Matching Items (42)
Description
This project draws on sociocognitive rhetoric to ask, How, in complex situations not of our making, do we determine what needs to be done and how to leverage available means for the health of our communities and institutions? The project pulls together rhetorical concepts of the stochastic arts (those that demand the most precise, careful planning in the least predictable places) and techne (problem-solving tools that transform limits and barriers into possibilities) to forward a stochastic techne that grounds contemplative social action at the intersection of invention and intervention and mastery and failure in real time, under constraints we can't control and outcomes we can't predict. Based on 18 months of fieldwork with the Sudanese refugee diaspora in Phoenix, I offer a method for engaging in postmodern phronesis with community partners in four ways: 1) Explanations and examples of public listening and situational mapping 2) Narratives that elucidate the stochastic techne, a heuristic for determining and testing wise rhetorical action 3) Principles for constructing mutually collaborative, mutually beneficial community-university/ community-school partnerships for jointly addressing real-world issues that matter in the places where we live 4) Descriptions and explanations that ground the hard rhetorical work of inventing new paths and destinations as some of the Sudanese women construct hybridized identities and models of social entrepreneurship that resist aid-to-Africa discourse based on American paternalism and humanitarianism and re-cast themselves as micro-financers of innovative work here and in Southern Sudan. Finally, the project pulls back from the Sudanese to consider implications for re-figuring secondary English education around phronesis. Here, I offer a framework for teachers to engage in the real work of problem-posing that aims - as Django Paris calls us - to get something done by confronting the issues that confront our communities. Grounded in classroom instruction, the chapter provides tools for scaffolding public listening, multi-voiced inquiries, and phronesis with and for local publics. I conclude by calling for English education to abandon all pretense of being a predictive science and to instead embrace productive knowledge-making and the rhetorical work of phronesis as the heart of secondary English studies.
ContributorsClifton, Jennifer (Author) / Long, Elenore (Thesis advisor) / Gee, James Paul (Committee member) / Paris, Django (Committee member) / Warriner, Doris (Committee member) / Arizona State University (Publisher)
Created2012
Description
Programming is quickly becoming as ubiquitous and essential a skill as general mathematics. However, many elementary and high school students are still not aware of what the computer science field entails. To make matters worse, students who are introduced to computer science are frequently being fed only part of what it is about rather than its entire construction. Consequently, they feel out of their depth when they approach college. Research has discovered that by teaching computer science and programming through a problem-driven approach and focusing on a combination of syntax and computational thinking, students can be prepared when entering higher levels of computer science education.
This thesis describes the design, development, and early user testing of a theory-based virtual world for computer science instruction called System Dot. System Dot was designed to visually manifest programming instructions into interactable objects, giving players a way to see coding as tangible entities rather than text on a white screen. In order for System Dot to convey the true nature of computer science, a custom predictive recursive descent parser was embedded in the program to validate any user-generated solutions to pre-defined logical platforming puzzles.
Steps were taken to adapt the virtual world to player behavior by creating a system to detect their learning style playing the game. Through a dynamic Bayesian network, System Dot aims to classify a player’s learning style based on the Felder-Sylverman Learning Style Model (FSLSM). Testers played through the first half of System Dot, which was enough to test out the Bayesian network and initial learning style classification. This classification was then compared to the assessment by Felder’s Index of Learning Styles Questionnaire (ILSQ). Lastly, this thesis will also discuss ways to use the results from the user testing to implement a personalized feedback system for the virtual world in the future and what has been learned through the learning style method.
This thesis describes the design, development, and early user testing of a theory-based virtual world for computer science instruction called System Dot. System Dot was designed to visually manifest programming instructions into interactable objects, giving players a way to see coding as tangible entities rather than text on a white screen. In order for System Dot to convey the true nature of computer science, a custom predictive recursive descent parser was embedded in the program to validate any user-generated solutions to pre-defined logical platforming puzzles.
Steps were taken to adapt the virtual world to player behavior by creating a system to detect their learning style playing the game. Through a dynamic Bayesian network, System Dot aims to classify a player’s learning style based on the Felder-Sylverman Learning Style Model (FSLSM). Testers played through the first half of System Dot, which was enough to test out the Bayesian network and initial learning style classification. This classification was then compared to the assessment by Felder’s Index of Learning Styles Questionnaire (ILSQ). Lastly, this thesis will also discuss ways to use the results from the user testing to implement a personalized feedback system for the virtual world in the future and what has been learned through the learning style method.
ContributorsKury, Nizar (Author) / Nelson, Brian C (Thesis advisor) / Hsiao, Ihan (Committee member) / Kobayashi, Yoshihiro (Committee member) / Arizona State University (Publisher)
Created2017
Description
In the real world outside of schools, contemporary students are routinely reading, writing, communicating, acting, and learning internationally, translingually, and multimodally, thanks to the prevalence of digital online communication; this has taken place across students’ racial, ethnic, and linguistic identities and national affiliations. Today, the global online contexts are considered as one of essential literacy environments, and the globally networked online contexts might become a main stage of future literacy practices.
