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Electricity & the Arts: Creative Thesis Projects

Description

Engineering, and more specifically, electrical engineering can be a difficult topic to explain through spoken communication. Along with taking years of education to learn and understand necessary topics, the field is riddled with jargon and items that may take lectures to explain. However, this type of education may not be…

Engineering, and more specifically, electrical engineering can be a difficult topic to explain through spoken communication. Along with taking years of education to learn and understand necessary topics, the field is riddled with jargon and items that may take lectures to explain. However, this type of education may not be feasible for a younger or inexperienced audience. Therefore, engineers must find new ways to explain such difficult topics, especially in an attempt to garner interest in children, for example, through art.

ContributorsHedges, Madison (Author) / Aukes, Daniel (Thesis director) / Weeks, Eric (Committee member) / Barrett, The Honors College (Contributor) / Engineering Programs (Contributor) / School of Earth and Space Exploration (Contributor)

Created2023-12

Using Microwaves to Detect Various Substances in a Sample of Water

Description

This research explores the potential use of microwave energy to detect various substances in water, with a focus on water quality assessment and pathogen detection applications. There are many non-thermal effects of microwaves on microorganisms and their resonant frequencies could be used to identify and possibly destroy harmful pathogens, such…

This research explores the potential use of microwave energy to detect various substances in water, with a focus on water quality assessment and pathogen detection applications. There are many non-thermal effects of microwaves on microorganisms and their resonant frequencies could be used to identify and possibly destroy harmful pathogens, such as bacteria and viruses, without heating the water. A wide range of materials, including living organisms like Daphnia and Moina, plants, sand, plastic, and salt, were subjected to microwave measurements to assess their influence on the transmission (S21) measurements. The measurements of the living organisms did not display distinctive resonant frequencies and variations in water volume may be the source of the small measurement differences. Conversely, sand and plastic pellets affected the measurements differently, with their arrangement within the test tube emerging as a significant factor. This study also explores the impact of salinity on measurements, revealing a clear pattern that can be modeled as a series RLC resonator. Although unique resonant frequencies for the tested organisms were not identified, the presented system demonstrates the potential for detecting contaminants based on variations in measurements. Future research may extend this work to include a broader array of organisms and enhance measurement precision.

ContributorsChild, Carson (Author) / Aberle, James (Thesis director) / Blain Christen, Jennifer (Committee member) / Barrett, The Honors College (Contributor) / Electrical Engineering Program (Contributor)

Created2023-12

Bottled Borders

Description

Bottled Borders was apart of Founders Lab, a team-based, experiential Barrett honors thesis/creative project designed to empower honors students to "find their inner entrepreneur" and launch a new business. Bottled Borders is an innovative gift giving service offering a SouthWest style mixology box. Our unique approach focuses on the SouthWest…

Bottled Borders was apart of Founders Lab, a team-based, experiential Barrett honors thesis/creative project designed to empower honors students to "find their inner entrepreneur" and launch a new business. Bottled Borders is an innovative gift giving service offering a SouthWest style mixology box. Our unique approach focuses on the SouthWest region of the US including Arizona, Nevada, Utah, New Mexico, and Colorado. Our model allows customers to explore the flavors of the Southwest, featuring signature alcoholic beverage recipes from the five states, as well as garnishes and a bar tool kit. Each box also contains fun facts about each region, cocktail recipes, serving suggestions, bar tips, and exclusive video instructions.

ContributorsUtzinger, Clara (Author) / Olson, Leilani (Co-author) / Cho, Brianna (Co-author) / Naik, Sanika (Co-author) / Byrne, Jared (Thesis director) / Thompson, Anna (Committee member) / Barrett, The Honors College (Contributor) / Department of Information Systems (Contributor) / Department of Supply Chain Management (Contributor)

Created2024-05

Schildgen Miller Engerholm Engineering Company (SMEECo)

Description

Our Idea: As a team of engineers, two in the engineering field and one in computer science and software development, we wanted to find a way to put these skills to use in our company. As we did not have a revolutionary idea to build our own product, we wanted to base…

Our Idea: As a team of engineers, two in the engineering field and one in computer science and software development, we wanted to find a way to put these skills to use in our company. As we did not have a revolutionary idea to build our own product, we wanted to base our company on the assumption that people have great ideas and lack the ability to execute on these ideas. Our mission is to enable these people and companies to make their ideas a reality, and allow them to go to market with a clean and user friendly product. We are using our skills and experience in hardware and device prototyping and testing, as well as software design and development to make this happen. Implementation: To this point, we have been working with a client building a human diagnostic and enhancement AI device. We have been consulting on mostly the design and creation of their first proof of concept, working on hardware and sensor interaction as well as developing the software allowing their platform to come to life. We have been working closely with the leaders of the company, who have the ideas and business knowledge, while we focus on the technology side. As for the scalability and market potential of our business, we believe that the potential market is not the limiting factor. Instead, the limiting factor to the growth of our business is the time we have to devote. We are currently only working with one client, and not looking to expand into new clients. We believe this would require the addition of new team members, but instead we are happy with the progress we are making at the moment. We believe we are not only building equity in business we believe in, but also building a product that could help the safety and wellness of our users.

ContributorsSchildgen, Nathan (Author) / Engerholm, Liam (Co-author) / Miller, Kyle (Co-author) / Byrne, Jared (Thesis director) / Lee, Christopher (Committee member) / Barrett, The Honors College (Contributor) / Mechanical and Aerospace Engineering Program (Contributor)

Created2024-05

Implementation of Machine Learning on Low Power Microcontrollers

Description

Machine learning has been increasingly integrated into several new areas, namely those related to vision processing and language learning models. These implementations of these processes in new products have demanded increasingly more expensive memory usage and computational requirements. Microcontrollers can lower this increasing cost. However, implementation of such a system…

Machine learning has been increasingly integrated into several new areas, namely those related to vision processing and language learning models. These implementations of these processes in new products have demanded increasingly more expensive memory usage and computational requirements. Microcontrollers can lower this increasing cost. However, implementation of such a system on a microcontroller is difficult and has to be culled appropriately in order to find the right balance between optimization of the system and allocation of resources present in the system. A proof of concept that these algorithms can be implemented on such as system will be attempted in order to find points of contention of the construction of such a system on such limited hardware, as well as the steps taken to enable the usage of machine learning onto a limited system such as the general purpose MSP430 from Texas Instruments.

ContributorsMalcolm, Ian (Author) / Allee, David (Thesis director) / Spanias, Andreas (Committee member) / Barrett, The Honors College (Contributor) / Electrical Engineering Program (Contributor)

Created2024-05

Founders Lab - Nova-six - "Making Space Trend"

Description

This thesis paper outlines Nova-six company, an honors thesis project conducted through the Founder’s Lab program at Arizona State University. Nova-six is a multimedia company centered around the space industry. Nova-six’s mission is to ignite Generation Z’s passion for space by reimagining it through the lens of contemporary culture. To…

This thesis paper outlines Nova-six company, an honors thesis project conducted through the Founder’s Lab program at Arizona State University. Nova-six is a multimedia company centered around the space industry. Nova-six’s mission is to ignite Generation Z’s passion for space by reimagining it through the lens of contemporary culture. To this end, Nova-six has developed its brand to be a space-themed streetwear, pop art, and entertainment venture. Through its innovative approach, Nova-six aims to transform the space industry's narrative, making it a central part of today's cultural conversations and inspiring a new generation to explore the final frontier.