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- Genre: Academic theses
- Genre: Poetry
- Creators: Arizona State University
- Creators: Bender, Brian, M.F.A
- Resource Type: Text
DescriptionAt its core, Leaning finds profound significance in unlikely moments of intimate
detail; the upkeep of a brother's gravesite, for example, is as quietly important as rummaging through a collection of sex toys. Haiku-like in their simplicity, meditation, and declaration, these poems give meaning to the smallness of our world.
detail; the upkeep of a brother's gravesite, for example, is as quietly important as rummaging through a collection of sex toys. Haiku-like in their simplicity, meditation, and declaration, these poems give meaning to the smallness of our world.
ContributorsBender, Brian, M.F.A (Author) / Ball, Sara (Thesis advisor) / Hummer, Terry (Committee member) / Dubie, Jr., Norman (Committee member) / Arizona State University (Publisher)
Created2015
Description
The biohacker movement is an important and modern form of activism. This study broadly examines how positive-activist-oriented biohackers emerge, organize, and respond to social crises. Despite growing public awareness, few studies have examined biohacking's influence on prevailing notions of organizing and medicine in-context. Therefore, this study examines biohacking in the context of the 2016 EpiPen price-gouging crisis, and explores how biohackers communicatively attempted to constitute counter-narratives and counter-logics about medical access and price through do-it-yourself (DIY) medical device alternatives. Discourse tracing and critical case study analysis are useful methodological frameworks for mapping the historical discursive and material logics that led to the EpiPen pricing crisis, including the medicalization of allergy, the advancement of drug-device combination technologies, and role of public health policy, and pharmaceutical marketing tactics. Findings suggest two new interpretations for how non-traditional forms of organizing facilitate new modes of resistance in times of institutional crisis. First, the study considers the concept of "pop-up maktivism" to conceptualize activism as a type of connective activity rather than collective organizing. Second, findings illustrate how activities such as participation and co-production can function as meaningful forms of institutional resistance within dominant discourses. This study proposes “mirrored materiality” to describe how biohackers deploy certain dominant logics to contest others. Lastly, implications for contributions to the conceptual frameworks of biopower, sociomateriality, and alternative organizing are discussed.
ContributorsDonovan, Matthew (Author) / Tracy, Sarah J. (Thesis advisor) / Nadesan, Majia H (Committee member) / Kim, Heewon (Committee member) / Halavais, Alexander (Committee member) / Arizona State University (Publisher)
Created2019
Description
The purpose of this study is to explore the shifting cultural norms of copyright law, and that concept’s impact on the performance and practice of artists producing original works of authorship. Although related concepts predate it, and today it exists as a subset of a broader category known as intellectual property, the purpose of copyright beginning with the United States Constitution was to allow for a temporary economic monopoly to an author of a fixed creative work. This monopoly was meant to incentivize authors to contribute to the public good with works that promote progress in science and art. However, increases over time in the scope and duration of copyright terms grant broader protections and controls for copyright owners today, while advances in technology have provided the public with the potential for near-limitless low-cost access to information. This creates a conflict between proprietary interest in creative works and the public’s right and ability to access and build on those works. The history of copyright law in America is rife with efforts to balance these competing interests.
The methodology for this study consisted of flexible strategies for collecting and analyzing data, primarily elite, semi-structured interviews with professional artists, attorneys, and others who engage with the cultural and legal norms of intellectual property regimes on a regular basis. Constant comparative analysis was used to maintain an emic perspective, prioritizing the subjective experience of individuals interviewed for this research project. Additional methods for qualitative analysis were also employed here to code and categorize gathered data, including the use of RQDA, a software package for Qualitative Data Analysis that runs within the R statistical software program. Various patterns and behaviors relevant to intellectual property reforms as they relate to artist practices were discussed in detail following the analysis of findings, in an effort to describe how cultural norms of copyright intersect with the creation of original works of authorship, and towards the development of the theory that the semiotic sign systems subject to intellectual property laws are not themselves forms of real property, as they do not meet the categorical requirements of scarce resources.
The methodology for this study consisted of flexible strategies for collecting and analyzing data, primarily elite, semi-structured interviews with professional artists, attorneys, and others who engage with the cultural and legal norms of intellectual property regimes on a regular basis. Constant comparative analysis was used to maintain an emic perspective, prioritizing the subjective experience of individuals interviewed for this research project. Additional methods for qualitative analysis were also employed here to code and categorize gathered data, including the use of RQDA, a software package for Qualitative Data Analysis that runs within the R statistical software program. Various patterns and behaviors relevant to intellectual property reforms as they relate to artist practices were discussed in detail following the analysis of findings, in an effort to describe how cultural norms of copyright intersect with the creation of original works of authorship, and towards the development of the theory that the semiotic sign systems subject to intellectual property laws are not themselves forms of real property, as they do not meet the categorical requirements of scarce resources.
