This poster, which was presented in Alexandria, VA at the CAISE AISL PI meeting in February 2019, summarizes the LabVenture informal learning experience and the research challenge of leveraging a learning ecosystem frame to understand effects this statewide program may have had over its 14+ years at the student, teacher, school, and community levels.
This article shares the results and reflections on the research process conducted by the Maloka Interactive Museum (https://www.maloka.org/) regarding the implementation of the policy that extends the school day in public schools in Bogotá. Based on ethnographic observations, focus groups and interviews with the participants, the text concludes that the communication and education process about science and technology can be understood as a social practice of knowledge exchange among heterogeneous participants whose intention is to promote transformations within their specific settings.
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TEAM MEMBERS:
Gonzalo PeñalozaLina QuijanoSigrid FallaSara Marquez
This exploratory learning research and design project will study how to use emerging technologies to help document practices in maker-based learning experiences. Despite its established potential for consolidating learning and sense-making, project documentation is often overlooked, not prioritized or seen as burdensome and therefore not integrated into the learning experiences. The project team seeks to understand and address with practice partners the barriers to documentation by systematically exploring how to physically embed and incorporate smart tools and documentation practices into learning environments, specifically creative hands-on learning spaces, like makerspaces. The goal is to understand how to scaffold learners to become more aware, reflective and attentive to their progress towards learning outcomes by embedding supportive tools physically in space as the actions unfold. Making and maker-based learning experiences offer tremendous opportunities to more fully engage diverse learners in STEM education and build a workforce prepared for innovation. Documentation of these learning experiences, both as an authentic practice that professionals engage in as well as an assessment practice for instruction, is often not supported. The project will create open source documentation for solutions and develop supporting case studies, web resources and guides to facilitate easy uptake and adoption of promising approaches.
This proposal will make significant research contributions in three ways: (1) develop and iteratively test a suite of embedded "smart" tools designed to scaffold, manage and trace process documentation practices; (2) study the integration of these tools in formal and informal activities and programs settings and characterize their influence on instruction and the assessment of learning outcomes; (3) establish a set of rubrics based on learner data streams to aid instruction and mark learner progress. Improving documentation practices and the assessment of learning outcomes will advance making as a core STEM educational activity. Through a better understanding of why and how to place networked documentation tools sensitive to space, time and context cues, the threshold for enactment and scaffolded usage can be lowered in a broader range of settings. Ultimately, this exploratory project will not only develop an integrated set of situated documentation tools, but also help us develop hypotheses for how documentation as a mediating process productively supports learning.
The Discovery Research K-12 program (DRK-12) seeks to significantly enhance the learning and teaching of science, technology, engineering and mathematics (STEM) by preK-12 students and teachers, through research and development of innovative resources, models and tools (RMTs). Projects in the DRK-12 program build on fundamental research in STEM education and prior research and development efforts that provide theoretical and empirical justification for proposed projects. The Multimedia Immersion (MI) project is will develop, pilot, and evaluate a nine-week STEM-rich multimedia production course for high school students. MI will make important contributions to the field through its efforts to design and evaluate the promises and challenges of a nine-week multimedia curriculum in multiple urban high schools. The MI course will engage teams of students to develop a personally and socially relevant storyline that guides their use of accessible audio and video technologies to create a five-minute animated video. To develop student STEM experience and provide technical support, the project will provide guidance and learning experiences in engineering (e.g., criteria, constraints, optimization, tradeoffs), science (e.g. sound, light, energy, mechanics) and multimedia technologies (e.g., computer based audio production, video editing and visualizations through animatics (i.e., shooting a succession of storyboards with a soundtrack). animatics).
Because the curriculum situates engineering and science learning in the context of multimedia production, there are natural synergies with several existing high school courses including engineering design, audio/video media production, and multimedia technology. Although these courses are typically electives in high school, developing a 5-minute animated short on a topic of interest may encourage girls and students from underrepresented groups to select this course over other electives. MI will impact 10 teachers and approximately 250 high school students per year. The project will result in the following resources: nine-week curricular unit (multimedia, science, engineering); assessments to monitor student learning of science, engineering and technology (design logs); and research on changes in student knowledge, interest, and a nine-week curricular unit (multimedia, science, engineering). Project resources will be disseminated to teachers, researchers, and curriculum and professional development providers via conference presentations, publications, and online webinars.
