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1. Empower Community to Use LA City’s Data Portal and GeoHub for Public Good: The Perfect Marriages of GIS and Big Data, Education and the Urban Community, Public University and Nonprofits

   Scott-Johnson, P. (March 2020, CSU geospatial review)

   In 2018, California State University Los Angeles (Cal State LA) received a $1 M, 3-year National Science Foundation grant designed to use Big Data and geographic information system (GIS) science to promote active learning and curricular enhancements for community engagement and civic learning. We developed strategic partnerships with the City of Los Angeles Chief Data Officer, and with Community Partners’ Senior Program Director and Programs and Operations Manager. Each of these organizations offered the integrity and vitality necessary for engaging Cal State LA students and faculty, serving local nonprofits and communities, and promoting the City of Los Angeles’ data initiatives through the LA GeoHub and Open Data Portal (ArcNews 2016). This project closely aligns with the universities’ mission (Gomez et al. 2019) to transform local communities by providing underserved residents access to data and technology (Willner 2019). 

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2. The Billion Oyster Project and Curriculum and Community Enterprise for Restoration Science Curriculum: STEM+C Summer Institute Experiential Learning

   https://doi.org/10.5430/jct.v12n3p207  

   Birney, Lauren B.; Evans, Brian R.; Solanki, Vibhakumari; Mojica, Elmer-Rico; Scharff, Christelle; Kong, Joyce (March 2023, Journal of Curriculum and Teaching)

   The Billion Oyster Project and Curriculum and Community Enterprise for the Restoration of New York Harbor with New York City Public Schools (BOP-CCERS) program is a National Science Foundation (NSF) supported initiative and collaboration led by Pace University. One of Pace University’s NSF projects is STEM+C (Science, Technology, Engineering, and Mathematics plus Computing) designed to work with teachers and students in New York City public schools. This article presents results of a study conducted on the STEM Summer Institute at Pace University in Summer 2022. The purpose was to engage both teachers and students in harbor restoration and experiential learning in New York City including learning about vital ecology projects related to New York’s harbor such as oyster restoration, which is critical to cleaning pollutants in the New York Harbor. Findings revealed that students indicated improved oyster knowledge and restoration skills, scientific skills, collecting and analyzing data, and knowledge about STEM careers. Participating teachers indicated a positive impact on their knowledge of content and harbor restoration, pedagogical knowledge used to engage students in hands-on scientific learning, and methods of engaging and motivating their own students. Moreover, teachers indicated a positive outcome for exposing their students to STEM career options. 

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3. Ratepayer Perspectives on Mid- to Large-Scale Solar Development on Long Island, NY: Lessons for Reducing Siting Conflict through Supported Development Types

   https://doi.org/10.3390/en13215628  

   Schelly, Chelsea; Prehoda, Emily; Price, Jessica; Delach, Aimee; Thapaliya, Rupak (November 2020, Energies)

   null (Ed.)

   The state of New York has ambitious mandates for reducing greenhouse gas emissions and increasing renewable energy generation. Solar energy will play an important role in reducing greenhouse gas emissions from the electric energy sector. Concerns over solar installations’ impacts to host communities and the environment have led to growing conflicts over solar energy siting on Long Island, in other parts of New York, and throughout the US. Understanding community members’ perspectives is critical for reducing conflict. Solar energy can be deployed more quickly and at lower cost if projects are structured to address the concerns and meet the needs of the community. This paper presents the results of a survey of residential utility ratepayers that examined their perceptions, preferences, and priorities concerning mid- to large-scale solar development on Long Island (250 kW and larger). The survey asked respondents to consider specific installation types, financial models, and other aspects of solar development. Results indicate that respondents were overwhelmingly supportive of mid- to large-scale solar development in their communities. The most highly supported development types were solar systems on rooftops and solar systems that are co-located with other land uses (mixed use) at a particular site, such as parking canopies, landfills, or integration with agriculture. The most highly supported financial models included privately funded projects by local developers and community solar projects. The largest concern about solar development expressed by respondents did not involve tree removal or visibility (as initially hypothesized to be the most significant considerations) but rather the fairness of the distribution of economic benefits associated with solar development. This paper provides concrete insight into particular models of solar development that may invoke less conflict and more community support. 

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4. Virtually Engineering Community Engagement: Training for Undergraduate Engineers During the COVID-19 Pandemic

   https://doi.org/10.17730/1938-3525-81.3.217  

   Grace-McCaskey, Cynthia A.; D’Anna, Linda; Hagge, Kyra Selina; Etheridge, Randall; Smith, Raymond L. (August 2022, Human Organization)

   Flood mitigation and adaptation measures, among other tools to improve resiliency, will be necessary to sustain coastal communities in the face of climate change. Key to successful adaptation will be engineering projects, and critical to the success of those projects will be community engagement and support. Despite the recognized importance of community engagement when addressing complex issues like coastal flooding on which engineers work, most undergraduate engineering programs offer little to no training in community engagement. In this paper, we describe our experiences working with undergraduate engineering students to develop community-driven designs to address flooding and water quality issues in the Lake Mattamuskeet watershed in eastern North Carolina. Through an interdisciplinary approach, student teams learned to engage with local stakeholders to better integrate local knowledge and address issues identified by community members in their designs. Because of the COVID-19 pandemic, all community engagement aspects of the project moved to virtual forums, and we discuss the impact this shift had on the engineering designs as well as student learning outcomes and community connections. 

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5. The CROSS Incubator: A Case Study for funding and training RSEs

   https://doi.org/10.48550/ARXIV.2012.01144  

   Lieggi, Stephanie; Jimenez, Ivo; LeFevre, Jeff; Maltzahn, Carlos (November 2020, RSE-HPC – Introduction: Research Software Engineers in HPC: Creating Community, Building Careers, Addressing Challenges)

   The incubator and research projects sponsored by the Center for Research in Open Source Software (CROSS, cross.ucsc.edu) at UC Santa Cruz have been very effective at promoting the professional and technical development of research software engineers. Carlos Maltzahn founded CROSS in 2015 with a generous gift of $2,000,000 from UC Santa Cruz alumnus Dr. Sage Weil and founding memberships of Toshiba America Electronic Components, SK Hynix Memory Solutions, and Micron Technology. Over the past five years, CROSS funding has enabled PhD students to not only create re- search software projects but also learn how to draw in new contributors and leverage established open source software communities. This position paper will present CROSS fellowships as case studies for how university-led open source projects can create a real- world, reproducible model for effectively training, funding and sup- porting research software engineers. 

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