gutkind has been a leader. The co-PI, Guston, is a scholar in science and technology policy and an active partner of the NSF-funded Nanoscale Informal Science Education Network. In addition, the Spring 2011 issue of Issues in Science and Technology will include works by the collaborating communicators/scholars. This workshop precedes and informs a larger conference on science policy, The Rightful Place of Science?," funded by others, including NSF's Science, Technology, and Society program.
The University of Central Florida Media Convergence Laboratory, New York Hall of Science, and the Queens Museum of Art are developing a 3-D, multi-user virtual environment (MUVE) of the 1964/65 New York World's Fair. Virtual fairgoers of all ages will be immersed in an accurately modeled historical world with more than 140 pavilions on science, technology, engineering, and mathematics (STEM) disciplines and an array arts and humanities exhibits. The virtual world can be freely explored through self-designed avatars, and avatar-led guided tours. Discovery Points throughout the virtual environment will afford opportunities for in-depth engagement in STEM topics that will empower participants to explore the broader consequences of technological innovations. The centerpiece of user-generated content is FutureFair, an area where online users can create and share their personal visions of the future. Interconnections reaches beyond its virtual component through its partnership with the New York Hall of Science and the Queens Museum of Art, which are both situated in the heart of Queens in Flushing Meadows Corona Park, a 1255 acre urban park that hosted the 1939/1940 and 1964/65 Fairs. The New York Hall of Science will provide face-to-face youth workshops that employ problem-based learning. Single and multi-session programs will connect adolescents to STEM content presented at the Fair through the virtual world environment. Participants will create multimedia content for inclusion in the project's website. Multi-touch interactive stations at the Queens Museum of Art will enhance their NY World's Fair Exhibit Hall by empowering visitors to individually or collectively explore various STEM topics and the symbiotic relationships between STEM and the humanities, and by serving as an attractor for visitors to the online Fair exploration. The project will be completed in time for the 50th Anniversary celebration of the 1964 World's Fair. Building upon prior research on learning in virtual worlds, the project team will investigate how STEM concepts are advanced in a simulated multi-user virtual environment and studying the effectiveness of using Virtual Docents as enhancements to the informal learning process. The research and development deliverables have strong potential to advance the state of informal science education, research on modeling and simulation in virtual world development, and education research. Michigan Technological University will conduct the project formative and summative evaluations.
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Lori WaltersMichael MoshellCharles HughesEileen Smith