The MI project builds on student familiarity and interest in music, video and technology to promote an: (1) understanding of engineering design and physics and an (2) an appreciation of the fundamental role of STEM in popular culture. Project evaluation will be conducted using student surveys and an examination of work products in conjunction with implementation challenges and successes to generate evidence for the feasibility and utility of a high school multimedia course that explicitly addresses science and engineering learning. Project evaluation will use student design logs as a window into student design processes and conceptual understanding. Student design logs are an essential feature of MI curriculum design. With an appropriate structure, these design logs can inform teaching, afford an opportunity for students to reflect on their own work, and provide evidence of student thinking and learning for assessment purposes. Using student design logs as a window into students? design process and conceptual understanding is an important contribution to the engineering education community which has few options for measuring student knowledge in ways that are consistent with the hands-on, iterative nature of the design process.
The Discovery Research K-12 program (DR-K12) seeks to significantly enhance the learning and teaching of science, technology, engineering and mathematics (STEM) by preK-12 students and teachers, through research and development of innovative resources, models and tools (RMTs). Projects in the DRK-12 program build on fundamental research in STEM education and prior research and development efforts that provide theoretical and empirical justification for proposed projects. This project scales up the PBS NewsHour Student Reporting Labs (SRL), a model that trains teens to produce video reports on important STEM issues from a youth perspective. Participating schools receive a SRL journalism and digital media literacy curriculum, a mentor for students from a local PBS affiliate, professional development for educators, and support from the PBS NewsHour team. The production of news stories and student-oriented instruction in the classroom are designed to increase student learning of STEM content through student-centered inquiry and reflections on metacognition. Students will develop a deep understanding of the material to choose the best strategy to teach or tell the STEM story to others through digital media. Over the 4 years of the project, the model will be expanded from the current 70 schools to 150 in 40 states targeting schools with high populations of underrepresented youth. New components will be added to the model including STEM professional mentors and a social media and media analytics component. Project partners include local PBS stations, Project Lead the Way, and Share My Lesson educators.
The research study conducted by New Knowledge, LLC will add new knowledge about the growing field of youth science journalism and digital media. Front-end evaluation will assess students' understanding of contemporary STEM issues by deploying a web-based survey to crowd-source youth reactions, interest, questions, and thoughts about current science issues. A subset of questions will explore students' tendencies to pass newly-acquired information to members of the larger social networks. Formative evaluation will include qualitative and quantitative studies of multiple stakeholders at the Student Reporting Labs to refine the implementation of the program. Summative evaluation will track learning outcomes/changes such as: How does student reporting on STEM news increase their STEM literacy competencies? How does it affect their interest in STEM careers? Which strategies are most effective with underrepresented students? How do youth communicate with each other about science content, informing news media best practices? The research team will use data from pre/post and post-delayed surveys taken by 1700 students in the STEM Student Reporting Labs and 1700 from control groups. In addition, interviews with teachers will assess the curriculum and impressions of student engagement.
This research in service to practice project will examine the impact of a 12-year statewide science field trip program called LabVenture. This hands-on program in discovery and inquiry brings middle school students and teachers across the State of Maine to the Gulf of Maine Research Institute (GMRI) in Portland, Maine to become fully immersed in explorations into the complexities of local marine science ecosystems. These intensive field trip experiences are led by informal educators and facilitated entirely within informal contexts at GMRI. Approximately 70% of all fifth and sixth grade students in Maine participate in the program each year and more than 120,000 students have attended since the program's inception in 2005. Unfortunately, little is known to date on how the program has influenced practice and learning ecosystems within formal, informal, and community contexts. As such, this research in service to practice project will employ an innovative research approach to understand and advance knowledge on the short and long-term impacts of the program within different contexts. If proven effective, the LabVenture program will elucidate the potential benefits of a large-scale field trip program implemented systemically across a community over time and serve as a reputable model for statewide adoption of similar programs seeking innovative strategies to connect formal and informal science learning to achieve notable positive shifts in their local, statewide, or regional STEM learning ecosystems.
