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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.
Computer-based auditory training programs (CBATPs) are used as an at-home aural rehabilitation solution in individuals with hearing impairment, most commonly in recipients of cochlear implants or hearing aids. However, recent advancements in spatial audio and immersive gameplay have not seen inclusion in these programs. Isle Aliquo, a virtual-reality CBATP, is designed to reformat traditional rehabilitation exercises into virtual 3D space. The program explores how the aural exercise outcomes of detection, discrimination, direction, and identification can be improved with the incorporation of directional spatial audio, as well as how the experience can be made more engaging to improve adherence to training routines. Fundamentals of professional aural rehabilitation and current CBATP design inform the structure of the exercise modules found in Isle Aliquo.
