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Description
Unschooling is a child-centered educational philosophy that eschews teachers,
schools, curricula, grades and tests. Unschool practitioners have complete freedom to choose what they want to learn, when, to what level, and for how long. Unschooling families use the World Wide Web to provide a bespoke academic experience at home. This study compares qualitative data collected from questionnaires and semi-structured interviews conducted with 10 unschooling families with quantitative data collected from 5 children within these families using a tracking and monitoring software. The software captured the duration of use, keystrokes, mouseclicks, and screenshots for all programs and websites for 14 days. Children stated they used technology less than 6 hours a day, and parents stated children used them less than 8 hours a day. Quantitative data shows the children use technology at least 10 hours a day, suggesting usage self-reports may not be reliable. The study revealed hardware form factor was the number one determinate of application use. Almost exclusively social media was used on smartphones, internet browsing on tablets, and creative endeavors such as modding, hacking, fan fiction writing, and video game level building all took place exclusively on laptops and desktops. Concurrent use of differing hardware form factors was the norm observed. Participants stated YouTube, Wikipedia and Khan Academy were the websites most used for knowledge gathering. The tracking software verified YouTube and Wikipedia were the most used websites, however when accessed on the PC, those sites were used almost exclusively for video game related purposes. Over 90% of the total PC use was spent on video games. More traditional educational activities were done primarily on tablets and on parent smartphones with parental engagement. Khan Academy was not used by the
participants in the 14 day monitoring period. 90 day web browser logs indicated Khan Academy was used by individuals no more than 3 times in a 90 day period,
demonstrating the inherent risks in relying upon internet usage self-reports without
quantitative software for verification. Unschooling children spent between 30 and 60 hours a week using technology.
schools, curricula, grades and tests. Unschool practitioners have complete freedom to choose what they want to learn, when, to what level, and for how long. Unschooling families use the World Wide Web to provide a bespoke academic experience at home. This study compares qualitative data collected from questionnaires and semi-structured interviews conducted with 10 unschooling families with quantitative data collected from 5 children within these families using a tracking and monitoring software. The software captured the duration of use, keystrokes, mouseclicks, and screenshots for all programs and websites for 14 days. Children stated they used technology less than 6 hours a day, and parents stated children used them less than 8 hours a day. Quantitative data shows the children use technology at least 10 hours a day, suggesting usage self-reports may not be reliable. The study revealed hardware form factor was the number one determinate of application use. Almost exclusively social media was used on smartphones, internet browsing on tablets, and creative endeavors such as modding, hacking, fan fiction writing, and video game level building all took place exclusively on laptops and desktops. Concurrent use of differing hardware form factors was the norm observed. Participants stated YouTube, Wikipedia and Khan Academy were the websites most used for knowledge gathering. The tracking software verified YouTube and Wikipedia were the most used websites, however when accessed on the PC, those sites were used almost exclusively for video game related purposes. Over 90% of the total PC use was spent on video games. More traditional educational activities were done primarily on tablets and on parent smartphones with parental engagement. Khan Academy was not used by the
participants in the 14 day monitoring period. 90 day web browser logs indicated Khan Academy was used by individuals no more than 3 times in a 90 day period,
demonstrating the inherent risks in relying upon internet usage self-reports without
quantitative software for verification. Unschooling children spent between 30 and 60 hours a week using technology.
