Applying a Digital Tool to Support Self-regulated Learning Strategies in Introductory Geoscience Courses

应用数字工具支持地球科学入门课程中的自我调节学习策略

• 批准号: 2111533
• 负责人: Rebecca Walker
• 金额: $ 6.76万
• 依托单位: Mount San Antonio College
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2021
• 资助国家: 美国
• 起止时间: 2021-07-01 至 2024-06-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2111533&HistoricalAwards=false
• 关键词: Applying; Digital; Tool; Support; Self

This project aims to serve the national interest by improving student learning and success in introductory geoscience courses. To do so, it will modify and expand a prototype online tool that provides immediate feedback to students about the relationship between their perceptions of their knowledge and their actual knowledge. The tool, CLASS (Confidence-based Learning Accuracy Support System), provides an online quizzing environment that measures student learning and confidence in that learning. It then displays results that can guide students to adopt more effective learning behaviors and thus increase course performance. The project has three objectives, to: a) improve the tool to include more resources and an expanded question database; b) upgrade and expand the technology by adding a mobile app and dashboard to enhance the student user experience; and, c) investigate the effects of these changes on student learning at different institutional types (research university, four-year college, and a two-year college) and across multiple introductory geoscience courses. The project will explore the application of CLASS to enhance geoscience learning among underrepresented students at two Hispanic Serving Institutions. Consequently, the project will serve students from communities that have been disproportionately impacted by COVID-19.Instructional interventions that focus on supporting effective student learning behaviors, termed self-regulated learning, have been shown to result in greater academic achievement, improved motivation, and greater persistence. Students who use the CLASS tool receive immediate feedback on both their level of knowledge and the accuracy of their perceptions of their learning linked to instructor-defined learning objectives. Consequently, students are able to readily identify gaps in their knowledge and determine what to study to fill those gaps. Self-regulated learning represents the sum of a student's awareness of their own thinking, their approach to monitoring and managing their learning, and their control over motivations and behaviors related to learning. Effective self-regulated learning behaviors are consistently correlated with increased learning. This project will expand the application of CLASS, a tool that promotes the use of effective self-regulated learning behaviors and also gives instructors a mechanism for providing automated feedback about the quality of students' learning. CLASS is grounded in the findings of educational psychology research and provides information regarding course teaching and learning processes that cannot be readily ascertained from traditional assessment methods. The use of CLASS will make it possible to integrate the results of cognition research directly into a course by applying a common assessment method that could be readily adapted by any instructor. The research design will provide quasi-experimental quantitative data (e.g., quiz results) to make causal inferences about the effects of CLASS activities combined with qualitative data from student interview descriptions of their use of the tool. The project will produce a suite of related materials that can be customized for a variety of introductory geoscience courses. Finally, the generalizability of both the tool and essential facets of student learning will enable both STEM-wide and education-wide application of findings and recommendations for practices that increase student success in undergraduate courses. The NSF IUSE: EHR Program supports research and development projects to improve the effectiveness of STEM education for all students. Through the Engaged Student Learning track, the program supports the creation, exploration, and implementation of promising practices 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.

该项目旨在通过提高学生在地球科学入门课程中的学习和成功来服务于国家利益。 为此，它将修改和扩展一个原型在线工具，该工具向学生提供有关他们对知识的看法与实际知识之间关系的即时反馈。该工具 CLASS（基于信心的学习准确性支持系统）提供了一个在线测验环境，可以衡量学生的学习情况和学习信心。 然后，它显示的结果可以指导学生采取更有效的学习行为，从而提高课程成绩。 该项目有三个目标： a) 改进工具以包含更多资源和扩展的问题数据库； b) 通过添加移动应用程序和仪表板来升级和扩展技术，以增强学生用户体验； c) 调查这些变化对不同机构类型（研究型大学、四年制学院和两年制学院）以及多个地球科学入门课程的学生学习的影响。该项目将探索 CLASS 的应用，以加强两个西班牙裔服务机构中代表性不足的学生的地球科学学习。 因此，该项目将为受 COVID-19 影响较大的社区的学生提供服务。事实证明，专注于支持有效学生学习行为的教学干预措施（称为自我调节学习）可以带来更高的学业成绩、提高动机和更大的坚持。使用 CLASS 工具的学生会收到有关其知识水平以及与教师定义的学习目标相关的学习感知准确性的即时反馈。因此，学生能够轻松地识别他们的知识差距，并确定学习什么来填补这些差距。 自我调节学习代表学生对自己思维的认识、监控和管理学习的方法以及对与学习相关的动机和行为的控制的总和。有效的自我调节学习行为与学习的增加始终相关。该项目将扩大 CLASS 的应用范围，CLASS 是一种促进有效自我调节学习行为的工具，并为教师提供了一种提供有关学生学习质量的自动反馈的机制。 CLASS 以教育心理学研究结果为基础，提供传统评估方法无法轻易确定的有关课程教学和学习过程的信息。使用 CLASS 可以通过应用任何教师都可以轻松采用的通用评估方法，将认知研究的结果直接整合到课程中。研究设计将提供准实验定量数据（例如测验结果），结合学生访谈描述中关于他们使用该工具的定性数据，对 CLASS 活动的效果进行因果推断。该项目将制作一套相关材料，可以为各种地球科学入门课程定制。 最后，学生学习的工具和基本方面的普遍性将使 STEM 范围和教育范围内的研究结果和实践建议得到应用，从而提高学生在本科课程中的成功。 NSF IUSE：EHR 计划支持研究和开发项目，以提高所有学生 STEM 教育的有效性。 通过参与学生学习轨道，该计划支持有前途的实践和工具的创建、探索和实施。该奖项反映了 NSF 的法定使命，并通过使用基金会的智力价值和更广泛的影响审查标准进行评估，被认为值得支持。