In this sense, this study develops new three theories about literacies studies from the perspective of the New Literacy Studies in an increasingly digitalized and globalized contemporary world. To achieve this, first, I introduced the features of a global online affinity space as a new concept. Second, I developed the theoretical claim of “complexified diversity.” Finally, I developed the theoretical concept of “Border-Crossing Discourses” on the basis of Gee’s (1990/2015) seminal idea of capital “D” Discourses. I expanded the concept of capital “D” Discourses, looking across borders at a variety of languages, nations, and broader cultures under the global view. The concept of Border-Crossing Discourses was established on the basis of the new concepts that I put forth previously of global online affinity spaces and complexified diversity.
As an example of possible supplementary empirical studies, I conducted a small piece of discourse analysis. I observed and examined literacy practices in two global online affinity spaces. They are sites devoted to K-pop fanfiction sharing (hereafter, Asianfanfics) and to Japanese anime (hereafter, Crunchyroll). In particular, I explored the aspects of multimodal and translingual practices in these spaces. Both theoretical and empirical future research will contribute to the elaboration of these theories.
In this sense, this study develops new three theories about literacies studies from the perspective of the New Literacy Studies in an increasingly digitalized and globalized contemporary world. To achieve this, first, I introduced the features of a global online affinity space as a new concept. Second, I developed the theoretical claim of “complexified diversity.” Finally, I developed the theoretical concept of “Border-Crossing Discourses” on the basis of Gee’s (1990/2015) seminal idea of capital “D” Discourses. I expanded the concept of capital “D” Discourses, looking across borders at a variety of languages, nations, and broader cultures under the global view. The concept of Border-Crossing Discourses was established on the basis of the new concepts that I put forth previously of global online affinity spaces and complexified diversity.
As an example of possible supplementary empirical studies, I conducted a small piece of discourse analysis. I observed and examined literacy practices in two global online affinity spaces. They are sites devoted to K-pop fanfiction sharing (hereafter, Asianfanfics) and to Japanese anime (hereafter, Crunchyroll). In particular, I explored the aspects of multimodal and translingual practices in these spaces. Both theoretical and empirical future research will contribute to the elaboration of these theories.
ContributorsLee, Kewman M (Author) / Gee, James Paul (Thesis advisor) / Serafini, Frank (Committee member) / Warriner, Doris S. (Committee member) / Lam, Wan Shun Eva (Committee member) / Arizona State University (Publisher)
Created2018
Description
The original version of Helix, the one I pitched when first deciding to make a video game
for my thesis, is an action-platformer, with the intent of metroidvania-style progression
and an interconnected world map.
The current version of Helix is a turn based role-playing game, with the intent of roguelike
gameplay and a dark fantasy theme. We will first be exploring the challenges that came
with programming my own game - not quite from scratch, but also without a prebuilt
engine - then transition into game design and how Helix has evolved from its original form
to what we see today.
for my thesis, is an action-platformer, with the intent of metroidvania-style progression
and an interconnected world map.
The current version of Helix is a turn based role-playing game, with the intent of roguelike
gameplay and a dark fantasy theme. We will first be exploring the challenges that came
with programming my own game - not quite from scratch, but also without a prebuilt
engine - then transition into game design and how Helix has evolved from its original form
to what we see today.
ContributorsDiscipulo, Isaiah K (Author) / Meuth, Ryan (Thesis director) / Kobayashi, Yoshihiro (Committee member) / School of Mathematical and Statistical Sciences (Contributor) / Computer Science and Engineering Program (Contributor) / Barrett, The Honors College (Contributor)
Created2020-05
Description
The objective of this project concentrates on the game Defense of the Ancients 2 (Dota 2). In this game, players are constantly striving to improve their skills, which are fueled by the competitive nature of the game. The design influences the community to engage in this interaction as they play the game cooperatively. This thesis illustrates the importance of player interaction in influencing design as well as how imperative design is in affecting player interaction. These two concepts are not separate, but are deeply entwined. Every action performed within a game has to interact with some element of design. Both determine how games become defined as competitive, casual, or creative. Game designers can benefit from this study as it reinforces the basics of developing a game for players to interact with. However, it is impossible to predict exactly how players will react to a designed element. Designers should remember to tailor the game towards their audience, but also react and change the game depending on how players are using the elements of design. In addition, players should continue to push the boundaries of games to help designers adapt their product to their audience. If there is not constant communication between players and designers, games will not be tailored appropriately. Pushing the limits of a game benefits the players as well as the designers to make a more complete game. Designers do not solely create a game for the players. Rather, players design the game for themselves. Keywords: game design, player interaction, affinity space, emergent behavior, Dota 2
ContributorsLarsen, Austin James (Author) / Gee, James Paul (Thesis director) / Holmes, Jeffrey (Committee member) / Kobayashi, Yoshihiro (Committee member) / Barrett, The Honors College (Contributor) / Computing and Informatics Program (Contributor) / School of Arts, Media and Engineering (Contributor)
Created2015-05
Description
This project is a Game Engine for 2D Fighting Games which uses Simple DirectMedia Layer and C++. The Game Engine's goal is to model the conventions the genre has for dynamically handling combat between two characters. The characters can be in a variety of different states that animate certain features while also responding to the environment based on key statuses. There is a playable test game that is the subject of a user study. The Game Engine's capabilities are shown by the test game and the limitations / missing features are discussed.