ContributorsCurtice, Brian (Author) / Gee, James (Thesis advisor) / Gee, Elisabeth (Committee member) / Savenye, Wilhelmina (Committee member) / Arizona State University (Publisher)
Created2014
Description
This dissertation explored the literacy practices that developed around comics when two secondary teachers (one AP Science and one AP English) used comics in their classroom instruction for the first time. It also explored the ways the teachers and their students positioned comics within their specific classroom contexts. Historically, comics are a marginalized medium in educational circles—widely considered non-academic despite the recognition by scholars for their sophistication as a multimodal medium. Scholars, librarians, teachers, and comics authors have made the case for the inclusion of comics in educational contexts citing their ability to support the literacy development of struggling readers, engage reluctant readers, promote lifelong reading, and convey information visually. However, the roles comics can play in educational contexts are still under researched, and many gaps exist in the literature including a lack of real world contexts and clearly reported instructional strategies. This study aimed to fill these gaps by reporting the literacy practices that students and teachers develop around comics, as well as contextualizing these practices in the classroom contexts and students’ and teachers’ experiences. Drawing from a social semiotic view of multimodality and the view of literacy as a social practice, I conducted a qualitative case study using ethnographic methods for data collection which I analyzed using an interpretive framework for qualitative data analysis and constant comparative analysis. I found three literacy practices developed around comics in these contexts—Q&A, writing about comics, and drawing comics. I also found that teachers and students positioned comics in four primary ways within these contexts—as a tool, as entertainment, as a medium, and as a traditional form of literature. Based on my findings, I developed three assertions: 1) there is a disconnect between teachers’ goals for using comics in their instruction and the literacy practice that developed around the comics they selected; 2) there is a disconnect between the ways in which teachers position comics and the ways in which students position comics; and 3) traditional views of literature and literacy continue to dominate classrooms when multimodal texts are selected and utilized during instruction.
ContributorsKachorsky, Danielle Perrine (Author) / Serafini, Frank (Thesis advisor) / Gee, Elisabeth (Committee member) / Marsh, Josephine (Committee member) / Arizona State University (Publisher)
Created2018
Description
There has been growing interest among learning scientists in the design and study of out-of-school time (OST) learning environments to support equitable development of science, technology, engineering, and math (STEM) interests among youth from groups that are underrepresented in STEM fields. Most of these design studies assumed the youth came to the learning environments without well-developed STEM interests. I challenged this assumption by enacting a social design participatory study to engage youth (aged 11 to 14), from groups that are underrepresented in STEM fields, as partners in designing an OST networked club to support the youth in growing their own STEM interests. Based on longitudinal ethnographic data, I report a three-year iterative design of this networked club. I characterize the heterogeneity of STEM interests that emerged and grew across the networked club. Building on ecological theories of interest development, and leveraging the cultural assets of the nondominant community, I argue that heterogeneity of interests, resources, and practices served as a design tool and a catalyst for the development of STEM interest in the OST networked club.
ContributorsGould, Deena Lee (Author) / Barab, Sasha (Thesis advisor) / Gee, Elisabeth (Committee member) / Jimenez Silva, Margarita (Committee member) / Arizona State University (Publisher)
Created2019
Description
The purpose of this study was to gain a better understanding of how collaborative language learning activities affected student perceptions of their engagement and language self-efficacy in a communicative, flipped language learning classroom in higher education. The new online platforms accompanying many textbooks now allow students to prepare for classes ahead of time, allowing instructors to use more class time for student engagement in actual language practices. However, there has been little investigation of the effects of this communicative, flipped classroom model on students’ learning processes and outcomes. This mixed methods action research study revealed that the introduction of varied collaborative language learning activities had a positive impact on students’ self-efficacy and engagement as well as provides implications that will be of value to language educators interested in enhancing their use of the communicative, flipped classroom model.
ContributorsRama, Rashmi (Author) / Gee, Elisabeth (Thesis advisor) / Buss, Ray R. (Committee member) / Mayes, Eric (Committee member) / Arizona State University (Publisher)
Created2019
Description
Bioscience High School, a small magnet high school located in Downtown Phoenix and a STEAM (Science, Technology, Engineering, Arts, Math) focused school, has been pushing to establish a computer science curriculum for all of their students from freshman to senior year. The school's Mision (Mission and Vision) is to: "..provide a rigorous, collaborative, and relevant academic program emphasizing an innovative, problem-based curriculum that develops literacy in the sciences, mathematics, and the arts, thus cultivating critical thinkers, creative problem-solvers, and compassionate citizens, who are able to thrive in our increasingly complex and technological communities." Computational thinking is an important part in developing a future problem solver Bioscience High School is looking to produce. Bioscience High School is unique in the fact that every student has a computer available for him or her to use. Therefore, it makes complete sense for the school to add computer science to their curriculum because one of the school's goals is to be able to utilize their resources to their full potential. However, the school's attempt at computer science integration falls short due to the lack of expertise amongst the math and science teachers. The lack of training and support has postponed the development of the program and they are desperately in need of someone with expertise in the field to help reboot the program. As a result, I've decided to create a course that is focused on teaching students the concepts of computational thinking and its application through Scratch and Arduino programming.
