Matching Items (29)
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Description
In times of fast paced technology, the ability to differentiate quality differences between a reproduction and an original work of art has new urgency. The use of digital reproductions in the classroom is a useful and convenient teaching tool, but can convey visual distortions specifically in regards to texture,

In times of fast paced technology, the ability to differentiate quality differences between a reproduction and an original work of art has new urgency. The use of digital reproductions in the classroom is a useful and convenient teaching tool, but can convey visual distortions specifically in regards to texture, size, and color. Art educators often struggle to achieve a balance between incorporating the use of digital technology and fostering an appreciation for experiences with original artworks. The purpose of this study was to examine the ways in which Dewey's theory of experiential learning explains how thoroughly high school students differentiate between a reproduction and original artwork. This study also explored the influences of painting style (realistic or semi-abstract) and sequence on a student's ability to identify the differences and select a preference between the reproduction and original artwork. To obtain insight into how a student is able to differentiate between a reproduction and an original artwork, this study engaged 27 high school student participants in viewing a digital reproduction and the respective original artwork of one realistic and one semi-abstract painting at the ASU Art Museum. Analysis of qualitative and quantitative data suggests that sequence influences a student's ability to differentiate between a reproduction and original artwork. Students who saw reproductions before viewing the originals, demonstrated a more comprehensive understanding of the differences between the two presentation formats. Implications of this study include the recommendation that art educators address definitional issues surrounding the terms original and reproduction in their teaching, and consider collaborative ways to prepare students for meaningful experiences with original artworks.
ContributorsUscher, Dawn (Author) / Erickson, Mary (Thesis advisor) / Stokrocki, Mary (Committee member) / Young, Bernard (Committee member) / Arizona State University (Publisher)
Created2011
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Description
Currently, educational games are designed with the educational content as the primary factor driving the design of the game. While this may seem to be the optimal approach, this design paradigm causes multiple issues. For one, the games themselves are often not engaging as game design principles were put aside

Currently, educational games are designed with the educational content as the primary factor driving the design of the game. While this may seem to be the optimal approach, this design paradigm causes multiple issues. For one, the games themselves are often not engaging as game design principles were put aside in favor of increasing the educational value of the game. The other issue is that the code base of the game is mostly or completely unusable for any other games as the game mechanics are too strongly connected to the educational content being taught. This means that the mechanics are impossible to reuse in future projects without major revisions, and starting over is often more time and cost efficient.

This thesis presents the Content Agnostic Game Engineering (CAGE) model for designing educational games. CAGE is a way to separate the educational content from the game mechanics without compromising the educational value of the game. This is done by designing mechanics that can have multiple educational contents layered on top of them which can be switched out at any time. CAGE allows games to be designed with a game design first approach which allows them to maintain higher engagement levels. In addition, since the mechanics are not tied to the educational content several different educational topics can reuse the same set of mechanics without requiring major revisions to the existing code.

Results show that CAGE greatly reduces the amount of code needed to make additional versions of educational games, and speeds up the development process. The CAGE model is also shown to not induce high levels of cognitive load, allowing for more in depth topic work than was attempted in this thesis. However, engagement was low and switching the active content does interrupt the game flow considerably. Altering the difficulty of the game in real time in response to the affective state of the player was not shown to increase engagement. Potential causes of the issues with CAGE games and potential fixes are discussed.
ContributorsBaron, Tyler John (Author) / Amresh, Ashish (Thesis advisor) / Nelson, Brian C (Committee member) / Niemczyk, Mary (Committee member) / Arizona State University (Publisher)
Created2017
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Description
The current study investigates accent effects using virtual agents in the context of a multimedia learning environment. In a 2 (voice type: human, synthetic) x 2 (voice accent: English, Russian) between-subjects factorial design, the source and accent of the agent’s voice were manipulated. Research has shown that an instructor’s accent

