We’re happy to share that 3 BiSSL papers, written by 4 BiSSL researcher students, have been accepted for publication and presentation in Boston, MA in August at IDETC-CIE 2023.

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BiSSL alum Samuel Blair, in collaboration with our Georgia Tech partners Dr. Julie Linsey and Claire Crose, has a paper accepted to the Design Theory and Methodology division titled “Measuring the Health of Makerspaces During Large Disruptions Such as the COVID-19 Pandemic.”

As the popularity of makerspaces and maker culture has skyrocketed over the past two decades, numerous studies have been conducted to investigate the benefits of makerspaces for university students and how to best establish an inclusive, welcoming environment in these spaces on college campuses. However, unprecedented disruptions, such as the COVID-19 pandemic, have the potential to greatly affect the way that students interact with makerspaces and the benefits that result. In this study, a survey asking about prior makerspace involvement, tool usage, and student demographics was administered to students who use academic makerspaces at two large public universities. Survey data was collected for three semesters (Fall 2020, Spring 2021, and Spring 2022) and spanned both during and after the height of the COVID-19 pandemic. To quantify the differences between the semesters, nestedness and connectance metrics inspired by ecological plant-pollinator networks were utilized. These ecological metrics allow for the structure of the interactions of a network to be measured, with nestedness highlighting how students interact with tools and connectance with the quantity of student-to-tool interaction. The network analysis was used to better gauge the health of the makerspace and the type and frequency of interactions between tools. The raw survey data combined with the ecological metrics provided unique insight into the struggles the makerspaces encountered throughout the pandemic. It was found that nestedness, a measure of system stability, decreases with a decrease in tool usage. Additionally, the higher the connectance the more students interacted with the space. Utilizing metrics such as these and better understanding student tool interactions can aid makerspaces in monitoring their success and maintaining a healthy and welcoming space, as well as tracking the current health of the space. In combination with the survey results, a deep understanding of what challenges the space is facing can be captured.

Crose, C., S. Blair, A. Layton, and J. Linsey. (2023) “Measuring the Health of Makerspaces During Large Disruptions such as the COVID-19 Pandemic.” ASME 2023 International Design Engineering Technical Conferences and Computers & Information in Engineering Conference (IDETC-CIE). Boston, MA, USA.

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BiSSL Ph.D. students Hadear Hassan and Emily Payne collaborated on the paper titled “Quantifying the Sustainability and Robustness of Manufacturing Systems Using Energy and Ecological Network Analyses,” to be presented by Hadear in August in the Design For Manufacturing and Life Cycle division (DFMLC).

Global issues, such as supply chain disruptions, have increased awareness of the importance of manufacturing systems being able to quickly bounce back from disturbances. This necessary response is in addition to the importance of mitigating climate change, maintaining market competitiveness, and eliminating unnecessary waste. Two analysis types are compared here: 1) a thermodynamic exergy analysis to quantify a manufacturing system’s energy and material efficiency and 2) an ecological network analysis as a quantitative representation of the system’s sustainability and robustness. Several manufacturing structures, including different processes ranging from the traditional to advanced, like injection molding and binder jetting, are examined in terms of the system response to changes. The findings indicate that the thermodynamic approach efficiently evaluates the efficacy of energy and resource conversion to create a final product. The ecological network approach was also found to provide useful insights on both the environmental efficiency of the systems as well as the resilience. These results are useful when combined for suggesting system layouts and operations that holistically improve a manufacturing system’s design. The findings indicate that existing manufacturing infrastructure needs to be redesigned to better withstand and recover from unforeseen disruptions. Introducing features such as recyclability and combining multiple types of manufacturing processes can enhance the overall resilience of the system. The work suggests that the bio-inspired systems analysis approach when coupled with connectivity and energy-related factors can lead to enhanced manufacturing system designs.

Hassan, H., E. Payne, and A. Layton. (2023) “Quantifying the Sustainability and Robustness of Manufacturing Systems Using Energy and Ecological Network Analyses.” ASME 2023 International Design Engineering Technical Conferences and Computers & Information in Engineering Conference (IDETC-CIE). Boston, MA, USA.

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BiSSL Ph.D. student Emily Payne and undergraduate alum Hannah Wagner collaborated on the paper titled “Resilience and Sustainability in Certified Green Buildings: Applying Ecosystem Concepts to Aid in More Dynamic Green Communities,” to be presented by Emily in August in the Design For Manufacturing and Life Cycle division (DFMLC).

Sustainable and resilient buildings ensure safety and lifespan while also benefiting the environment. Leadership in Energy and Environmental Design (LEED) is one respectable certification that many buildings can receive to ensure that they are meeting future climate and energy goals. However, LEED buildings have credits that do not necessarily agree with creating a sustainable environment. When comparing the orientation of LEED points and their relationship to the building and community to ecological structures, we found that a rearrangement of categories can provide visualization for organized recycling and higher cyclicity through ecological network applications. This relationship was applied to a new scorecard which has results indicating that if designers choose to meet criteria where one credit in each grouping is implemented in construction, then a sustainable building can still be efficient as well as recognized as a green building.  

Payne, E., H. Wagner and A. Layton. (2023) “Resilience and Sustainability in Certified Green Buildings: Applying Ecosystem Concepts to Aid in More Dynamic Green Communities.” ASME 2023 International Design Engineering Technical Conferences and Computers & Information in Engineering Conference (IDETC-CIE). Boston, MA, USA.