ContributorsLiu, Deming (Author) / Meuth, Ryan (Thesis director) / Nakamura, Mutsumi (Committee member) / Computer Science and Engineering Program (Contributor) / Barrett, The Honors College (Contributor)
Created2016-05
Description
Electromyography (EMG) and Electroencephalography (EEG) are techniques used to detect electrical activity produced by the human body. EMG detects electrical activity in the skeletal muscles, while EEG detects electrical activity from the scalp. The purpose of this study is to capture different types of EMG and EEG signals and to determine if the signals can be distinguished between each other and processed into output signals to trigger events in prosthetics. Results from the study suggest that the PSD estimates can be used to compare signals that have significant differences such as the wrist, scalp, and fingers, but it cannot fully distinguish between signals that are closely related, such as two different fingers. The signals that were identified were able to be translated into the physical output simulated on the Arduino circuit.
ContributorsJanis, William Edward (Author) / LaBelle, Jeffrey (Thesis director) / Santello, Marco (Committee member) / Barrett, The Honors College (Contributor) / Computer Science and Engineering Program (Contributor)
Created2013-12
Description
Game design and product design are natural partners. They use similar tools. They reach the same users. They even share the same goal: to provide great user experiences.
This thesis asks, "Can game design build better product learning experiences, and if so, how?" It examines the learning situations created by and necessary for product design. It examines the principles of game learning. Then it looks for opportunities to apply game learning principles to product learning situations. The goal is to create engaging and successful product learning experiences, without turning products into games.
This study uses an auto-ethnographic evaluation of a gameplay session as well as participant observation and interviews with gamers to gather qualitative data. That data is sorted with an A(x4) framework and used to create user experience profiles.
The final outcome is a toolkit that identifies areas where game design could improve the design of product user experiences, especially for product learning.
This thesis asks, "Can game design build better product learning experiences, and if so, how?" It examines the learning situations created by and necessary for product design. It examines the principles of game learning. Then it looks for opportunities to apply game learning principles to product learning situations. The goal is to create engaging and successful product learning experiences, without turning products into games.
This study uses an auto-ethnographic evaluation of a gameplay session as well as participant observation and interviews with gamers to gather qualitative data. That data is sorted with an A(x4) framework and used to create user experience profiles.
The final outcome is a toolkit that identifies areas where game design could improve the design of product user experiences, especially for product learning.
ContributorsReeves, James Scott (Author) / Boradkar, Prasad (Thesis advisor) / Gee, Elisabeth (Committee member) / Herring, Donald (Committee member) / Arizona State University (Publisher)
Created2016
Description
In this study, I investigate how secondary reclassified ELLs use the Learning Management System Schoology in three secondary English classrooms. Particularly, I focus on the digital literacy practices reclassified ELLs use as they navigate Schoology to complete a multi-page research paper. In examining the digital literacy practices of secondary reclassified ELLs who have recently exited the language development program, I add to research in the fields of New Literacies and Multiliteracies, sociocultural approaches to learning, and identity studies.
In this qualitative study, I employed ethnographic techniques (i.e., data collection, participant observation, interviewing, and collection of archived material and digital artifacts stored in Schoology). I drew from communities of practice and identity frameworks to examine focal participants' literacy practices when participating in the online space of Schoology and provided screenshots to showcase this participation. I examined email exchanges that were co-created by teacher and student that demonstrated their reliance on a digital tool to continue the teaching and learning processes. I exhibit screenshots of focal participants' engagement with the revision process as they used Schoology’s and Microsoft Word's digital editing tools. Finally, I examined focal participants' participation in Schoology's online discussion forum to highlight how they revealed aspects of their identities and performed these identities in a mainstream-learning environment as well.