Over the four-year project duration, the project will reach all 16 counties in the State of Maine. The research design includes a multi-step, multi-method approach to gain insight on the primary research questions. The initial research will focus on extant data and retrospective data sources codified over the 12-year history of the program. The research will then be expanded to garner prospective data on current participating students, teachers, and informal educators. Finally, a community study will be conducted to understand the potential broader impacts of the program. Each phase of the research will consider the following overarching research questions are: (1) How do formal and informal practitioners perceive the value and purposes of the field trip program and field trip experiences more broadly (field trip ontology)? (2) To what degree do short-term field trip experiences in informal contexts effect cognitive and affective outcomes for students? (3) How are community characteristics (e.g., population, distance from GMRI, proximity to the coast) related to ongoing engagement with the field trip program? (4) What are aspects of the ongoing field trip program that might embed it as an integral element of community culture (e.g., community awareness of a shared social experience)? (5) To what degree does a field trip experience that is shared by schools across a state lead to a traceable change that can be measured for those who participated and across the broader community? and (6) In what ways, if at all, can a field trip experience that occurs in informal contexts have an influence on the larger learning ecosystem (e.g., the Maine education system)? Each phase of the research will be led by a team of researchers with the requisite expertise in the methodologies and contexts required to carry out that particular aspect of the research (i.e., retrospective study, prospective study, community study). In addition, evaluation and practitioner panels of experts will provide expertise and guidance on the research, evaluation, and project implementation. The project will culminate with a practitioner convening, to share project findings more broadly with formal and informal practitioners, and promote transfer from research to practice. Additional dissemination strategies include conferences, network meetings, and peer-reviewed publications.
The potential insights this research could garner on intersectionality between formal and informal STEM learning are substantial. As a consequence, this project is co-funded by the Advancing Informal STEM Learning (AISL) and Discovery Research K-12 (DRK-12) Programs. The Advancing Informal STEM Learning (AISL) program seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. Likewise, the Discovery Research-K12 Program seeks to significantly enhance the learning and teaching of science, technology, engineering and mathematics (STEM) by preK-12 students and teachers, through research and development of innovative resources, models and tools.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
Informal STEM education needs high quality program evaluation. Research is particularly needed on the relationship between STEM outcomes and positive youth development (PYD) / socio-emotional learning (SEL). This pilot and feasibility project involves a collaboration between experts in STEM education, out-of-school time programs (OST), PYD, SEL, evaluation, and program development. STEM Scouts helps youth grow in character and develop skills using experiential activities and interaction with STEM professionals. This project expands the implementation of the Systems Evaluation Protocol (SEP), an evidence-based approach to evaluation planning.
The goals are to: 1) develop a theory of change for STEM Scouts highlighting the relationship between STEM outcomes and PYD/SEL outcomes; 2) pilot enhancements to the SEP (System Mapping, Ecosystem Modeling, and Model Validation); and, 3) determine the feasibility of conducting a national STEM Scouts study. STEM Scouts leadership and project researchers will work through the SEP to generate a stakeholder map, logic model, and pathway model (PM). Five STEM Scouts Labs across the country will participate in focus groups where they will complete SM to identify the system in which the Lab exists (e.g., stakeholders and decision-makers), review and revise their system maps, identify key outcomes and connections in the PM, and discuss how the PM reflects their STEM Scouts experiences. It is hypothesized the enhanced SEP will enable the working group to better understand factors hindering or enabling program and evaluation feasibility and success. Findings will be disseminated to the evaluation/research community, OST program providers/developers and the public.
This project is funded by the National Science Foundation's Advancing Informal STEM Learning (AISL) program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments.