ContributorsStanton, Nicholas Scott (Author) / Kobayashi, Yoshihiro (Thesis director) / Hansford, Dianne (Committee member) / Computer Science and Engineering Program (Contributor) / Sanford School of Social and Family Dynamics (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05
Description
This paper details the process for designing both a simulation of the board game Jaipur, and an artificial intelligence (AI) agent that can play the game against a human player. When designing an AI for a card game, there are two major problems that can arise. The first is the difficulty of using a search space to analyze every possible set of future moves. Due to the randomized nature of the deck of cards, the search space rapidly leads to an exponentially growing set of potential game states to analyze when one tries to look more than one turn ahead. The second aspect that poses difficulty is the element of uncertainty that exists from opponent feedback. Certain moves are weak to specific opponent reactions, and these are difficult to predict due to hidden information. To circumvent these problems, the AI uses a greedy approach to decision making, attempting to maximize the value of its plays immediately, and not play for future turns. The agent utilizes conditional statements to evaluate the game state and choose a game action that it deems optimal, a heuristic to place an expected value (EV) of the goods it can choose from, and selects the best one based on this evaluation. Initial implementation of the simulation was done using C++ through a terminal application, and then was translated to a graphical interface using Unity and C#.
ContributorsOrr, James Christopher (Author) / Kobayashi, Yoshihiro (Thesis director) / Selgrad, Justin (Committee member) / Computer Science and Engineering Program (Contributor) / Barrett, The Honors College (Contributor)
Created2018-05
Description
Speech recognition in games is rarely seen. This work presents a project, a 2D computer game named "The Emblems" which utilizes speech recognition as input. The game itself is a two person strategy game whose goal is to defeat the opposing player's army. This report focuses on the speech-recognition aspect of the project. The players interact on a turn-by-turn basis by speaking commands into the computer's microphone. When the computer recognizes a command, it will respond accordingly by having the player's unit perform an action on screen.
ContributorsNguyen, Jordan Ngoc (Author) / Kobayashi, Yoshihiro (Thesis director) / Maciejewski, Ross (Committee member) / Barrett, The Honors College (Contributor) / Computing and Informatics Program (Contributor) / Computer Science and Engineering Program (Contributor)
Created2014-05
Description
The project, "The Emblems: OpenGL" is a 2D strategy game that incorporates Speech Recognition for control and OpenGL for computer graphics. Players control their own army by voice commands and try to eliminate the opponent's army. This report focuses on the 2D art and visual aspects of the project. There are different sprites for the player's army units and icons within the game. The game also has a grid for easy unit placement.
ContributorsHsia, Allen (Author) / Kobayashi, Yoshihiro (Thesis director) / Maciejewski, Ross (Committee member) / Barrett, The Honors College (Contributor) / Computer Science and Engineering Program (Contributor)
Created2014-05
Description
The objective of this creative project was to gain experience in digital modeling, animation, coding, shader development and implementation, model integration techniques, and application of gaming principles and design through developing a professional educational game. The team collaborated with Glendale Community College (GCC) to produce an interactive product intended to supplement educational instructions regarding nutrition. The educational game developed, "Nutribots" features the player acting as a nutrition based nanobot sent to the small intestine to help the body. Throughout the game the player will be asked nutrition based questions to test their knowledge of proteins, carbohydrates, and lipids. If the player is unable to answer the question, they must use game mechanics to progress and receive the information as a reward. The level is completed as soon as the question is answered correctly. If the player answers the questions incorrectly twenty times within the entirety of the game, the team loses faith in the player, and the player must reset from title screen. This is to limit guessing and to make sure the player retains the information through repetition once it is demonstrated that they do not know the answers. The team was split into two different groups for the development of this game. The first part of the team developed models, animations, and textures using Autodesk Maya 2016 and Marvelous Designer. The second part of the team developed code and shaders, and implemented products from the first team using Unity and Visual Studio. Once a prototype of the game was developed, it was show-cased amongst peers to gain feedback. Upon receiving feedback, the team implemented the desired changes accordingly. Development for this project began on November 2015 and ended on April 2017. Special thanks to Laura Avila Department Chair and Jennifer Nolz from Glendale Community College Technology and Consumer Sciences, Food and Nutrition Department.
ContributorsNolz, Daisy (Co-author) / Martin, Austin (Co-author) / Quinio, Santiago (Co-author) / Armstrong, Jessica (Co-author) / Kobayashi, Yoshihiro (Thesis director) / Valderrama, Jamie (Committee member) / School of Arts, Media and Engineering (Contributor) / School of Film, Dance and Theatre (Contributor) / Department of English (Contributor) / Computer Science and Engineering Program (Contributor) / Computing and Informatics Program (Contributor) / Herberger Institute for Design and the Arts (Contributor) / School of Sustainability (Contributor) / Barrett, The Honors College (Contributor)
Created2017-05