This poster was presented at the 2010 Association of Science-Technology Centers Annual Conference. The Saint Louis Science Center is a partner in Washington University's Cognitive, Computational, and Systems Neuroscience interdisciplinary graduate program funded by the NSF-IGERT (Integrative Graduate Education and Research Traineeship) flagship training program for PhD scientists and engineers.
This Integrative Graduate Education and Research Training (IGERT) award supports the establishment of an interdisciplinary graduate training program in Cognitive, Computational, and Systems Neuroscience at Washington University in Saint Louis. Understanding how the brain works under normal circumstances and how it fails are among the most important problems in science. The purpose of this program is to train a new generation of systems-level neuroscientists who will combine experimental and computational approaches from the fields of psychology, neurobiology, and engineering to study brain function in unique ways. Students will participate in a five-course core curriculum that provides a broad base of knowledge in each of the core disciplines, and culminates in a pair of highly integrative and interactive courses that emphasize critical thinking and analysis skills, as well as practical skills for developing interdisciplinary research projects. This program also includes workshops aimed at developing the personal and professional skills that students need to become successful independent investigators and educators, as well as outreach programs aimed at communicating the goals and promise of integrative neuroscience to the general public. This training program will be tightly coupled to a new research focus involving neuro-imaging in nonhuman primates. By building upon existing strengths at Washington University, this research and training initiative will provide critical new insights into how the non-invasive measurements of brain function that are available in humans (e.g. from functional MRI) are related to the underlying activity patterns in neuronal circuits of the brain. IGERT is an NSF-wide program intended to meet the challenges of educating U.S. Ph.D. scientists and engineers with the interdisciplinary background, deep knowledge in a chosen discipline, and the technical, professional, and personal skills needed for the career demands of the future. The program is intended to catalyze a cultural change in graduate education by establishing innovative new models for graduate education and training in a fertile environment for collaborative research that transcends traditional disciplinary boundaries.
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TEAM MEMBERS:
Kurt ThoroughmanGregory DeAngelisRandy BucknerSteven PetersenDora Angelaki
Science must be open and accessible, and diffusion of knowledge should not be limited by patents and copyrights. After the Open Science Summit held in Berkeley, some notes about sharing scientific data and updating the social contract for science. Against the determinist view on technological and legal solutions, we need an explicit reflection on the relation between science and society. Both academic and industrial science seem unable to fulfill open science needs: new societal configurations are emerging and we should keep asking questions about appropriation, power, privatisation and
The Department of Computer Science and Engineering and DO-IT IT (Disabilities, Opportunities, Internetworking and Technology) at the University of Washington propose to create the AccessComputing Alliance for the purpose of increasing the participation of people with disabilities in computing careers. Alliance partners Gallaudet University, Microsoft, the NSF Regional Alliances for Persons with Disabilities in STEM (hosted by the University of Southern Maine, New Mexico State University, and UW), and SIGACCESS of the Association for Computing Machinery (ACM) and collaborators represent stakeholders from education, industry, government, and professional organizations nationwide.
Alliance activities apply proven practices to support persons with disabilities within computing programs. To increase the number of students with disabilities who successfully pursue undergraduate and graduate degrees, the alliance will run college transition and bridge, tutoring, internship, and e-mentoring programs. To increase the capacity of postsecondary computing departments to fully include students with disabilities in coursers and programs, the alliance will form communities of practice, run capacity-building institutes, and develop systemic change indicators for computing departments. To create a nationwide resource to help students with disabilities pursue computing careers and computing educators and employers, professional organizations and other stakeholders to develop more inclusive programs and share effective practices, the alliance will create and maintain a searchable AccessComputing Knowledge Base of FAQs, case studies, and effective/promising practices.
These activities will build on existing alliances and resources in a comprehensive, integrated effort. They will create nationwide collaborations among individuals with disabilities, computing professionals, employers, disability providers, and professional organizations to explore the issues that contribute to the underrepresentation of persons with disabilities and to develop, apply and assess interventions. In addition, they will support local and regional efforts to recruit and retain students with disabilities into computing and assist them in institutionalizing and replicating their programs. The alliance will work with other Alliances and organizations that serve women and underrepresented minorities to make their programs accessible to students with disabilities. Finally they will collect and publish research and implementation data to enhance scientific and technological understanding of issues related to the inclusion of people with disabilities in computing.