The current study investigates accent effects using virtual agents in the context of a multimedia learning environment. In a 2 (voice type: human, synthetic) x 2 (voice accent: English, Russian) between-subjects factorial design, the source and accent of the agent’s voice were manipulated. Research has shown that an instructor’s accent can have an impact on learning outcomes and perceptions of the instructor. However, these outcomes and perceptions have yet to be fully understood in the context of a virtual human instructor. Outcome measures collected included: knowledge retention, knowledge transfer, and cognitive load. Perception measures were collected using the Agent Persona Instrument-Revised, API-R, and a speaker-rating survey. Overall, there were no significant differences between the accented conditions. However, the synthetic condition had significantly lower knowledge retention, knowledge transfer, and mental effort efficiency than the professional voices in the human condition. Participants rated the human recordings higher on speaker-rating and API-R measures. These findings demonstrate the importance of considering the quality of the voice when designing multimedia learning environments.
ContributorsSiegle, Robert Franklin (Author) / Craig, Scotty D (Thesis advisor) / Cooke, Nancy J (Committee member) / Nelson, Brian C (Committee member) / Arizona State University (Publisher)
Created2022
Description
As technology has advanced in recent years, tablet devices have started to make their way into all walks of life. Yet, many medical documentation processes still see the use of paper. Though the paper based documentation method has been shown to be effective for some purposes, the introduction of tablet

As technology has advanced in recent years, tablet devices have started to make their way into all walks of life. Yet, many medical documentation processes still see the use of paper. Though the paper based documentation method has been shown to be effective for some purposes, the introduction of tablet devices has the potential to make the documentation processes a lot smoother. In this thesis, tablet based documentation systems are reviewed, and based on this, a new custom application is developed that medical staff can use with ease. This new application, developed for an iPad is one where users can fully customize their own forms for different uses in the intensive care unit for resuscitation scenarios. The thesis discusses the architecture behind this application along with designing different elements of the system. Through this thesis project, the application was evaluated to see if such a complex documentation process can be easily used and created on a tablet device. The medical staff surveyed, responded positively to the use of the application and agreed that the electronic documentation usage and creation is a powerful tool that could help improve resuscitation practice by making it more efficient.
ContributorsDamania, Harsh (Author) / Patel, Vimla (Thesis advisor) / Nelson, Brian C (Thesis advisor) / Balasooriya, Janaka (Committee member) / Sen, Ayan (Committee member) / Arizona State University (Publisher)
Created2016
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Description
Evidence suggests that Augmented Reality (AR) may be a powerful tool for

alleviating certain, lightly held scientific misconceptions. However, many

misconceptions surrounding the theory of evolution are deeply held and resistant to

change. This study examines whether AR can serve as an effective tool for alleviating

these misconceptions by

Evidence suggests that Augmented Reality (AR) may be a powerful tool for

alleviating certain, lightly held scientific misconceptions. However, many

misconceptions surrounding the theory of evolution are deeply held and resistant to

change. This study examines whether AR can serve as an effective tool for alleviating

these misconceptions by comparing the change in the number of misconceptions

expressed by users of a tablet-based version of a well-established classroom simulation to

the change in the number of misconceptions expressed by users of AR versions of the

simulation.

The use of realistic representations of objects is common for many AR

developers. However, this contradicts well-tested practices of multimedia design that

argue against the addition of unnecessary elements. This study also compared the use of

representational visualizations in AR, in this case, models of ladybug beetles, to symbolic

representations, in this case, colored circles.

To address both research questions, a one-factor, between-subjects experiment

was conducted with 189 participants randomly assigned to one of three conditions: non

AR, symbolic AR, and representational AR. Measures of change in the number and types

of misconceptions expressed, motivation, and time on task were examined using a pair of

planned orthogonal contrasts designed to test the study’s two research questions.

