More Like this

1. How Does an Adaptive Dialog Based on Natural Language Processing Impact Students From Distinct Language Backgrounds?

   https://doi.org/10.22318/icls2023.921177  

   Holtmann, Marlen; Gerard, Libby; Li, Weiying; Linn, Marcia C; Riordan, Brian; Steimel, Ken (October 2023, International Society of the Learning Sciences)

   Blikstein, P; Van_Aalst, J; Kizito, R; Brennan, K (Ed.)

   This study takes advantage of advances in Natural Language Processing (NLP) to build an idea detection model that can identify ideas grounded in students’ linguistic experiences. We designed adaptive, interactive dialogs for four explanation items using the NLP idea detection model and investigated whether they similarly support students from distinct language backgrounds. The curriculum, assessments, and scoring rubrics were informed by the Knowledge Integration (KI) pedagogy. We analyzed responses of 1,036 students of different language backgrounds taught by 10 teachers in five schools in the western United States. The adaptive dialog engages students from both monolingual English and multilingual backgrounds in incorporating additional relevant ideas into their explanations, resulting in a significant improvement in student responses from initial to revised explanations. The guidance supports students in both language groups to progress in integrating their scientific ideas. 

   more » « less
2. Explaining Thermodynamics: Impact of an Adaptive Dialog Based on a Natural Language Processing Idea Detection Model

   https://doi.org/10.22318/icls2023.199424  

   Li, Weiying; Gerard, Libby; Lim-Breitbart, Jonathan; Bradford, Allison; Linn, Marcia C; Riordan, Brian; Steimel, Kenneth (October 2023, International Society of the Learning Sciences)

   Blikstein, P; Van_Aalst, J; Kizito, R; Brennan, K (Ed.)

   We explored how Natural Language Processing (NLP) adaptive dialogs that are designed following Knowledge Integration (KI) pedagogy elicit rich student ideas about thermodynamics and contribute to productive revision. We analyzed how 619 6-8th graders interacted with two rounds of adaptive dialog on an end-of-year inventory. The adaptive dialog significantly improved students’ KI levels. Their revised explanations are more integrated across all grades, genders, and prior thermodynamics experiences. The dialog elicited many additional ideas, including normative ideas and vague reasoning. In the first round, students refined their explanation to focus on their normative ideas. In the second round they began to elaborate their reasoning and add new normative ideas. Students added more mechanistic ideas about conductivity, equilibrium, and the distinction between how an object feels and its temperature after the dialog. Thus, adaptive dialogs are a promising tool for scaffolding science sense-making. 

   more » « less
3. Supporting Teachers to Customize Curriculum for Self-Directed Learning

   https://doi.org/10.1007/s10956-022-09985-w  

   Gerard, Libby; Bradford, Allison; Linn, Marcia C. (August 2022, Journal of Science Education and Technology)

   Abstract Guiding teachers to customize curriculum has shown to improve science instruction when guided effectively. We explore how teachers use student data to customize a web-based science unit on plate tectonics. We study the implications for teacher learning along with the impact on student self-directed learning. During a professional development workshop, four 7th grade teachers reviewed logs of their students’ explanations and revisions. They used a curriculum visualization tool that revealed the pedagogy behind the unit to plan their customizations. To promote self-directed learning, the teachers decided to customize the guidance for explanation revision by giving students a choice among guidance options. They took advantage of the web-based unit to randomly assign students (N = 479) to either a guidance Choice or a no-choice condition. We analyzed logged student explanation revisions on embedded and pre-test/post-test assessments and teacher and student written reflections and interviews. Students in the guidance Choice condition reported that the guidance was more useful than those in the no-choice condition and made more progress on their revisions. Teachers valued the opportunity to review student work, use the visualization tool to align their customization with the knowledge integration pedagogy, and investigate the choice option empirically. These findings suggest that the teachers’ decision to offer choice among guidance options promoted aspects of self-directed learning. 

   more » « less
4. Combining Natural Language Processing with Epistemic Network Analysis to Investigate Student Knowledge Integration within an AI Dialog

   https://doi.org/10.1007/s10956-024-10176-y  

   Li, Weiying; Chang, Hsin-Yi; Bradford, Allison; Gerard, Libby; Linn, Marcia_C (November 2024, Journal of Science Education and Technology)

   Abstract In this study, we used Epistemic Network Analysis (ENA) to represent data generated by Natural Language Processing (NLP) analytics during an activity based on the Knowledge Integration (KI) framework. The activity features a web-based adaptive dialog about energy transfer in photosynthesis and cellular respiration. Students write an initial explanation, respond to two adaptive prompts in the dialog, and write a revised explanation. The NLP models score the KI level of the initial and revised explanations. They also detect the ideas in the explanations and the dialog responses. The dialog uses the detected ideas to prompt students to elaborate and refine their explanations. Participants were 196 8th-grade students at a public school in the Western United States. We used ENA to represent the idea networks at each KI score level for the revised explanations. We also used ENA to analyze the idea trajectories for the initial explanation, the two dialog responses, and the final explanation. Higher KI levels were associated with more links and increased frequency of mechanistic ideas in ENA representations. Representation of the trajectories suggests that the NLP adaptive dialog helped students who started with descriptive and macroscopic ideas to add more microscopic ideas. The dialog also helped students who started with partially linked ideas to keep linking the microscopic ideas to mechanistic ideas. We discuss implications for STEM teachers and researchers who are interested in how students build on their ideas to integrate their ideas. 

   more » « less
5. Impact of a Teacher Action Planner Capturing Student Ideas on Customization Decisions

   Gerard, L. (January 2020, Computersupported collaborative learning)

   This design-based research takes advantage of advanced technologies to support teachers to rapidly respond to evidence about student ideas generated in their classrooms. Leveraging advances in natural language processing methods, the Teacher Action Planner (TAP) analyzes students’ written explanations embedded in web-based inquiry projects to provide teachers with a report on student progress in developing the three-dimensional understanding called for by the Next Generation Science Standards. Based on the pattern in student scores, the TAP recommends research-based ways for teachers to customize instruction. This study examines how ten middle school teachers in 4 schools used the analysis of student ideas and suggestions for instructional customization presented in the TAP. This paper reports on how well their implemented customizations addressed student learning needs. It concludes with a discussion of the implications of the findings for redesign of the TAP. 

   more » « less