Barrett

Barrett, The Honors College at Arizona State University proudly showcases the work of undergraduate honors students by sharing this collection exclusively with the ASU community.

Barrett accepts high performing, academically engaged undergraduate students and works with them in collaboration with all of the other academic units at Arizona State University. All Barrett students complete a thesis or creative project which is an opportunity to explore an intellectual interest and produce an original piece of scholarly research. The thesis or creative project is supervised and defended in front of a faculty committee. Students are able to engage with professors who are nationally recognized in their fields and committed to working with honors students. Completing a Barrett thesis or creative project is an opportunity for undergraduate honors students to contribute to the ASU academic community in a meaningful way.

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Responders & Rivals: Supporting Those That Serve

Description

This creative project outlines the steps taken to successfully plan and host a fundraising event at Arizona State University. In my case, this more specifically dealt with organizing a dodgeball tournament between two friendly rivals: police officers and firefighters in the city of Phoenix. All proceeds raised from this fundraising

This creative project outlines the steps taken to successfully plan and host a fundraising event at Arizona State University. In my case, this more specifically dealt with organizing a dodgeball tournament between two friendly rivals: police officers and firefighters in the city of Phoenix. All proceeds raised from this fundraising dodgeball tournament were donated back to first responders working in the city of Phoenix.
ContributorsMinton, Sarah (Author) / Aberra, Blaine (Co-author) / Eaton, Kate (Thesis director) / McIntosh, Daniel (Committee member) / Barrett, The Honors College (Contributor) / Department of Information Systems (Contributor) / Department of Marketing (Contributor)
Created2023-05
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Leveraging Blockchain for Plasma Fractionation Supply Chains

Description
This study aims to examine how the use of consensus-based transactions, smart contracts,and interoperability, provided by blockchain, may benefit the blood plasma industry. Plasmafractionation is the process of separating blood into multiple components to garner benefitsof increased lifespan, specialized allocation, and decreased waste, thereby creating a morecomplex and flexible supply

This study aims to examine how the use of consensus-based transactions, smart contracts,and interoperability, provided by blockchain, may benefit the blood plasma industry. Plasmafractionation is the process of separating blood into multiple components to garner benefitsof increased lifespan, specialized allocation, and decreased waste, thereby creating a morecomplex and flexible supply chain. Traditional applications of blockchain are developed onthe basis of decentralization—an infeasible policy for this sector due to stringent governmentregulations, such as HIPAA. However, the trusted nature of the relations in the plasmaindustry’s taxonomy proves private and centralized blockchains as the viable alternative.Implementations of blockchain are widely seen across pharmaceutical supply chains to combatthe falsification of possibly afflictive drugs. This system is more difficult to manage withblood, due to the quick perishable time, tracking/tracing of recycled components, and thenecessity of real-time metrics. Key attributes of private blockchains, such as digital identity,smart contracts, and authorized ledgers, may have the possibility of providing a significantpositive impact on the allocation and management functions of blood banks. Herein, we willidentify the economy and risks of the plasma ecosystem to extrapolate specific applications forthe use of blockchain technology. To understand tangible effects of blockchain, we developeda proof of concept application, aiming to emulate the business logic of modern plasma supplychain ecosystems adopting a blockchain data structure. The application testing simulates thesupply chain via agent-based modeling to analyze the scalability, benefits, and limitations ofblockchain for the plasma fractionation industry.
ContributorsVallabhaneni, Saipavan K (Author) / Boscovic, Dragan (Thesis director) / Kellso, James (Committee member) / Department of Information Systems (Contributor) / Department of Supply Chain Management (Contributor) / Barrett, The Honors College (Contributor)
Created2020-05
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Digital Identity on a Blockchain Platform

Description
The purpose of this research paper is to examine the fundamentals of blockchain technology and how the application of blockchain could serve as a future platform for identity. An identity is used, as the name suggests, to identify who or what an entity is. Although seen as a trivial concept,

