This proposal calls for development, over five years, of a national, interactive, telecommunications-supported Network of 85 or more affiliated neighborhood technology learning centers in inner cities and other impoverished areas, for the purpose of attracting, and then nurturing underserved peoples' active involvement with math, science, and technology. Network affiliates will provide informal opportunities for disadvantaged minority young people and their families and friends to get access to, and learn to use, the most powerful tool for personal empowerment yet known, to engage in explorations designed to increase awareness of their ability to do math and science and of the potential for careers in these areas, and, through telecommunications, to involve themselves with distant peer groups in collaborative investigations. Such opportunities present attractive and cost-effective alternatives to the dead ends that street life, drugs, incarceration, and/or welfare offer. Success in achieving these goals depends, however, on the availability of continuing programmatic and staff development assistance, and on the ability of Network members to engage, not as disparate entities, but as a mutually supportive community, in this momentous task. Proposed Network services include (in addition to telecommunications linkages) the identification, development, and dissemination of technology-mediated math and science activities appropriate to community education, consultative planning and technical assistance, staff development workshops, the development of a resource database, and an annual all-affiliates meeting -- all these to be accompanied by systematized self-assessment procedures. Also included is the development of a Network infrastructure to support continued existence of the Network beyond the grant period.
The Franklin Institute Science Museum will develop, install and evaluate a museum-wide Interactive Computer Information System (ICIS) designed to enhance visitors' exhibit learning through museum-wide visitor information access and connectivity. ICIS will provide educational experiences for 1.2 million people per year, tailoring its information presentations to individual visitor needs and levels of knowledge. Exhibit based units will add advanced presentation functions beyond the usual graphics and text labels. ICIS will include 67 touchscreen-operated computer stations and six min- computers linking 27 exhibit areas in The Franklin Institute. This project is a collaboration between The Franklin Institute and the Unisys Corporation, which will provide over a five year period systems engineering, hardware, installation, maintenance and training of museum personnel valued at $2.4 million. An extensive evaluation plan will include studies of visitor-computer interaction, the economics and management of system maintenance, collaboration between museum and corporation and effectiveness of computer-based exhibit interpretation techniques. Project results will be disseminated through conference presentations, seminars and published articles.
The Computer Museum proposes to initiate a Computer Exhibits Kits Program whose goal will be to foster a better understanding of computer science and technology among the general public. The program proposes to develop and disseminate nine different kits, each consisting of a computer program, documentation, educational materials and, in some cases, specialized hardware. Other museums and science centers will be able to purchase these well tested kits at modest cost and implement them on personal computers to create exhibits for visitors ten years old and older. Strong support from other institutions suggests that the program will reach twenty million visitors a year.
The museum of Science and Industry, Chicago, in collaboration with the University of Chicago, proposes to develop a major new exhibit on "Imaging Science." Imaging science is a new field rapidly emerging from its roots in the physical, biological, and behavioral sciences, and the graphic arts, and is becoming increasingly important in all areas of scientific research. The primary rationale for developing an exhibit about imaging science, and related programming, is to enhance the overall scientific literacy of four million visitors that come to the Museum each year. In view of the scientific, medical, educational, and cultural value of images, the Museum and University of Chicago believe that an exhibit on imaging science will have broad appeal to museum visitors of many different ages and backgrounds. Today, scientific imaging empowers us to look inward, at the infinite complexity of ourselves, and outward to the edge of our universe. The main thrust of the exhibit will be to teach visitors how images communicate knowledge. Technological advances in computer workstations, that are revolutionizing scientific study, will be highlighted. Exhibit sections will also identify imaging science breakthroughs that will impact the lives of students and members of the workforce in the 1990s and beyond.