Participants in the AR-based condition showed a significantly smaller change in

the number of total misconceptions expressed after the treatment as well as in the number

of misconceptions related to intentionality; none of the other misconceptions examined

showed a significant difference. No significant differences were found in the total

number of misconceptions expressed between participants in the representative and

symbolic AR-based conditions, or on motivation. Contrary to the expectation that the

simulation would alleviate misconceptions, the average change in the number of

misconceptions expressed by participants increased. This is theorized to be due to the

juxtaposition of virtual and real-world entities resulting in a reduction in assumed

intentionality.
ContributorsHenry, Matthew McClellan (Author) / Atkinson, Robert K (Thesis advisor) / Johnson-Glenberg, Mina C (Committee member) / Nelson, Brian C (Committee member) / Arizona State University (Publisher)
Created2019
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Description
The growth of electronic sports (esports) is undeniable. One dimension of esports’ growth can be seen in its adoption as an extracurricular club activity across an increasing number of high schools in the United States. Researchers and educators in literacy have increasingly recognized and emphasized the study of students’ everyday

The growth of electronic sports (esports) is undeniable. One dimension of esports’ growth can be seen in its adoption as an extracurricular club activity across an increasing number of high schools in the United States. Researchers and educators in literacy have increasingly recognized and emphasized the study of students’ everyday lives and interests, calling for responsiveness to the ways students actually experience literacies versus how they are traditionally taught. In this respect, the popularity of esports in high schools positions it as an activity in the everyday lives of an increasing number of students. As such, this dissertation project explored the topic of esports in high schools through a lens of multiliteracies and digital-age literacies. This work addresses an important knowledge gap because students are converging to reveal an ecosystem where they are drawing from and building on their everyday literacies in non-trivial ways. And although there is a growing body of multidisciplinary scholarly work on esports, relatively little work has explored esports in high schools. Therefore, I asked the overarching question: How are digital-age multiliteracies taking place in high school esports contexts? Specifically, I focused on the digital-age literacy practices, demands, and perspectives in high school esports. Guided by research questions on these three topics, I carried out a study of two high school esports clubs for 22 weeks. This study was guided by qualitative, interpretive, naturalistic, ethnographic, and case study research designs. My findings describe six assertions: (1) literacy practices were used to engage with each other in communal and competitive ways; (2) the social functions of esports’ literacy practices take precedence over scholastic goals; (3) literacy demands of esports emphasize unambiguous and timely multimodal communication for managing teams and scheduling events; (4) literacy demands of high school esports focus on multidimensional fluencies between what is on and what is around the screens; (5) participants characterize the engagement with esports as positively contributing to “belonging”, of a “safe space”, and of opportunities for “critical thinking”; and (6) participants characterize their engagement with high school esports as positively contributing to future occupational or educational preparedness and health.
ContributorsPerez Cortes, Luis (Author) / Nelson, Brian C (Thesis advisor) / Gee, Elisabeth R (Committee member) / Anderson, Kate T (Committee member) / Arizona State University (Publisher)
Created2021
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Description
This dissertation takes up the topic of simulations in social studies education. Though simulations are taken up widely by social studies educators, and though they are described as best practice in social studies standards documents and teacher evaluation rubrics, the term lacks specificity. Additionally, design, research, and implementation efforts associated

