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While English language education has become increasingly prominent worldwide, countries have adopted various initiatives to increase English language development. One country making a push for English language development is Taiwan; however, current educational practices and values can prove to be challenges in implementing new methods. For example, although Communicative Language

While English language education has become increasingly prominent worldwide, countries have adopted various initiatives to increase English language development. One country making a push for English language development is Taiwan; however, current educational practices and values can prove to be challenges in implementing new methods. For example, although Communicative Language Teaching (CLT) methods gained popularity starting in the 1990s, they have been slow to take hold in Taiwan. Additionally, Taiwan’s Ministry of Education is pushing for bilingualism by the year 2030, introducing curricular reforms and new strategies to increase the prominence of English on a social level. In order to analyze current educational methods and practices in Taiwan, as well as predict the efficacy of new strategies, this study focused on gathering the perspectives and experiences of the students themselves. International students were specifically targeted, as they have had exposure to multiple educational environments, as well as firsthand experience applying their English language knowledge in an immersive environment. To gather student perspective, an online survey was made available to Taiwanese international students currently studying in a U.S. university. Respondents were asked multiple-choice questions on curricular focus, as well as short answer questions regarding their educational experiences. Overall, the respondents showed an agreement in regards to the heavy emphasis of reading, writing, and grammar in Taiwan, which they correlated directly with high-stakes exams, particularly the university entrance exam. They also noted the lack of speaking and listening practice, as well as a strong desire to apply English in a communicative sense. These observations hold significant implications for various stakeholders, including teachers, principals, curriculum developers, exam designers, and university admissions.
ContributorsEricson, Rebecca Elaine (Author) / Matsuda, Aya (Thesis director) / James, Mark (Committee member) / Historical, Philosophical & Religious Studies (Contributor, Contributor) / School of International Letters and Cultures (Contributor) / Department of English (Contributor) / Barrett, The Honors College (Contributor)
Created2019-12
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The nonprofit organization, I Am Zambia, works to give supplemental education to young women in Lusaka. I Am Zambia is creating sustainable change by educating these females, who can then lift their families and communities out of poverty. The ultimate goal of this thesis was to explore and implement high

The nonprofit organization, I Am Zambia, works to give supplemental education to young women in Lusaka. I Am Zambia is creating sustainable change by educating these females, who can then lift their families and communities out of poverty. The ultimate goal of this thesis was to explore and implement high level systematic problem solving through basic and specialized computational thinking curriculum at I Am Zambia in order to give these women an even larger stepping stool into a successful future.

To do this, a 4-week long pilot curriculum was created, implemented, and tested through an optional class at I Am Zambia, available to women who had already graduated from the year-long I Am Zambia Academy program. A total of 18 women ages 18-24 chose to enroll in the course. There were a total of 10 lessons, taught over 20 class period. These lessons covered four main computational thinking frameworks: introduction to computational thinking, algorithmic thinking, pseudocode, and debugging. Knowledge retention was tested through the use of a CS educational tool, QuizIt, created by the CSI Lab of School of Computing, Informatics and Decision Systems Engineering at Arizona State University. Furthermore, pre and post tests were given to assess the successfulness of the curriculum in teaching students the aforementioned concepts. 14 of the 18 students successfully completed the pre and post test.

Limitations of this study and suggestions for how to improve this curriculum in order to extend it into a year long course are also presented at the conclusion of this paper.
ContributorsGriffin, Hadley Meryl (Author) / Hsiao, Sharon (Thesis director) / Mutsumi, Nakamura (Committee member) / Arts, Media and Engineering Sch T (Contributor) / Computer Science and Engineering Program (Contributor) / Dean, W.P. Carey School of Business (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
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Low-level optimization is the process of handwriting key parts of applications in assembly code that is better than what can be generated from a higher-level language. In performance-intensive applications, this is key to ensuring efficient code. This is generally something that is taught in on the job training, but knowledge

Low-level optimization is the process of handwriting key parts of applications in assembly code that is better than what can be generated from a higher-level language. In performance-intensive applications, this is key to ensuring efficient code. This is generally something that is taught in on the job training, but knowledge of it improves college student’s skill sets and makes them more desirable employees I have created material for a course teaching this low-level optimization with assembly code. I specifically focus on the x86 architecture, as this is one of the most prolific computer architectures. The course contains a series of lecture videos, live coding videos, and structured programming assignments to support the learning objectives. This material is presented in an entirely autonomous way, which serves as remote learning material and can be easily added as supplemental material to an existing course.
ContributorsAbraham, Jacob (Author) / Meuth, Ryan (Thesis director) / Nakamura, Mutsumi (Committee member) / Barrett, The Honors College (Contributor) / Computer Science and Engineering Program (Contributor)
Created2022-05