To provide the general public with an understanding of the basic principles that underlie the transmission, storage, and retrieval of information, the Fleet Center proposes to build SIGNALS, a 4,500 square foot exhibition. SIGNALS will be divided into three sections, of approximately 15 interactive exhibits each, which explore the physical principles of wave motion, the properties of electromagnetic pulses useful for communications, and the signal processing that enables us to handle information. An Advisory Committee comprised of highly qualified individuals at the leading edge of their fields will support development of SIGNALS; a very experienced team of exhibit developers will fabricate the exhibition. SIGNALS will become a permanent exhibition in an expanded Fleet Center, where it is expected to attract 1 million visitors a year, including at least 100,000 K-12 students. Since the lack of technological understanding is a national problem, we propose to build a 3,000 square foot traveling version of SIGNALS, contingent upon an NSF review of the completed permanent exhibition. The total cost for both exhibitions is $1,983,480. We are requesting $985,900 from NSF: $692,800 for the permanent exhibition and $293,100 for the traveling exhibition. The project will begin in June, 1992, and be completed by June, 1996.
The goal of the project is to produce a one hour television documentary and a series of video teaching modules which explore a wide range of scientific disciplines in an exciting manner by presenting the story of how these disciplines are used in the preparation and racing of an Indianapolis race car. This program will be distributed to a wide audience through its broadcast by PBS and cable sports networks; through dissemination to classrooms and museums nationwide; and through distribution via agencies that focus on bringing educational programs to youth and minorities across the country. We expect to attract a new audience to science, the millions of Americans who are infatuated by automobiles. This is an audience that cuts across age, ethnic and racial distinctions in America today. This exciting story of applied science should also appeal to American youth in a way that more traditional science stories do not. The major scientific disciplines involved in the project are: basic engineering, mathematics and physics, aerodynamics, materials science, mechanics, telemetry and computer aided design. This project is submitted to the Informal Science Education Program. The specific content of this project will be aimed at an audience with little background in science. High-school students and adults should be able to understand all the principles presented. Younger audiences will gain insight into how a knowledge of science is fundamental to a sport that many of them find fascinating.
Project Enhanced Science Learning (PESL) offers learning partners opportunities to engage in authentic scientific inquiry through apprenticeship. Such inquiry is often enabled by dynamic interactions among learning partners in physical proximity. Yet scientific and business practice using Internet and broadband services recognizes that not all partners necessary to an interaction can be co-located. Our vision uses new technologies to extend the collaborative "reach" of PESL to include diverse expertise among remote learners, teachers, and scientists. This work, in atmospheric sciences, extends collaborative media beyond asynchronous text-only email to shared workspaces and two-way audio/video connections that allow for collaborative visualization of science phenomena, data, models - What You See Is What I See (WYSIWIS). Tools for local- and wide-area networked learning environments will enable highly interactive, media-rich communications among learning partners. Research on these learning architectures will provide pedagogy and social protocols for authenticating the science learning experience in classrooms and other spaces. Greater motivation to learn and enhanced science learning in terms of more valid, performance assessments should result from students' participations. The next decade brings widespread, networked multi-media interpersonal computing. This project will provide a blueprint to inform the effective use of interpersonal collaborative media for science education.
The scientific community is challenged by the need to reach out to students who have traditionally not been attracted to engineering and the sciences. This project would provide a link between the University of Michigan and the teachers and students of secondary education in the State of Michigan with an initial emphasis on southeast Michigan, through the creation of a range of computer services which will provide interactive access to current weather and climate change information. Taking advantage of a unique computer network capacity within the State of Michigan named MichNet which provides local phone ports in virtually every major city in the state, and the resources available to the university community via the University Corporation for Atmospheric Research (UCAR) UNIDATA program, this project would provide secondary schools with access to a state-of-the-art interactive weather information system. The real-time data available via the system, supplemented by interactive computer modules designed in collaboration with earth science teachers, will provide animated background information on a range of climate and weather related topics. While the principal objective of this project will be to provide educationally stimulating interactive computer systems and electronic weather and climate modules for application in inner city Detroit and its environs, the unique nature of the available computer networking will allow virtually every school system in the state to have access. Subsequently successful completion of this project could eventually make the same systems available to other cities and states.