This dissertation takes up the topic of simulations in social studies education. Though simulations are taken up widely by social studies educators, and though they are described as best practice in social studies standards documents and teacher evaluation rubrics, the term lacks specificity. Additionally, design, research, and implementation efforts associated with social studies simulations often lack theoretical grounding and clarity. A major consequence of this lack of conceptual and theoretical clarity is curriculum violence perpetrated upon young people, particularly along racial and socioeconomic lines, as the result of poorly conceived simulations.This dissertation is presented as three standalone manuscripts, bookended by an Introduction and a Conclusion. In the Introduction, I present an overview of the social studies simulation literature. In Chapter Two, I propose mechanics analysis, a methodological approach to systematically analyzing social studies simulations and games. In Chapter Three, I report on an empirical study using mechanics analysis to analyze three digital social studies-themed simulation games: Offworld Trading Company, Frostpunk, and Surviving Mars. In Chapter Four, I build on the previous two chapters to coordinate the salient research and theory across three field—history and social studies education, learning sciences, and games scholarship—to propose a design theory for a particular kind of simulation game: disciplinarily integrated, consequentially engaging simulation games, or DICES. Finally, I conclude with Chapter Five, in which I highlight what I view as the implications of this work as a whole, including for teachers, teacher educators, researchers, and designers.
ContributorsKessner, Taylor Milan (Author) / Harris, Lauren M (Thesis advisor) / Gee, Elisabeth R (Thesis advisor) / Nelson, Brian C (Committee member) / Stoddard, Jeremy (Committee member) / Arizona State University (Publisher)
Created2021
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Description
ABSTRACT Art educators use a variety of teaching and demonstration methods to convey information to students. With the emergence of digital technology, the standard methods of demonstration are changing. Art demonstrations are now being recorded and shared via the internet through video sharing websites such as YouTube. Little research has

ABSTRACT Art educators use a variety of teaching and demonstration methods to convey information to students. With the emergence of digital technology, the standard methods of demonstration are changing. Art demonstrations are now being recorded and shared via the internet through video sharing websites such as YouTube. Little research has been conducted on the effectiveness of video demonstration versus the standard teacher-centered demonstration. This study focused on two different demonstration methods for the same clay sculpture project, with two separate groups of students. The control group received regular teacher-centered demonstration for instruction. The experimental group received a series of YouTube videos for demonstration. Quantitative data include scores of clay sculptures using a four-point scale in three separate categories based on construction abilities. Qualitative data include responses to pre and post-questionnaires along with classroom observations. The data is analyzed to look at the difference, if any, between YouTube instruction and regular teacher-centered instruction on middle school students' ceramic construction abilities. Findings suggest that while the YouTube video method of demonstration appeared to have a slightly greater effect on student construction abilities. Although, both instruction methods proved to be beneficial.
ContributorsLee, Allison (Author) / Erickson, Mary (Thesis advisor) / Young, Bernard (Committee member) / Stokrocki, Mary (Committee member) / Arizona State University (Publisher)
Created2013
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Description
Recently, the Interactive-Constructive-Active-Passive (ICAP) framework has been gaining increasing prominence in cognitive and learning sciences. The ICAP theory asserts that students learn more deeply when they are cognitively engaged in generative and collaborative learning. Indeed, prior studies have established the value of the ICAP framework for predicting student learning. However,

Recently, the Interactive-Constructive-Active-Passive (ICAP) framework has been gaining increasing prominence in cognitive and learning sciences. The ICAP theory asserts that students learn more deeply when they are cognitively engaged in generative and collaborative learning. Indeed, prior studies have established the value of the ICAP framework for predicting student learning. However, the framework has yet to become widely used by practitioners, possibly due to the lack of accessible resources for applying the framework instruction design. This study sought to fill that gap by implementing and validating the ICAP instructional rubric instrument to rate the design of college chemistry courses at a large public university in the southwest and exploring its relationships with several metrics of student performance via multiple regression analysis: a) level of participation; b) final exam grades; c) course grades; d) course retention; and e) course attrition. This study analyzed data from the university’s learning management system and included student-level controls such as markers of prior academic performance (i.e., GPA and SAT scores) as well as student demographics. The findings of this study suggest that the ICAP framework may be a useful tool for instructors to improve course design. In addition, the ICAP framework’s predictive claims on student deeper learning were further validated by the results of this study.
ContributorsHa, Jesse (Author) / Nelson, Brian C (Thesis advisor) / Chi, Michelene T. H. (Committee member) / Pivovarova, Margarita (Committee member) / Arizona State University (Publisher)
Created2022