The ACCEYSS (Association of Collaborative Communities Equipping Youth for STEM Success) Network and Model project, an NSF INCLUDES Design and Development Launch Pilot, at Texas State University is forming a university-community partnership between interdisciplinary researchers (ACCEYSS research team), faith leaders and other community partners to implement an innovative model that prepares underrepresented and underserved youth to pursue undergraduate science, technology, engineering, and mathematics (STEM) degrees. The inaugural ACCEYSS network will include Texas State University, San Marcos Consolidated Independent School District, San Marcos Youth Service Bureau, City of San Marcos-Office of the City Manager, Hays County Youth Initiative, the Calaboose African American History Museum, and several local faith-based organizations. Many historic advancements have been made through the efforts and activities of faith and community leaders uniquely poised to motivate and galvanize community-based action. A collaboration among these academic institutions, social/cultural organizations, and faith partners to work with the families and youth of underrepresented/underserved populations will be an essential asset for generating new perspectives and ideas for improving STEM academic and career outcomes related to broadening participation in the scientific enterprise.
During this launch pilot, the ACCEYSS research team and network will collaborate to design and develop the ACCEYSS model as a culturally-relevant, blended-learning strategy that integrates online and in-person STEM enrichment activities (e.g., summer institute, afterschool clubs) that are aligned with the Science and Engineering Practices and Disciplinary Core Ideas Dimensions of the K-12 Next Generation Science Education Standards. The collective impact framework will be used to build diverse capacity, leverage asset-based community development, and sustain mutually reinforcing non-exclusive policies and practices for STEM diversity and inclusion. Additionally, in this launch pilot, a multifaceted design-based research approach will be utilized to support middle and high school students' interest in and pursuit of STEM studies.
This project, an NSF INCLUDES Design and Development Launch Pilot, managed by the University of Nevada, Reno, addresses the grand challenge of increasing underrepresentation regionally in the advanced manufacturing sector. Using the state's Learn and Earn Program Advanced Career Pathway (LEAP) as the foundation, science, technology, engineering and mathematics (STEM) activities will support and prepare Hispanic students for the region's workforce in advanced manufacturing which includes partnerships with Truckee Meadows Community College (TMCC), the state's Governor's Office of Economic Development, Charles River Laboratories, Nevada Established Program to Stimulate Competitive Research (Nevada EPSCoR) and the K-12 community.
The expected outcomes from the project will inform the feasibility, expandability and transferability of the LEAP framework in diversifying the state's workforce locally and the STEM workforce nationally. Formative and summative evaluation will be conducted with a well-matched comparison group. Dissemination of project results will be disseminated through the Association for Public Land-Grant Universities (APLU), STEM conferences and scholarly journals.
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TEAM MEMBERS:
David ShintaniJulie EllsworthKarsten HeiseRobert StachlewitzRegina Tempel
This NSF INCLUDES Design and Development Launch Pilot will improve math achievement among elementary school students of color in public schools in Albuquerque, New Mexico. Recognizing the need to coordinate efforts related to students' math and science achievement, key stakeholders formed the NM STEM Ecosystem, a dynamic network of cross-sector partners committed to making real impact on STEM education and degree attainment in Albuquerque. The NM STEM Ecosystem identified the math achievement gap between low-income students of color and their more economically-advantaged peers as the Broadening Participation (BP) Challenge it would address first. While math achievement gaps between students of color and Caucasian students appear nationally, the situation is particularly dire in New Mexico. In order to keep doors open to future STEM careers, it is crucial that learning pathways for math are articulated early and that these pathways honor families' cultural ways of knowing. The innovative strategy of Math Families & Communities Empowering Student Success (Math FACESS) is to use a collective impact approach to close the math achievement gap by connecting formal and informal STEM educators around a coherent, multi-faceted program of early mathematics teaching and learning that empowers parents and teachers to support children's mathematical development. Implementation of Math FACESS includes four major components: 1) Teachers at two pilot schools will participate in professional development related to Math Talk and Listening; 2) Parents at the pilot schools will participate in parent workshops and community-based activities focused on supporting their children's math achievement; 3) Project partners will implement community-based family activities organized around a theme of Twelve Months of Math; and 4) Ecosystem partners will study what worked and what didn't, in order to identify best practices that can be shared with system leaders to scale effective practices and increase impact.
