Collaborative Research: Network Science for All: Positioning Underserved Youth for Success in Pursuing STEM Pathways

合作研究：全民网络科学：帮助服务不足的年轻人成功追求 STEM 道路

• 批准号: 1949526
• 负责人: Kimberly Howard
• 金额: $ 106.05万
• 依托单位: Trustees of Boston University
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2020
• 资助国家: 美国
• 起止时间: 2020-03-15 至 2024-08-31
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1949526&HistoricalAwards=false
• 关键词: Collaborative; Research; Network; Science; Positioning

Boston University, in partnership with Sociedad Latina, will investigate the role that a middle school network science curriculum plays as both an input and outcome of science learning. This project is funded by the Innovative Technology Experiences for Students and Teachers (ITEST) program, which supports projects that build understandings of practices, program elements, contexts and processes contributing to increasing students' knowledge and interest in science, technology, engineering, and mathematics (STEM) and information and communication technology (ICT) careers. The project team will focus on development of skills to investigate real-world problems that have meaningful consequences for humankind across social, technical, and scientific domains. This project will make use of publicly available data to allow students to be involved in project-based activities in and out of their classrooms that can have societal impact. The project team will leverage previously developed data-driven curriculum in the context of a network science lens, synthesize highly promising technical and STEM resources as well as in-school and out-of-school programs, and embed new education research advances on effective career development to evolve a construct that will best position underserved youth for future learning of science. The curriculum and career development resources will directly reach 600 principally Latinx students, 12 teachers, parents, and other key stakeholders. Project activities will be implemented in a range of in-school and after-school programs in Boston. Through a collective impact approach, the project will be replicable, scale to more schools throughout Massachusetts, inform related projects, and evolve to regional and national impact. The project will create novel learning opportunities for middle school students to explore real-world project-based problems addressed through data analysis, data visualization and network modeling. This study will advance the field of interdisciplinary teaching and learning as well as strategies for supporting students and teachers through three interdependent strands: (1) Network Science for All workforce readiness curriculum modules, (2) applied evaluation metrics based on comparing students to peer groups through statewide data, and (3) sustainability and scalability embedded in the structure of the program. The project will be informed by several advisory boards aimed at leveraging the program in order to sustain and scale the effort. At Boston University, an internal advisory board will embed the project into the broad ecosystem of the university as part of a collective impact culture. A STEM advisory board will inform the science program. A formal independent external advisory board will guide the project’s efforts. Research will be conducted in two phases. In Phase 1, design-based research will be used to iteratively refine curriculum and programmatic interventions. In Phase 2, the research will examine the degree to which the program positions youth for success by examining the (1) varied acquisition of next generation STEM competencies for future workforce needs, (2) motivation and engagement of students and their support systems, and (3) impact on shifting STEM-related career goals and pathways to achieving these goals. All materials will be available in electronic forms on a Boston University project website, will be licensed under open-source code and open content licenses, and will be freely distributed to teachers, curriculum developers, and researchers. Research findings will be widely disseminated through publications and conference proceedings.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.

波士顿大学与Sociedad Latina合作，将调查中学网络科学课程作为科学学习的投入和成果所发挥的作用。该项目由学生和教师创新技术体验（ITEST）计划资助，该计划支持建立对实践，计划元素，背景和过程的理解的项目，有助于增加学生对科学，技术，工程和数学（STEM）以及信息和通信技术（ICT）职业的知识和兴趣。项目团队将专注于技能的发展，以调查对人类在社会，技术和科学领域产生有意义的后果的现实世界的问题。该项目将利用公开的数据，让学生在课堂内外参与可以产生社会影响的基于项目的活动。该项目团队将在网络科学透镜的背景下利用以前开发的数据驱动课程，综合极具前景的技术和STEM资源以及校内和校外课程，并将新的教育研究进展嵌入有效的职业发展中，以发展一种结构，最好地定位未得到充分服务的青年，以便将来学习科学。课程和职业发展资源将直接接触到600名主要是拉丁裔学生，12名教师，家长和其他主要利益相关者。项目活动将在波士顿的一系列校内和课后项目中实施。通过集体影响的方法，该项目将是可复制的，扩展到整个马萨诸塞州更多的学校，为相关项目提供信息，并发展到区域和国家的影响。该项目将为中学生创造新的学习机会，探索通过数据分析，数据可视化和网络建模解决的现实世界中基于项目的问题。这项研究将推进跨学科教学领域，以及通过三个相互依存的链支持学生和教师的战略：（1）网络科学为所有劳动力准备课程模块，（2）应用评估指标的基础上比较学生通过全州范围内的数据，以及（3）嵌入在程序结构的可持续性和可扩展性。该项目将由几个咨询委员会提供信息，旨在利用该计划，以维持和扩大努力。在波士顿大学，一个内部顾问委员会将把该项目嵌入大学的广泛生态系统，作为集体影响文化的一部分。一个STEM咨询委员会将为科学计划提供信息。一个正式的独立外部咨询委员会将指导该项目的工作。研究将分两个阶段进行。在第一阶段，基于设计的研究将用于迭代地完善课程和方案干预。在第二阶段，该研究将通过检查（1）为未来的劳动力需求获得下一代STEM能力的不同获取，（2）学生及其支持系统的动机和参与度，以及（3）对转变STEM相关职业目标和实现这些目标的途径的影响，来检查该计划为年轻人成功定位的程度。所有材料都将以电子形式在波士顿大学项目网站上提供，将根据开源代码和开放内容许可证进行许可，并将免费分发给教师，课程开发人员和研究人员。研究成果将通过出版物和会议记录广泛传播。该奖项反映了NSF的法定使命，并通过使用基金会的知识价值和更广泛的影响审查标准进行评估，被认为值得支持。

项目成果

Embedding Life Design in Future Readiness Efforts to Promote Collective Impact and Economically Sustainable Communities: Conceptual Frameworks and Case Example

将生活设计融入未来准备工作中，以促进集体影响和经济可持续社区：概念框架和案例

• DOI: 10.3390/su132313189
• 发表时间: 2021
• 期刊: Sustainability
• 影响因子: 3.9
• 作者: Park, C.;Rodriguez, A.;Flete Gomez, J.R.;Erilus, I.;Kim, H.;Dai, Y.;Oliver-Davila, A.;Trunfio, P.;Howard, K.A.S.;and Solberg, V. S.
• 通讯作者: and Solberg, V. S.