The purpose of this research paper is to examine the fundamentals of blockchain technology and how the application of blockchain could serve as a future platform for identity. An identity is used, as the name suggests, to identify who or what an entity is. Although seen as a trivial concept, defining what truly makes up an identity can become quite difficult. Is an identity the thoughts, feelings, or tendencies of a person? Are more tangible assets like a Social Security card, birth certificate, or passport a person’s identity? Can nonhuman entities like businesses or organizations possess an identity? The true definition of an identity may never be known; however, it is certain that several pieces of identifying data lay scattered across multiple databases. Often a person may not have control or even access to these third-party databases that hold their information. Moreover, what information, for how long, and in what way the data is being used may be unclear. Blockchain provides a solution to the identity problem by providing a visible, secure single source of truth. On a blockchain platform, a person would no longer have to trust the goodwill of third parties to secure their data or be uncertain about how the data is being used. Instead, a user could secure their own data and only permission those deemed necessary. The signal immutable ledger would serve to replace current tangible identities as a means to verify yourself in a digital age.
ContributorsRuggaard, Kyle Russell (Author) / Taylor, Todd (Thesis director) / Collins, Gregory (Committee member) / Thunderbird School of Global Management (Contributor) / Department of Supply Chain Management (Contributor) / Department of Information Systems (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
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Sustainability in Supply Management: An Analysis of Intelligent Supply Chain Designs in Promoting the Triple Bottom Line

Description
Sustainable supply chain management has become increasingly more important for companies over the last decade. The need to create socially and environmentally sustainable supply chains that are also efficient and profitable is no longer something companies should do, but rather something they must do to stay competitive and successful in

Sustainable supply chain management has become increasingly more important for companies over the last decade. The need to create socially and environmentally sustainable supply chains that are also efficient and profitable is no longer something companies should do, but rather something they must do to stay competitive and successful in the long run. Through the examination of scholarly supply chain literature, case studies, and industry reports with an emphasis on digital technology, supply chain, and sustainability, a conceptual model was created to begin the research in the area of cost savings through the use of digital technologies to enable companies to be more sustainable. This paper works to define the terms sustainability, sustainable supply chain management, and intelligent supply chain designs. It focuses on the positive social and environmental impact of the implementation of leading-edge digital technologies in supply management processes by creating transparency, efficiency, and reliability throughout the supply chain. Through an applied analysis of Mattel, Rana Plaza, Nike, and Coca-Cola and a cost-benefit analysis, it is concluded that companies that implement blockchain technology into their supply management process designs may create more sustainable supply chains while increasing savings and increasing profits. Blockchain may provide the reliability and transparency needed to better manage the supply management process which will evoke better business decisions. Intelligent supply chain designs improve the environmental and social sustainability of a company while maintaining a competitive edge.

Keywords. Supply Chain Management, Social Responsibility, Sustainability, Economics, Supply Management, Blockchain, Intelligent Technology
Paper Type. Conceptual Paper
ContributorsVon Mizener, Noel Maria Yvonne Svetlana (Author) / Carter, Craig (Thesis director) / Forst, Bradley (Committee member) / Dean, W.P. Carey School of Business (Contributor) / Department of Information Systems (Contributor) / Department of Supply Chain Management (Contributor) / Barrett, The Honors College (Contributor)
Created2019-05
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Eventcity: Connecting Communities Everywhere

Description
The Founders Lab is a team-focused, exploratory Barrett Thesis project that allows students the opportunity to discover and utilize their “inner entrepreneur”. This project empowers teams of students to come up with a business idea; create a strategic business model; conduct research on a target market; generate a brand style,

The Founders Lab is a team-focused, exploratory Barrett Thesis project that allows students the opportunity to discover and utilize their “inner entrepreneur”. This project empowers teams of students to come up with a business idea; create a strategic business model; conduct research on a target market; generate a brand style, logo, and other marketing-related materials; meet with business professionals as a way to receive feedback; and finalize a business plan with tangible deliverables. This project in particular focuses on the creation of an app that allows users to connect with others in competitive esports tournaments and participate in tutoring sessions for financial incentives. Throughout our experience participating in the Founders Lab, we were able to construct this business pitch entitled, Eventcity.
ContributorsWandzilak, Olivia (Author) / Tefft, Austin (Co-author) / Smith, Garrison (Co-author) / Byrne, Jared (Thesis director) / Pierce, John (Committee member) / Balven, Rachel (Committee member) / Barrett, The Honors College (Contributor) / Department of Information Systems (Contributor) / Department of Marketing (Contributor)
Created2022-05