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TEAM MEMBERS:
Richard LadnerLibby CohenSheryl BurgstahlerWilliam McCarthy
Science communication is less a community of researchers, but more a space where communities of research coexist to study and deal with communities of researchers. It is, as a field, a consequence of the spaces left between areas of expertise in (late) modern society. It exists to deal with the fragmentations of expertise in today’s society. In between those fragments is where it lives. It’s not an easy position, but an awareness of this unease is part of how science communication scholars can be most effective; as we examine, reflect, debate and help others manage the inescapable cultural
'Be a Scientist!' is a full-scale development project that examines the impact of a scalable, STEM afterschool program which trains engineers to develop and teach inquiry-based Family Science Workshops (FSWs) in underserved communities. This project builds on three years of FSWs which demonstrate improvements in participants' science interest, knowledge, and self-efficacy and tests the model for scale, breadth, and depth. The project partners include the Viterbi School of Engineering at the University of Southern California, the Albert Nerken Engineering Department at the Cooper Union, the Los Angeles Museum of Natural History, and the New York Hall of Science. The content emphasis is physics and engineering and includes topics such as aerodynamics, animal locomotion, automotive engineering, biomechanics, computer architecture, optics, sensors, and transformers. The project targets underserved youth in grades 1-5 in Los Angeles and New York, their parents, and engineering professionals. The design is grounded in motivation theory and is intended to foster participants' intrinsic motivation and self-direction while the comprehensive design takes into account the cultural, social, and intellectual needs of diverse families. The science activities are provided in a series of Family Science Workshops which take place in afterschool programs in eight partner schools in Los Angeles and at the New York Hall of Science in New York City. The FSWs are taught by undergraduate and graduate engineering students with support from practicing engineers who serve as mentors. The primary project deliverable is a five-year longitudinal evaluation designed to assess (1) the impact of intensive training for engineering professionals who deliver family science activities in community settings and (2) families' interest in and understanding of science. Additional project deliverables include a 16-week training program for engineering professionals, 20 physics-based workshops and lesson plans, Family Science Workshops (40 in LA and 5 in NY), a Parent Leadership Program and social networking site, and 5 science training videos. This project will reach nearly one thousand students, parents, and student engineers. The multi-method evaluation will be conducted by the Center for Children and Technology at the Education Development Center. The evaluation questions are as follows: Are activities such as recruitment, training, and FSWs aligned with the project's goals? What is the impact on families' interest in and understanding of science? What is the impact on engineers' communication skills and perspectives about their work? Is the project scalable and able to produce effective technology tools and develop long-term partnerships with schools? Stage 1 begins with the creation of a logic model by stakeholders and the collection of baseline data on families' STEM experiences and knowledge. Stage 2 includes the collection of formative evaluation data over four years on recruitment, training, co-teaching by informal educators, curriculum development, FSWs, and Parent Leadership Program implementation. Finally, a summative evaluation addresses how well the project met the goals associated with improving families' understanding of science, family involvement, social networking, longitudinal impact, and scalability. A comprehensive dissemination plan extends the project's broader impacts in the museum, engineering, evaluation, and education professional communities through publications, conference presentations, as well as web 2.0 tools such as blogs, YouTube, an online social networking forum for parents, and websites. 'Be a Scientist!' advances the field through the development and evaluation of a model for sustained STEM learning experiences that helps informal science education organizations broaden participation, foster collaborations between universities and informal science education organizations, increase STEM-based social capital in underserved communities, identify factors that develop sustained interest in STEM, and empower parents to co-invest and sustain a STEM program in their communities.