My analysis establishes that focal participants' access to an LMS like Schoology and other digital spaces (e.g., email) supports the language learning and literacy practices of reclassified ELLs. In addition, my analysis of focal participants' digital and communication practices shows that they contributed to their agency, positioned themselves as empowered and knowledgeable learners, and performed the role of "peer as mentor" when providing feedback to their peers. Finally, in my analysis of focal participants' inventories of digital literacy practices, I discovered that their engagement in Schoology for the purposes of learning and communication reinforced their language learning, both traditional and digital literacies, and overall academic achievement. Findings of this study emphasizes the importance of technology integration at the secondary level so that all students have equal access to digital and multimodal ways of learning in today's digital age.
In this qualitative study, I employed ethnographic techniques (i.e., data collection, participant observation, interviewing, and collection of archived material and digital artifacts stored in Schoology). I drew from communities of practice and identity frameworks to examine focal participants' literacy practices when participating in the online space of Schoology and provided screenshots to showcase this participation. I examined email exchanges that were co-created by teacher and student that demonstrated their reliance on a digital tool to continue the teaching and learning processes. I exhibit screenshots of focal participants' engagement with the revision process as they used Schoology’s and Microsoft Word's digital editing tools. Finally, I examined focal participants' participation in Schoology's online discussion forum to highlight how they revealed aspects of their identities and performed these identities in a mainstream-learning environment as well.
My analysis establishes that focal participants' access to an LMS like Schoology and other digital spaces (e.g., email) supports the language learning and literacy practices of reclassified ELLs. In addition, my analysis of focal participants' digital and communication practices shows that they contributed to their agency, positioned themselves as empowered and knowledgeable learners, and performed the role of "peer as mentor" when providing feedback to their peers. Finally, in my analysis of focal participants' inventories of digital literacy practices, I discovered that their engagement in Schoology for the purposes of learning and communication reinforced their language learning, both traditional and digital literacies, and overall academic achievement. Findings of this study emphasizes the importance of technology integration at the secondary level so that all students have equal access to digital and multimodal ways of learning in today's digital age.
ContributorsHurtado, Fernando (Author) / Warriner, Doris (Thesis advisor) / Gee, Elisabeth (Committee member) / Anderson, Kate (Committee member) / Arizona State University (Publisher)
Created2017
Description
In this article-style dissertation, I explore how students used digital technologies, specifically three social media platforms, as multimodal writing platforms while creating a digital portfolio in a senior English class. These platforms are 1) Weebly pages: a website building platform, 2) Weebly Blogs: a feature of Weebly, and 3) Instagram: a photo/video sharing application. Under a multiliteracies lens, I examine the changing nature of literacies and the educational practices surrounding learning literacies when mediated through social media.
First, I conducted an analysis of how the students in this class designed their portfolios. This is done through an examination of each students’ Weebly homepage as well as an in-depth analysis two focal students across each of the social media platforms as illustrative cases. Findings show the students designed complex multimodal compositions that would have otherwise not been possible with the more formal, rigid forms of writing typical to this classroom. Implications for this study include embracing alternative authoring paths in classrooms beyond traditional forms of text-based writing to allow for students’ interests to be included through their designs.
I also examined how students used each of the platforms and the pedagogical implications for those uses. I found that students used Instagram to write multimodally, which allowed them to express ideas in non-traditional ways that are often not present in classrooms. Students used Weebly pages to publically showcase their writing, which afforded them an opportunity to extend their writing to a larger audience. Students used Weebly Blogs to communicate informally, which allowed them to reflect on connections to the text. I offer implications for how teachers can use social media in the classroom.
Finally, I outline how Ms. Lee and her students oriented to the value of writing in this unit. Findings indicate that Ms. Lee, like many others, privileged print-based forms of writing, even in a more expansive project like the portfolio unit. The students oriented to this value by predominantly making meaning through textual modes throughout their portfolios. Implications extend to teachers expanding their classroom practices beyond the traditional forms of literacy for which they are trained.
