The expected national transformation of 21st Century science through cyberinfrastructure (CI) depends on adoption of new CI approaches across many science, technology, engineering and mathematics (STEM) domains. For STEM faculty and researchers who are unfamiliar with CI but are otherwise well prepared, the learning curve to adopt new technology is steep and tools are immature and difficult to use. Key issues are the need for 1) effective processes and mechanisms by which STEM professionals can learn to integrate CI into their work, and 2) development of empirically based theories about the diffusion of CI innovation in research settings so that effective processes and mechanisms can be designed and enacted. This project is developing a synergistic environment that will enable the STEM research community, including graduate students, faculty, and researchers, to engage in life-long, life-wide learning about emerging CI.

The goals of the project are to: create a virtual learning environment focused on techniques for data and information acquisition, management, curation, analysis, visualization, provenance, and discovery; engage local, regional, national and international STEM research and education communities in face-to-face and virtual settings; and continue to develop and extend our understanding, theories, concepts, and models of technology adoption and diffusion of CI innovation in interdisciplinary research settings. The project uses four activities to accomplish its goals: 1) collaborative development of a Virtual Learning Commons (VLC); 2) virtual workshops using videoconference technology and the VLC, 3) face-to-face working meetings, and 4) postdoctoral researcher and graduate student mentoring. All activities integrate research with education through problem-based, experiential learning by communities of practice in the context of real problem solving.

Intellectual Merit. This project will contribute new knowledge about virtual, collaborative learning about CI and through CI, developing a new, CI-enabled learning system. It will generate new communities of CI-enabled professional STEM researchers, in particular those working in the areas of data management, geospatial informatics, and visualization. It will generate new understanding of diffusion of existing and emerging CI innovations in the global STEM research community and new models of interdisciplinary, distributed collaboration between CI researchers and STEM researchers at all professional levels - graduate student to highly experienced. The project will provide a better understanding of interactions between virtual learning environments, communities of practice, and life-long, life-wide learning by researchers.

The project involves an experienced team of CI researchers from the University of Texas at El Paso (UTEP), University of Kansas (KU), and University of New Mexico (UNM) who are partnering with research communities in science and engineering education, geo-epidemiology, and information management at UNM, Los Alamos National Laboratory (LANL), and the National and International Long Term Ecological Research (LTER) Network. The project builds on models of collaborative learning generated from our previous CI-Team Demonstration and Implementation Projects to accomplish the objectives.

Broader Impacts. This project will have broad impacts within multiple STEM communities traditionally underrepresented in high-end scientific computing, as well as involving underrepresented minorities at two Hispanic Serving Institutions. The project will ensure that Hispanic students in STEM disciplines at UTEP receive the knowledge and skills that enable them to become leaders in CI-enabled STEM research, through mentoring Science and Engineering Educators at UTEP as they learn about and use CI within the VLC -- educating the educators. The project provides a model for moving communities to CI-based approaches that can be replicated in any STEM community. It will generate resources for the broad STEM research community to learn about data management - now a requirement for all NSF programs. It will also generate a new virtual space within which an emerging community of practice engaged in CI Workforce Development may begin to share resources and collaborate.

Project Report

The vision of this collaborative research infrastructure project (Univ. of Texas-El Paso, Univ. of New Mexico, and Univ. of Kansas) was to understand to what degree, and in what ways, virtual, social environments can enable the STEM community, including students, faculty and professionals, to engage around emerging information technologies and their potential application within scholarly work contexts. We approach those questions by applying existing, cutting edge technologies in a synergistic, useful way for the domain of biodiversity forecasting (i.e. species distribution modeling under future climate change scenarios, using the Univ. of Kansas Lifemapper modeling platform, http://wwww.lifmeapper.org); creating a Virtual Learning Commons (VLC) that facilitates diffusion of information about these technologies through semantic-based social media, and engaging four relevant STEM communities to encourage transformational, life long and life-wide learning about these technologies. Our hypothesis was that the tools provided by the VLC will lead to innovations in data-intensive research and education. We investigated the role of experiential and organizational learning in cyber-enabled research at a range of scales: individuals envisioning the use of information technology in their research through experiential learning; teams co-creating interdisciplinary science and technology research ideas through organized, collaborative learning; communities constructing a shared vision for applying information technology infrastructure; and network-wide transitions to information technology in data-intensive science. The goals of the project were to: 1: Create a Virtual Learning Commons (VLC) that contains information about technologies relevant to our collaborating communities, focused on developing techniques for geospatial data management, integration, analysis, visualization, provenance, and discovery; 2: Develop and extend our understanding, theories, concepts, and models of provenance of data, models, and ideas in the diffusion of innovations; and 3: Engage local, regional, national and international STEM research and education communities in both face-to-face and virtual settings to disseminate this information. At this time, the project is still ongoing, the VLC has not yet to be released. The modest University of Kansas contribution (this report) involved the creation of data (semantic metadata) for the computational integration of Lifemapper's species distribution modeling services with the VLC portal. The main effort in this project is still underway at the University of Texas-El Paso, D. Pennington, PI, NSF Award #1135525, and at the University of New Mexico, M. McConnell, PI, NSF Award #1135530.

Agency
National Science Foundation (NSF)
Institute
Division of Advanced CyberInfrastructure (ACI)
Type
Standard Grant (Standard)
Application #
1135510
Program Officer
Almadena Chtchelkanova
Project Start
Project End
Budget Start
2011-09-15
Budget End
2014-08-31
Support Year
Fiscal Year
2011
Total Cost
$30,000
Indirect Cost
Name
University of Kansas
Department
Type
DUNS #
City
Lawrence
State
KS
Country
United States
Zip Code
66045