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LED Product Development

Description
SparkLED designs innovative and intelligent LED products to concert attendees for the music industry (specifically, electronic dance music). Unlike other LED product distributors/manufacturers, such as emazinglights.com, orbitlightshow.com, and led-clothing.com, we offer products with higher degrees of customization, while maintaining higher quality, such as battery life and product durability. Our venture

SparkLED designs innovative and intelligent LED products to concert attendees for the music industry (specifically, electronic dance music). Unlike other LED product distributors/manufacturers, such as emazinglights.com, orbitlightshow.com, and led-clothing.com, we offer products with higher degrees of customization, while maintaining higher quality, such as battery life and product durability. Our venture aims to solve the problem that consumers have with current LED product offerings. In most cases, consumers have a problem with the quality of their products while they are used throughout the day at a concert, club, or festival. In addition, with an over saturated market of LED product vendors that strictly utilize online channels, we hope to offer the physical channel needed to foster customer relationships and development at various events.
ContributorsYip, Indy Boyin (Author) / Trappen, Eric (Thesis director) / Peck, Sidnee (Committee member) / Barrett, The Honors College (Contributor) / Department of Management (Contributor) / Department of Information Systems (Contributor)
Created2014-05
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Life Lessons Taken From Innovation Space

Description
Increasing collaboration among employees is a top priority for many organizations today. How can we help companies and employees collaborate better? Through Innovation Space, our team Kioro has an opportunity to design and develop alternative solutions that will help achieve the idea. This paper discusses the fields of the five

Increasing collaboration among employees is a top priority for many organizations today. How can we help companies and employees collaborate better? Through Innovation Space, our team Kioro has an opportunity to design and develop alternative solutions that will help achieve the idea. This paper discusses the fields of the five disciplines including from Graphic Design, Industrial Design, Engineering, Sustainability, and Business. The scope and content is aimed at focusing on each role, his/her basic responsibility and some of the highlights of his/her work over the whole semester. The very interactive and engaging environment at Innovation Space has driven me to think about teamwork, interpersonal relationship, and self-evaluation. By observations of my team members, this paper covers a reflection with a list of solutions to improve my life. Innovation Space not only teaches me about new product development, but also has a significant impact behind and lead me to think about life.
ContributorsTao, Wing Yi (Author) / Peck, Sidnee (Thesis director) / Boradkar, Prasad (Committee member) / Barrett, The Honors College (Contributor) / Department of Finance (Contributor)
Created2015-05
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Innovation Space Thesis/Creative Project

DescriptionA reflection of the Innovation Space, product development program, at ASU from a Business Student's Perspective.
ContributorsJonas, Alec Evan (Author) / Licon, Wendell (Thesis director) / Peck, Sidnee (Committee member) / Mescher, Corinne (Committee member) / Barrett, The Honors College (Contributor) / Department of Finance (Contributor)
Created2013-05
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Development of Automated Data-Collecting Processes for Current Factory Production Systems: An Investigation to Validate Computer Vision Model Outputs

Description

Time studies are an effective tool to analyze current production systems and propose improvements. The problem that motivated the project was that conducting time studies and observing the progression of components across the factory floor is a manual process. Four Industrial Engineering students worked with a manufacturing company to develo

Time studies are an effective tool to analyze current production systems and propose improvements. The problem that motivated the project was that conducting time studies and observing the progression of components across the factory floor is a manual process. Four Industrial Engineering students worked with a manufacturing company to develop Computer Vision technology that would automate the data collection process for time studies. The team worked in an Agile environment to complete over 120 classification sets, create 8 strategy documents, and utilize Root Cause Analysis techniques to audit and validate the performance of the trained Computer Vision data models. In the future, there is an opportunity to continue developing this product and expand the team’s work scope to apply more engineering skills on the data collected to drive factory improvements.
Contributorsde Guzman, Lorenzo (Co-author) / Chmelnik, Nathan (Co-author) / Martz, Emma (Co-author) / Johnson, Katelyn (Co-author) / Ju, Feng (Thesis director) / Courter, Brandon (Committee member) / Industrial, Systems & Operations Engineering Prgm (Contributor, Contributor) / School of Politics and Global Studies (Contributor) / Industrial, Systems & Operations Engineering Prgm (Contributor, Contributor) / Barrett, The Honors College (Contributor)
Created2021-05
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Development of Automated Data-Collecting Processes for Current Factory Production Systems: An Investigation to Validate Computer Vision Model Outputs

Description

Time studies are an effective tool to analyze current production systems and propose improvements. The problem that motivated the project was that conducting time studies and observing the progression of components across the factory floor is a manual process. Four Industrial Engineering students worked with a manufacturing company to develo

Time studies are an effective tool to analyze current production systems and propose improvements. The problem that motivated the project was that conducting time studies and observing the progression of components across the factory floor is a manual process. Four Industrial Engineering students worked with a manufacturing company to develop Computer Vision technology that would automate the data collection process for time studies. The team worked in an Agile environment to complete over 120 classification sets, create 8 strategy documents, and utilize Root Cause Analysis techniques to audit and validate the performance of the trained Computer Vision data models. In the future, there is an opportunity to continue developing this product and expand the team’s work scope to apply more engineering skills on the data collected to drive factory improvements.
ContributorsJohnson, Katelyn Rose (Co-author) / Martz, Emma (Co-author) / Chmelnik, Nathan (Co-author) / de Guzman, Lorenzo (Co-author) / Ju, Feng (Thesis director) / Courter, Brandon (Committee member) / Industrial, Systems & Operations Engineering Prgm (Contributor, Contributor) / Industrial, Systems & Operations Engineering Prgm (Contributor, Contributor) / Barrett, The Honors College (Contributor)
Created2021-05
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Development of Automated Data-Collecting Processes for Current Factory Production Systems: An Investigation to Validate Computer Vision Model Outputs

Description

Time studies are an effective tool to analyze current production systems and propose improvements. The problem that motivated the project was that conducting time studies and observing the progression of components across the factory floor is a manual process. Four Industrial Engineering students worked with a manufacturing company to develo

Time studies are an effective tool to analyze current production systems and propose improvements. The problem that motivated the project was that conducting time studies and observing the progression of components across the factory floor is a manual process. Four Industrial Engineering students worked with a manufacturing company to develop Computer Vision technology that would automate the data collection process for time studies. The team worked in an Agile environment to complete over 120 classification sets, create 8 strategy documents, and utilize Root Cause Analysis techniques to audit and validate the performance of the trained Computer Vision data models. In the future, there is an opportunity to continue developing this product and expand the team’s work scope to apply more engineering skills on the data collected to drive factory improvements.
ContributorsChmelnik, Nathan (Co-author) / de Guzman, Lorenzo (Co-author) / Johnson, Katelyn (Co-author) / Martz, Emma (Co-author) / Ju, Feng (Thesis director) / Courter, Brandon (Committee member) / Industrial, Systems & Operations Engineering Prgm (Contributor, Contributor) / Industrial, Systems & Operations Engineering Prgm (Contributor, Contributor) / Barrett, The Honors College (Contributor)
Created2021-05