First, I conducted an analysis of how the students in this class designed their portfolios. This is done through an examination of each students’ Weebly homepage as well as an in-depth analysis two focal students across each of the social media platforms as illustrative cases. Findings show the students designed complex multimodal compositions that would have otherwise not been possible with the more formal, rigid forms of writing typical to this classroom. Implications for this study include embracing alternative authoring paths in classrooms beyond traditional forms of text-based writing to allow for students’ interests to be included through their designs.
I also examined how students used each of the platforms and the pedagogical implications for those uses. I found that students used Instagram to write multimodally, which allowed them to express ideas in non-traditional ways that are often not present in classrooms. Students used Weebly pages to publically showcase their writing, which afforded them an opportunity to extend their writing to a larger audience. Students used Weebly Blogs to communicate informally, which allowed them to reflect on connections to the text. I offer implications for how teachers can use social media in the classroom.
Finally, I outline how Ms. Lee and her students oriented to the value of writing in this unit. Findings indicate that Ms. Lee, like many others, privileged print-based forms of writing, even in a more expansive project like the portfolio unit. The students oriented to this value by predominantly making meaning through textual modes throughout their portfolios. Implications extend to teachers expanding their classroom practices beyond the traditional forms of literacy for which they are trained.
ContributorsStewart, Olivia Grace (Author) / Anderson, Kate T. (Thesis advisor) / Serafini, Frank (Committee member) / Gee, Elisabeth (Committee member) / Arizona State University (Publisher)
Created2017
Description
Abstract
This work details the process of designing and implementing an embedded system
utilized to take measurements from a water cooler and post that data onto a publicly accessible web server. It embraces the Web 4.0, Internet of Things, mindset of making everyday appliances web accessible. The project was designed to satisfy the needs of a local faculty member who wished to know the water levels available in his office water cooler, potentially saving him the disappointment of discovering an empty container.
This project utilizes an Arduino microprocessor, an ESP 8266 Wi-Fi module, and a variety of sensors to detect water levels in filtered water unit located on the fourth floor of the the Brickyard Building, BYENG, at Arizona State University. This implementation will not interfere with the system already set in place to store and transfer water. The level of accuracy in water levels is expected to give the ability to discern +/- 1.5 liters of water. This system will send will send information to a created web service from which anyone with internet capabilities can gain access. The interface will display current water levels and attempt to predict at what time the water levels will be depleted. In the short term, this information will be useful for individuals on the floor to discern when they are able to extract water from the system. Overtime, the information this system gathers will map the drinking trends of the floor and can allow for a scheduling of water delivery that is more consistent with the demand of those working on the floor.
This work details the process of designing and implementing an embedded system
utilized to take measurements from a water cooler and post that data onto a publicly accessible web server. It embraces the Web 4.0, Internet of Things, mindset of making everyday appliances web accessible. The project was designed to satisfy the needs of a local faculty member who wished to know the water levels available in his office water cooler, potentially saving him the disappointment of discovering an empty container.
This project utilizes an Arduino microprocessor, an ESP 8266 Wi-Fi module, and a variety of sensors to detect water levels in filtered water unit located on the fourth floor of the the Brickyard Building, BYENG, at Arizona State University. This implementation will not interfere with the system already set in place to store and transfer water. The level of accuracy in water levels is expected to give the ability to discern +/- 1.5 liters of water. This system will send will send information to a created web service from which anyone with internet capabilities can gain access. The interface will display current water levels and attempt to predict at what time the water levels will be depleted. In the short term, this information will be useful for individuals on the floor to discern when they are able to extract water from the system. Overtime, the information this system gathers will map the drinking trends of the floor and can allow for a scheduling of water delivery that is more consistent with the demand of those working on the floor.
ContributorsEnriquez, Alexander (Author) / Meuth, Ryan (Thesis director) / Burger, Kevin (Committee member) / Computer Science and Engineering Program (Contributor) / Barrett, The Honors College (Contributor)
Created2016-05