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- Creators: Computer Science and Engineering Program
- Resource Type: Text
Description
Less than half of all premedical applicants get accepted into a medical school, 39.3% of applicants to be precise, and that statistic is based on the number of matriculants out of the total applicants in 2015. With such a discouraging acceptance rate, many students who start out as premed are often not towards the end of their undergraduate career and post-graduation because they do not feel prepared for medical school. It’s difficult for premed students to find all the information they need in one place rather than going from place to place or school website to school website. Additionally, it can be a hassle for premeds to keep track of all their coursework and calculate separate GPAs for each category especially due to how annoying Excel spread sheets can be. This is where the conceptualization of Premed Portfolio comes in. Premed Portfolio is a prototype mobile application. Premed Portfolio aims to streamline the process of preparing for medical school by guiding students to create a portfolio aimed to address the most important aspects of a medical school application. Students will be able to keep track of their cumulative GPA, BCPM (also known as science/math) GPA, MCAT Scores, prerequisite coursework and many more targeted areas of medical school. Premed Portfolio will also hope to use the stats that students provide and educate them on their chances of getting into medical school.
ContributorsSiddique, Shabab (Co-author, Co-author) / Rahman, Ahnaf (Co-author) / Patel, Dhruv (Co-author) / Sarwat Abdelghany Aly Elsayed, Mohamed (Thesis director) / Coursen, Jerry (Committee member) / Computer Science and Engineering Program (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
Description
The goal of this product was to create a highly customizable application in which any individual, musician or not, can create a harmony for the user’s melody. This Automating Music Composer is built on the underlying rules of music composition, rules that are unique for each type of music available. This program is built on rules that are similar to how a Finite State Machine works (Fig 1). Each state represents a different chord in a given key, where the first roman numeral represents the first note in the chord progression. Each transition represents the action that can be taken by the chord progression, or the next note that can be reached by the current note. The user is able to manipulate these rules and styles, adjust different musical parameters to their liking, and is able to input their own melody, which then will output a unique harmony. This product aims to bridge the gap between predictive technologies and musical composition. Allowing the user to be more involved in the composition process helps the program to act as a tool for the user, rather than a separate entity that simply gives the user a completed recording. This allows the user to appreciate and understand what they are helping to produce more than they would if they were to simply be an inactive consumer of a random music composer. This product is meant to feel like an extension of the user, rather than a separate tool.
ContributorsKumar, Dhantin (Co-author) / Lopez, Christian (Co-author) / Nakamura, Mutsumi (Thesis director) / Blount, Andrew (Committee member) / Computer Science and Engineering Program (Contributor) / Barrett, The Honors College (Contributor)
Created2020-05
Description
Gamification is used to provide an entertaining alternative to educate an individual on a topic that has proven to be difficult, confusing, or undesirable. This thesis describes the design of a video game whose goal was to provide a way for coders and non-coders to educate themselves on programming scopes while also being entertained in the process. Reaching the goal required using the puzzle genre to create a concept where programming scopes would serve as the primary mechanic while also using various other programming concepts to complement it. These concepts include variables, values, functions, programming statements, and conditions.
In order to ensure that the game worked both as an educational tool as well as an entertaining one, informal testers were used with various degrees of experience in both coding and video games. After reaching the end of the game, each of the testers demonstrated that they understood the programming concepts in their video game form. However, this understanding came after additional verbal help was supplied and illustrated that the tutorial section of the game would need to be re-worked in order to efficiently demonstrate each concept.
In order to ensure that the game worked both as an educational tool as well as an entertaining one, informal testers were used with various degrees of experience in both coding and video games. After reaching the end of the game, each of the testers demonstrated that they understood the programming concepts in their video game form. However, this understanding came after additional verbal help was supplied and illustrated that the tutorial section of the game would need to be re-worked in order to efficiently demonstrate each concept.
ContributorsLucero, Elijah Ray (Author) / Bazzi, Rida (Thesis director) / Selgrad, Justin (Committee member) / Computer Science and Engineering Program (Contributor) / Barrett, The Honors College (Contributor)
Created2020-05