This CPATH award funds an extension of a prior community building award to expand the studio learning model on a national scale. A team of four computing faculty and three evaluators will address this challenge in a carefully orchestrated 30-month national project in which faculty development workshops will train ten to fifteen computing educators to teach up to twenty courses taken by a variety of computing and IT majors at ten to fifteen community colleges and universities across the country, with each course taught once in a studio-based format and once in a traditional format. A rich set of data, including pre- and post-tests, pre- and post-surveys, student interviews, and instructor reports, will be collected and analyzed in order to evaluate the impact of SBL.

The instructional methods most commonly employed today in computing education are not a good match for computing careers of the future. Instruction tends to focus more on programming and less on computational thinking, design, and problem solving. Labs and homework assignments are generally geared toward individual and isolated work rather than communication, collaboration, presentation and critiquing. This not only runs the risk of turning students off to computing as a discipline, but also fails to prepare students for tomorrow?s computing careers that require skills in communication, collaboration and critical analysis, as well as computational thinking, design and problem solving. The Studio-Based Learning (SBL) model has the potential to train students in these skills, make learning computing both engaging and effective, and thus trigger a fundamental shift in computing education.

Intellectual merits: The broad implementation and systematic evaluation of the SBL model has the potential to significantly expand the knowledge base on effective and engaging methods of computing education. Since the investigators' work on SBL dates back to the late 1990s, by the end of the proposed project, the collaborative group will have accumulated over a decade of data, theoretical analyses and practical information on the implementation and impact of SBL. Furthermore, five years' worth of systematic implementation and evaluation results will have accrued from a variety of computing courses, from a variety of institutions across the country, and for a broad spectrum of undergraduate students, making this one of the longest and most systematic evaluation of a pedagogical approach in computing education. Results from the project will therefore enrich both the theory and practice of computing education.

Broader impacts: The national implementation should enable a large and diverse group of undergraduates in a variety of computing majors from across the country, in different types of institutions, and in different levels and types of computing courses, to benefit from SBL. In turn, this has the potential to form the beginnings of a convincing case for an even broader adoption of the approach. The ultimate benefit will be not only that students find the computing curriculum less intimidating and more engaging, but also that they are prepared for careers that increasingly require skills of computational thinking, design and problem solving, collaboration and communication. The project includes implementation in several EPSCOR states and minority-serving institutions. The activities of this project, evaluation results, and practical resources will be widely disseminated not only through the traditional means of papers, presentations and meetings, but also through a feature-rich community portal and other non-traditional means. Finally, this project's results could also benefit other science and engineering curricula because design and problem solving play important roles in all of science and engineering.

Agency
National Science Foundation (NSF)
Institute
Division of Computer and Network Systems (CNS)
Type
Standard Grant (Standard)
Application #
0939055
Program Officer
Harriet G. Taylor
Project Start
Project End
Budget Start
2010-01-01
Budget End
2014-09-30
Support Year
Fiscal Year
2009
Total Cost
$420,599
Indirect Cost
Name
Auburn University
Department
Type
DUNS #
City
Auburn
State
AL
Country
United States
Zip Code
36849