ITR: A Networked, Media-Rich Programming Environment to Enhance Informal Learning and Technological Fluency at Community Technology Centers The MIT Media Laboratory and UCLA propose to develop and study a new networked, media-rich programming environment, designed specifically to enhance the development of technological fluency at after-school centers in economically disadvantaged communities. This new programming environment (to be called Scratch) will be grounded in the practices and social dynamics of Computer Clubhouses, a network of after-school centers where youth (ages 10-18) from low-income communities learn to express themselves with new technologies. We will study how Clubhouse youth (ages 10-18) learn to use Scratch to design and program new types of digital-arts projects, such as sensor-controlled music compositions, special-effects videos created with programmable image-processing filters, robotic puppets with embedded controllers, and animated characters that youth trade wirelessly via handheld devices. Scratch's networking infrastructure, coupled with its multilingual capabilities, will enable youth to share their digital-arts creations with other youth across geographic, language, and cultural boundaries. This research will advance understanding of the effective and innovative design of new technologies to enhance learning in after-school centers and other informal-education settings, and it will broaden opportunities for youth from under-represented groups to become designers and inventors with new technologies. We will iteratively develop our technologies based on ongoing interaction with youth and staff at Computer Clubhouses. The use of Scratch at Computer Clubhouses will serve as a model for other after-school centers in economically-disadvantaged communities, demonstrating how informal-learning settings can support the development of technological fluency, enabling young people to design and program projects that are meaningful to themselves and their communities.
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TEAM MEMBERS:
Mitchel ResnickJohn MaedaYasmin Kafai
The goal of this evaluation was to assess issues of user friendliness, appeal and comprehension related to the Cyberchase website’s homepage, web adventures, weekly polls and games. Cyberchase is the Emmy Award-winning mathematics series and website on PBS KIDS GO! using broadcast, web, new media and educational outreach to impact millions nationwide. Designed for children ages 8 to 11 and packed with mystery, humor, and action, Cyberchase’s mission is to improve kids' problem-solving and math skills, and inspire them with confidence and enthusiasm toward math. The TV series airs daily on PBS
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TEAM MEMBERS:
Barbara FlaggSandra SheppardCarey BolsterMichael TempletonThirteen/WNET
Quarked!™ is a collaborative physics education project at the University of Kansas that provides engaging and educational science experiences for youth ages 7 and up, educators and the general public. This multimedia project material focuses on concepts of scale and matter, and presents subatomic particles as relatable characters in both human and quark or electron form that explore science through story-driven adventures. It includes a comprehensive website with a range of materials including animated videos, games, apps, FAQs and lesson plans, as well as hands-on education programs at the University of Kansas Natural History Museum. Initially, funded through an NSF EPSCoR grant (Grant No. EPS-0236913 and matching support from the State of Kansas through the Kansas Technology Enterprise Corporation and EPP-0354836), this projects continued to grow and new resources have been added through funding from the Kauffman Foundation, Google grants and other NSF awards. Quarked.org attracts more than 75,000 unique visitors annually, local PBS television stations in Kansas and Missouri broadcast the 3D animated videos, and the museum programs have reached more than than 5,000 school participants and continue to be offered.
This 12-month planning grant will create the foundation for a project based on meaningful, online, game-based learning. Specifically, it will enable the proposer to develop and validate story lines and game characters with middle-school aged children in two summer design institutes. In addition, the proposer will build partnerships with museums and informal learning institutions and develop a plan to work with these partners for the dissemination, promotion, use and evaluation of the future games. Intellectual Merit: The project will develop standards-linked design specifications for play scenarios, game characters and real-world, problem-based activities across STEM domains. These design specifications should be of significant value for future educational game development. Children will serve as "informants" during game design, providing input where most effective. This involvement in the planning process is critical to the success of the games, and should ensure the desired "kid appeal." Broader Impact: The strategy of involving advisory groups of children, including those at-risk, will allow the project to factor in ways to engage audiences underrepresented in the sciences by tailoring characters and activities that ensure broad appeal. In addition, the approach of solving puzzle-like problems embedded in a game's story narrative should appeal to both boys and girls. This project will generate a report for publication on the design process and resulting specifications.
We propose to leverage the power of the Internet and the appeal of on-line gaming environments for middle school students to create a new type of learning resource in science. Case histories of medical discovery will be transformed into "problem- based" multimedia mysteries for students to solve. Through prior research we have developed and field tested a working model for an adventure series that engages middle school students. We propose to extend the model to new content. Assuming the on-line role of a Reconstructor who seeks lost medical knowledge from the past, students will unravel the origins of specific diseases or medical discoveries. The learning objectives for each episode will be multidisciplinary. The goal is to engage students in constructing their own knowledge by participating in virtual experiments, by helping them establish a context for the discoveries, and by understanding issues involved in forming public health policy. An experienced team representing medicine, biology, history of science, education, and information technology will oversee the project, assuring the integrity of the site content, and incorporating cutting edge technology. A process of iterative prototyping, focusing heavily on teachers and students will be employed to make the resource site exciting, educational, and useful in classrooms, in homes, and in museums. The field tests will be conducted in schools, representing a cross-section of the community, assuring appropriate presentation of materials to target populations.