Dendritic Identifiers and Applications in the Food Supply Chain: Understanding the Use Environment of Commercially Grown Leafy Green Vegetables

Description
The purpose of this research is to better understand the potential use environment of a Dendritic Identifier within the current leafy green supply chain, including the exploration of potential costs of implementation as well as non-economic costs. This information was collected through an extensive review of literature and through the

The purpose of this research is to better understand the potential use environment of a Dendritic Identifier within the current leafy green supply chain, including the exploration of potential costs of implementation as well as non-economic costs. This information was collected through an extensive review of literature and through the engagement in in-depth interviews with professionals that work in the growing, distribution, and processing of leafy greens. Food safety in the leafy green industry is growing in importance in the wake of costly outbreaks that resulted and recalls and lasting market damage. The Dendritic Identifier provides a unique identification tag that is unclonable, scannable, and compatible with blockchain systems. It is a digital trigger that can be implemented throughout the commercial leafy green supply chain to increase visibility from farm to fork for the consumer and a traceability system for government agencies to trace outbreaks. Efforts like the Food Safety Modernization Act, the Leafy Green Marketing Agreement, and other certifications aim at establishing science-based standards regarding soil testing, water, animal feces, imports, and more. The leafy green supply chains are fragmented in terms of tagging methods and data management services used. There are obstacles in implementing Dendritic Identifiers in that all parties must have systems capable of joining blockchain networks. While there is still a lot to take into consideration for implementation, solutions like the IBM Food Trust pose options for a more fluid transfer of information. Dendritic Identifiers beat out competing tagging technologies in that they work with cellphones, are low cost, and are blockchain compatible. Growers and processors are excited by the opportunity to showcase their extensive food safety measures. The next step in understanding the use environment is to focus on the retail distribution and the retailer specifically.
ContributorsMin, Eleanor (Author) / Manfredo, Mark (Thesis director) / Kozicki, Michael (Committee member) / Barrett, The Honors College (Contributor) / Department of Information Systems (Contributor) / Department of Supply Chain Management (Contributor)
Created2022-05
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Min Final Project (Spring 2022)

Description

The purpose of this research is to better understand the potential use environment of a Dendritic Identifier within the current leafy green supply chain, including the exploration of potential costs of implementation as well as non-economic costs. This information was collected through an extensive review of literature and through the

The purpose of this research is to better understand the potential use environment of a Dendritic Identifier within the current leafy green supply chain, including the exploration of potential costs of implementation as well as non-economic costs. This information was collected through an extensive review of literature and through the engagement in in-depth interviews with professionals that work in the growing, distribution, and processing of leafy greens. Food safety in the leafy green industry is growing in importance in the wake of costly outbreaks that resulted and recalls and lasting market damage. The Dendritic Identifier provides a unique identification tag that is unclonable, scannable, and compatible with blockchain systems. It is a digital trigger that can be implemented throughout the commercial leafy green supply chain to increase visibility from farm to fork for the consumer and a traceability system for government agencies to trace outbreaks. Efforts like the Food Safety Modernization Act, the Leafy Green Marketing Agreement, and other certifications aim at establishing science-based standards regarding soil testing, water, animal feces, imports, and more. The leafy green supply chains are fragmented in terms of tagging methods and data management services used. There are obstacles in implementing Dendritic Identifiers in that all parties must have systems capable of joining blockchain networks. While there is still a lot to take into consideration for implementation, solutions like the IBM Food Trust pose options for a more fluid transfer of information. Dendritic Identifiers beat out competing tagging technologies in that they work with cellphones, are low cost, and are blockchain compatible. Growers and processors are excited by the opportunity to showcase their extensive food safety measures. The next step in understanding the use environment is to focus on the retail distribution and the retailer specifically.
ContributorsMin, Eleanor (Author) / Manfredo, Mark (Thesis director) / Kozicki, Michael (Committee member) / Barrett, The Honors College (Contributor) / Department of Information Systems (Contributor)
Created2022-05
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Min Final Project Presentation (Spring 2022)

