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1. Animation Analytics in an Interactive Textbook for Material and Energy Balances

   Stone, S. J.; Crockett, B.; Xu, Kevin S.; Liberatore, M. W. (August 2022, ASEE Annual Conference proceedings)

   Interactive textbooks generate big data through student reading participation, including animations, question sets, and auto-graded homework. Animations are multi-step, dynamic visuals with text captions. By dividing new content into smaller chunks of information, student engagement is expected to be high, which aligns with tenets of cognitive load theory. Specifically, students’ clicks are recorded and measure usage, completion, and view time per step and for entire animations. Animation usage data from an interactive textbook for a chemical engineering course in Material and Energy Balances accounts for 60,000 animation views across 140+ unique animations. Data collected across five cohorts between 2016 and 2020 used various metrics to capture animation usage including watch and re-watch rates as well as the length of animation views. Variations in view rate and time were examined across content, parsed by book chapter, and five animation characterizations (Concept, Derivation, Figures and Plots, Physical World, and Spreadsheets). Important findings include: 1) Animation views were at or above 100% for all chapters and cohorts, 2) Median view time varies from 22 s (2-step) to 59 s (6-step) - a reasonable attention span for students and cognitive load, 3) Median view time for animations characterized as Derivation was the longest (40 s) compared to Physical World animations, which resulted in the shortest time (20 s). 

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2. Attitudes Toward and Usage of Animations in an Interactive Textbook for Material and Energy Balances

   https://doi.org/10.18260/1-2--36728  

   Stone, Sidney; Liberatore, Matthew (January 2021, ASEE Annual Meeting)

   null (Ed.)

   Attitudes Toward and Usage of Animations in an Interactive Textbook for Material and Energy Balances Abstract The concept of active learning or “learning by doing” is applied to animations within an interactive textbook in this contribution. A Material and Energy Balance (MEB) course for undergraduate chemical engineering students has generated large data sets by using an interactive textbook from zyBooks. MEB is a foundational course that includes new terminology, the basic principles of mass and energy conservation, and tools for problem solving. Here, outside of class engagement is measured using student views of multi-step animations that introduce MEB concepts in small chunks. Students usage of the interactive textbook have been logged for several years and reading participation was measured as high as 99% by median. Within the reading participation data are the clicks to start, complete, and re-watch over 100 animations across the book, which has not been explored in detail. This paper addresses research questions specifically related to animations. First, do students complete viewing an interactive animation and what is the rate of re-watch? Next, do certain animations gather re-watch views across several cohorts? Also, what is students’ understanding and attitude about using animations in their engineering education? We will administer pre- and post-surveys to understand students’ interest in chemical engineering as well as animation use. 

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3. “Elinor’s Talking to Me!”:Integrating Conversational AI into Children’s Narrative Science Programming

   https://doi.org/10.1145/3491102.3502050  

   Xu, Ying; Vigil, Valery; Bustamante, Andres S.; Warschauer, Mark (April 2022, Proceedings of the 2022 CHI Conference on Human Factors in Computing Systems)

   Video programs are important, accessible educational resources for young children, especially those from an under-resourced backgrounds. These programs’ potential can be amplified if children are allowed to socially interact with media characters during their video watching. This paper presents the design and empirical investigation of interactive science-focused videos in which the main character, powered by a conversational agent, engaged in contingent conversation with children by asking children questions and providing responsive feedback. We found that children actively interacted with the media character in the conversational videos and their parents spontaneously provided support in the process. We also found that the children who watched the conversational video performed better in the immediate, episode-specific science assessment compared to their peers who watched the broadcast, non-interactive version of the same episode. Several design implications are discussed for using conversational technologies to better support child active learning and parent involvement in video watching. 

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4. Perceived Naturalness of Interpolation Methods for Character Upper Body Animation.

   https://doi.org/10.1007/978-3-030-90439-5_9  

   Xingyu Lei, Nicoletta Adamo-Villani (January 2022, Advances in Visual Computing. ISVC 2021. Lecture Notes in Computer Science)

   We compare the perceived naturalness of character animations generated using three interpolation methods: linear Euler, spherical linear quaternion, and spherical spline quaternion. While previous work focused on the mathematical description of these interpolation types, our work studies the perceptual evaluation of animated upper body character gestures generated using these interpolations. Ninety-seven participants watched 12 animation clips of a character performing four different upper body motions: a beat gesture, a deictic gesture, an iconic gesture, and a metaphoric gesture. Three animation clips were generated for each gesture using the three interpolation methods. The participants rated their naturalness on a 5-point Likert scale. The results showed that animations generated using spherical spline quaternion interpolation were perceived as significantly more natural than those generated using the other two interpolation methods. The findings held true for all subjects regardless of gender and animation experience and across all four gestures. 

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5. Preparing, Visualizing, and Using Real-world Data in Introductory Courses

   https://doi.org/10.1145/3159450.3159616  

   Bart, Austin Cory; Subramanian, Kalpathi; Anderson, Ruth E.; Hamid, Nadeem Abdul (January 2018, ACM Special Interest Group on Computer Science Education 2018)

   In recent years, interactive textbooks have gained prominence in an effort to overcome student reluctance to routinely read textbooks, complete assigned homeworks, and to better engage students to keep up with lecture content. Interactive textbooks are more structured, contain smaller amounts of textual material, and integrate media and assessment content. While these are an arguable improvement over traditional methods of teaching, issues of academic integrity and engagement remain. In this work we demonstrate preliminary work on building interactive teaching modules for data structures and algorithms courses with the following characteristics, (1) the modules are highly visual and interactive, (2) training and assessment are tightly integrated within the same module, with sufficient variability in the exercises to make it next to impossible to violate academic integrity, (3) a data logging and analytic system that provides instantaneous student feedback and assessment, and (4) an interactive visual analytic system for the instructor to see students’ performance at the individual, sub-group or class level, allowing timely intervention and support for selected students. Our modules are designed to work within the infrastructure of the OpenDSA system, which will promote rapid dissemination to an existing user base of CS educators. We demonstrate a prototype system using an example dataset. 

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