The Museum of Science partnered with the Center for High-rate Nanomanufacturing to create a sequence of professional development experiences in science communication and hands-on learning for graduate students and post-docs. The Sharing Science Workshops were intended to help graduate students who work with the CHN program to improve their abilities to present their research to a variety of scientific and nonscientific audiences. The sequence included a half-day "Sharing Science" workshop, a half-day guided "Practicum" with museum visitors, and optional participation in NanoDays events at MOS
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
resourceprojectProfessional Development, Conferences, and Networks
This MSP-Start Partnership, led by Widener University, in partnership with Bryn Mawr College, Delaware County Community College, Philadelphia University, Lincoln University, and Haverford Township School District, is developing the Greater Philadelphia Environment, Energy, and Sustainability Science (ES)2 Teacher Leader Institute. Additional partners include the Center for Social and Economic Research at West Chester University, Delaware Valley Industrial Resource Center, Energy Coordinating Agency, US EPA Region 3 Office of Innovation, National Center for Science and Civic Engagement and its SENCER program, Pennsylvania Campus Compact, Philadelphia Higher Education Network for Neighborhood Development, Project Kaleidoscope, Sustainable Business Network of Greater Philadelphia, and the 21st Century Partnership for STEM Education. Building on a base of relationships developed over the past five years by many partners in the Math Science Partnership of Greater Philadelphia, the project brings together faculty and resources from multiple institutions (a "Mega-University" model) to develop a coherent, innovative, and content-rich, multi-year curriculum in environment, energy, and sustainability science for an Institute that leads to a newly developed Master's degree. Teachers participating in the Institute (A) improve their STEM content knowledge in areas critical to human environmental sustainability, (B) improve their use of project based/service learning and scientific teaching pedagogies in their teaching, (C) engage in real-world sustainability problem solving in an externship with a local business, non-profit or government organization that is active in the newly emerging green economy, and (D) develop important leadership skills as change agents in their schools to improve student interest, learning, and engagement in STEM education. The Institute aims to serve as a regional hub, connecting educational, business, non-profit and government organizations to strengthen the STEM education and workforce development pipelines in the region and simultaneously support positive social change toward environmental sustainability and citizenship. The project's "Mega-University" and "Institute as a regional connector-hub" approaches are powerful models of collaboration that could have widespread and significant national applicability as organizations and systems adjust to the new challenges of our global economy and to the needed transition to sustainability.
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TEAM MEMBERS:
Stephen MadigoskyWilliam KeilbaughVictor DonnayBruce GrantThomas Schrand
This research study involves collaboration between researchers at the University of Maryland, College Park and Bowie State University, an HBCU, to examine a multi-component pre-service model for preparing minority students to teach upper elementary and middle level science. The treatment consists of (1) focused recruitment efforts by the collaborating universities; (2) a pre-service science content course emphasizing inquiry and the mathematics of data management; (3) an internship in an after school program serving minority students; (4) field placements in Prince Georges County minority-serving professional development schools; and (5) mentoring support during the induction year. The research agenda will examine each aspect of the intervention using quantitative and qualitative methods and a small number of case studies.
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TEAM MEMBERS:
James McginnisSpencer BensonScott Dantley
The following three case studies are descriptive and evaluative in nature, and are designed to describe, explain, and portray in some detail three examples of COSIA partnerships. These cases are context bound; the place-based aspect of these cases is critical to the phenomenon being explored. Consistent with the goal for employing a case study approach for COSIA (Communicating Ocean Sciences to Informal Audiences) is the approach if investigating a phenomenon within the context of the places and partners involved. While each of these COSIA partnership sites are involved in other important and
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Mark St. JohnUniversity of California, Berkeley
True to the design we formulated in our proposal, the Inverness Research evaluation studied the COSIA project on two levels: Partnerships and Contributions. The logic underlying these two layers of study is as follows: COSIA creates working and complex partnerships that serve as the engine for the development of new resources and programs. These resources and programs in turn make multiple contributions, ranging from increased institutional capacity, to more skilled delivery of programs by college students and ISEI staff, to benefits for research scientists, to an increased public
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TEAM MEMBERS:
Michelle PhillipsMark St. JohnUniversity of California, Berkeley