Description

The purpose of this research is to better understand the potential use environment of a Dendritic Identifier within the current leafy green supply chain, including the exploration of potential costs of implementation as well as non-economic costs. This information was collected through an extensive review of literature and through the

The purpose of this research is to better understand the potential use environment of a Dendritic Identifier within the current leafy green supply chain, including the exploration of potential costs of implementation as well as non-economic costs. This information was collected through an extensive review of literature and through the engagement in in-depth interviews with professionals that work in the growing, distribution, and processing of leafy greens. Food safety in the leafy green industry is growing in importance in the wake of costly outbreaks that resulted and recalls and lasting market damage. The Dendritic Identifier provides a unique identification tag that is unclonable, scannable, and compatible with blockchain systems. It is a digital trigger that can be implemented throughout the commercial leafy green supply chain to increase visibility from farm to fork for the consumer and a traceability system for government agencies to trace outbreaks. Efforts like the Food Safety Modernization Act, the Leafy Green Marketing Agreement, and other certifications aim at establishing science-based standards regarding soil testing, water, animal feces, imports, and more. The leafy green supply chains are fragmented in terms of tagging methods and data management services used. There are obstacles in implementing Dendritic Identifiers in that all parties must have systems capable of joining blockchain networks. While there is still a lot to take into consideration for implementation, solutions like the IBM Food Trust pose options for a more fluid transfer of information. Dendritic Identifiers beat out competing tagging technologies in that they work with cellphones, are low cost, and are blockchain compatible. Growers and processors are excited by the opportunity to showcase their extensive food safety measures. The next step in understanding the use environment is to focus on the retail distribution and the retailer specifically.
ContributorsMin, Eleanor (Author) / Manfredo, Mark (Thesis director) / Kozicki, Michael (Committee member) / Barrett, The Honors College (Contributor) / Department of Information Systems (Contributor)
Created2022-05

Zivoe Finance: Taking Aim at High-Interest Lending

Description
This paper dives into the economic theory behind credit and lending markets to uncover the driving forces behind financial exclusion in modern finance. It breaks down the market size and demographic of the unbanked population in the United States and highlights the market failures and bad actors responsible for causing

This paper dives into the economic theory behind credit and lending markets to uncover the driving forces behind financial exclusion in modern finance. It breaks down the market size and demographic of the unbanked population in the United States and highlights the market failures and bad actors responsible for causing financial exclusion in credit markets. Finally, it introduces Zivoe Finance, a new approach to financial inclusion that is designed to expand affordable credit access across the globe. Zivoe is a decentralized credit protocol started in part by the authors of this paper that empowers anyone to fund affordable, inclusive loans in underserved financial sectors. The remainder of this paper is dedicated to understanding Zivoe Finance, how it works, the challenges the authors faced in building it, and how one can participate in its mission moving forward.
ContributorsAbbasi, Thor (Author) / Baca, Dennis (Co-author) / Sopha, Matt (Thesis director) / Ikram, Atif (Committee member) / Barrett, The Honors College (Contributor) / Department of Information Systems (Contributor)
Created2022-12

Zivoe Finance: Taking Aim At High-Interest Lending

Description
This paper dives into the economic theory behind credit and lending markets to uncover the driving forces behind financial exclusion in modern finance. It breaks down the market size and demographic of the unbanked population in the United States and highlights the market failures and bad actors responsible for causing

This paper dives into the economic theory behind credit and lending markets to uncover the driving forces behind financial exclusion in modern finance. It breaks down the market size and demographic of the unbanked population in the United States and highlights the market failures and bad actors responsible for causing financial exclusion in credit markets. Finally, it introduces Zivoe Finance, a new approach to financial inclusion that is designed to expand affordable credit access across the globe. Zivoe is a decentralized credit protocol started in part by the authors of this paper that empowers anyone to fund affordable, inclusive loans in underserved financial sectors. The remainder of this paper is dedicated to understanding Zivoe Finance, how it works, the challenges the authors faced in building it, and how one can participate in its mission moving forward.
ContributorsBaca, Dennis (Author) / Abbasi, Thor (Co-author) / Sopha, Matthew (Thesis director) / Ikram, Atif (Committee member) / Barrett, The Honors College (Contributor) / Department of Finance (Contributor) / Department of Information Systems (Contributor)
Created2022-12