The near-term objectives for Math FACESS are: 1) improve students' attitudes, practices, and achievement in math; 2) improve parents' attitudes, practices, and confidence in math and increase their utilization of family math resources; 3) improve data-sharing among partners related to math participation and achievement; and 4) create pathways within the Ecosystem for family math learning. The effectiveness of the collective impact model and impacts on partner organizations also will be assessed. Through the math FACESS Launch Pilot, the NM STEM Ecosystem plans to: 1) demonstrate the power of a collective impact social innovation framework to address a systemic community condition -- in this case, the math achievement gap; 2) contribute to theory-of-change research that demonstrates student achievement can be affected by working with parents and teachers; and 3) provide a model that values different ways of knowing and uses cultural context in the design of STEM learning opportunities for students, families, and schools.
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TEAM MEMBERS:
Joe HastingsArmelle CasauObenshain KorenKersti TysonAngelo Gonzales
Arizona State University's Ira A. Fulton Schools of Engineering with the Maricopa County Community Colleges District and K-12 school districts along with industry partners, Honeywell, Intel, and Texas Instruments, and the Helios Education Foundation will implement an NSF Design and Development Launch Pilot to address the broadening participation objectives of enhancing entry and persistence of underrepresented groups in engineering. This alliance will identify and develop effective mechanisms to impact entry and persistence in engineering at scale and to expand the effort for the region, serving as a model for Arizona and other universities nationally. Diversity is often seen as a valuable commodity for fostering innovation and creativity in engineering, and extant theoretical and empirical literature provides evidence of the importance a diversified engineering workforce can have to spark scientific and technological innovation to solve complex problems. Nationally, there is a consistent shortage of available diverse engineers and scientists, which is believed to compromise the country's ability to sustain its leadership position as a global force. This project will create engineering pathways for underrepresented groups and identify and develop effective mechanisms that impact these students' entry and persistence in engineering.
A total of 500 high school students, 100 2-year college students, and 200 four-year college students will participate in the project. The research measures will focus on students' academic/career awareness and interest in engineering and the degree to which students develop a strong identity and affinity for engineering. It is expected that the alliance affiliates will develop into adaptive systems that respond to needs of first-generation students at various pathway junctures. This project has the potential to transform educational experiences and support systems for first-generation students.
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TEAM MEMBERS:
Kyle SquiresRoberta Anslow-HammondMaria ReyesJames CollofelloTirupalavanam Ganesh
The University of Texas at Austin's Texas Advanced Computing Center, Chaminade University of Honolulu (CUH), and the Georgia Institute of Technology will lead this NSF INCLUDES Design and Development Launch Pilot (DDLP) to establish a model for data science preparation of Native Hawaiian and Pacific Islander (NHPI) students at the high school and undergraduate levels. The project is premised on the promise of NHPI communities gaining access to, and the ability to work with, large data sets to tackle emerging problems in the Pacific. Such agency over "big data" sets that are relevant to Pacific issues, and contemporary skills in data science, analytics and visualization have the potential to be transformative for community improvement efforts. The effort has the potential to advance knowledge, instructional pedagogy and practices to improve NHPI high school and undergraduate students performance in and attraction to STEM education and careers.
The project team will work to: 1) Increase interest and proficiency in data science and visualization among NHPI high school and undergraduate students through a summer immersion experience that bridges computation and culture; 2) Build data science capacity at an NHPI serving undergraduate institution (CUH) through creation of a certificate program; and 3) Develop and expand partnerships with other organizations with related goals working with NHPI populations. The month-long summer training for 20 NHPI college students, and five NHPI high school students, takes place at CUH and focuses on data science, visualization, and virtual reality, including working on problem sets that require data science approaches and incorporate geographically, socially- and culturally-relevant research themes.