ContributorsBillingsley, Evan (Author) / Russomanno, Joseph (Thesis advisor) / Anderson, Douglas (Committee member) / de la Garza, Amira (Committee member) / Thornton, Leslie-Jean (Committee member) / Arizona State University (Publisher)
Created2018
Description
The ease of programmability in Software-Defined Networking (SDN) makes it a great platform for implementation of various initiatives that involve application deployment, dynamic topology changes, and decentralized network management in a multi-tenant data center environment. However, implementing security solutions in such an environment is fraught with policy conflicts and consistency issues with the hardness of this problem being affected by the distribution scheme for the SDN controllers.
In this dissertation, a formalism for flow rule conflicts in SDN environments is introduced. This formalism is realized in Brew, a security policy analysis framework implemented on an OpenDaylight SDN controller. Brew has comprehensive conflict detection and resolution modules to ensure that no two flow rules in a distributed SDN-based cloud environment have conflicts at any layer; thereby assuring consistent conflict-free security policy implementation and preventing information leakage. Techniques for global prioritization of flow rules in a decentralized environment are presented, using which all SDN flow rule conflicts are recognized and classified. Strategies for unassisted resolution of these conflicts are also detailed. Alternately, if administrator input is desired to resolve conflicts, a novel visualization scheme is implemented to help the administrators view the conflicts in an aesthetic manner. The correctness, feasibility and scalability of the Brew proof-of-concept prototype is demonstrated. Flow rule conflict avoidance using a buddy address space management technique is studied as an alternate to conflict detection and resolution in highly dynamic cloud systems attempting to implement an SDN-based Moving Target Defense (MTD) countermeasures.
In this dissertation, a formalism for flow rule conflicts in SDN environments is introduced. This formalism is realized in Brew, a security policy analysis framework implemented on an OpenDaylight SDN controller. Brew has comprehensive conflict detection and resolution modules to ensure that no two flow rules in a distributed SDN-based cloud environment have conflicts at any layer; thereby assuring consistent conflict-free security policy implementation and preventing information leakage. Techniques for global prioritization of flow rules in a decentralized environment are presented, using which all SDN flow rule conflicts are recognized and classified. Strategies for unassisted resolution of these conflicts are also detailed. Alternately, if administrator input is desired to resolve conflicts, a novel visualization scheme is implemented to help the administrators view the conflicts in an aesthetic manner. The correctness, feasibility and scalability of the Brew proof-of-concept prototype is demonstrated. Flow rule conflict avoidance using a buddy address space management technique is studied as an alternate to conflict detection and resolution in highly dynamic cloud systems attempting to implement an SDN-based Moving Target Defense (MTD) countermeasures.
ContributorsPisharody, Sandeep (Author) / Huang, Dijiang (Thesis advisor) / Ahn, Gail-Joon (Committee member) / Syrotiuk, Violet (Committee member) / Doupe, Adam (Committee member) / Arizona State University (Publisher)
Created2017
Description
Since the early 2000s the Rubik’s Cube has seen growing usage at speedsolving competitions and as an effective tool to teach Science, Technology, Engineering, Mathematics (STEM) topics at hundreds of schools and universities across the world. Recently, cube manufacturers have begun embedding sensors to enable digital face tracking. The live feedback from these so called “smartcubes” enables a new wave of immersive solution tutorials and interactive educational games using the cube as a controller. Existing smartcube software has several limitations. Manufacturers’ applications support only a narrow set of puzzle form factors and application platforms, fragmenting the ecosystem. Most apps require an active internet connection for key features, limiting where users can practice with a smartcube. Finally, existing applications focus on a single 3x3x3connection, losing opportunities afforded by new form factors. This research demonstrates an open-source smartcube application which mitigates these limitations. Particular attention is given to creating an Application Programming Interface (API) for smartcube communication and building representative solve analysis tools. These innovations have included successful negotiations to re-license existing open-source Rubik’sCube software projects to support deployment on multiple platforms, particularly iOS. The resulting application supports smartcubes from three manufacturers, runs on two platforms (Android and iOS), functions entirely offline after an initial download of remote assets, demonstrates concurrent connections with up to six smartcubes, and supports all current and anticipated smartcube form factors. These foundational elements can accelerate future efforts to build smartcube applications, including automated performance feedback systems and personalized gamification of learning experiences. Such advances will hopefully enhance the Rubik’s Cube’s value both as a competitive toy and as a pedagogical tool in educational institutions worldwide.
ContributorsHale, Joseph (Author) / Bansal, Ajay (Thesis advisor) / Heinrichs, Robert (Committee member) / Gary, Kevin (Committee member) / Arizona State University (Publisher)
Created2023