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- Creators: Barrett, The Honors College
- Creators: Chopin, Frédéric, 1810-1849
Samantha and Rachel both have a history in gifted education and wanted to create a safe space for the two of them and their peers to discuss the effects gifted/ accelerated education has had on them, specifically pertaining to burnout. To best dive into this matter, Gifted Kid Syndrome podcast was born! During which, our hosts interviewed students and professionals, allowing everyone to share their pasts, their hopes for the future, and what they’ve learned along the way regarding mental health, identity, education, and personal success.
In arid environments such as Arizona, agricultural producers are burdened by constraints placed on them by inhospitable weather and limited access to water and fertile soil when attempting to grow produce. Farms in the arid Southwest often have to build greenhouses to overcome such constraints; however, such greenhouses may be relatively space, water, and pesticide intensive and often have demanding maintenance needs and overhead costs. In addition, many current agricultural practices exhaust land resources disparagingly, leading to irreversible environmental degradation. In an effort to improve agricultural production for those limited by weather and resource constraints while simultaneously increasing sustainability in land, resource and pesticide use, we have created Valleyponics, a hydroponic growth services company centered around creating a minimal farming footprint. The company uses a consultative services approach, leveraging NASA Veggie Growth System Technology to provide solutions to large businesses by automating their agricultural production processes and minimizing resource use year-round. Valleyponics aims to cultivate consultative partnerships which will allow our clients, their communities, and the environment to flourish.
CircaLight is a Barrett Honors Thesis Project that was conducted through the Founder’s Lab Program in the W.P. Carey School of Business at Arizona State University. A team of three students, each with different majors, came together to complete the project. Jackson Krug, Benjamin Sare, and Gabriel Zimm formed the team as part of Cohort 3 of the 2021-2022 Founders Lab Program. They are each pursuing bachelors degrees in Mechanical Engineering, Finance, and Business Administration, respectively. This diversity of schooling allowed them to approach this project from multiple, diverse perspectives. Due to their familiarity with sleep deprivation throughout college, the team chose to pursue a project centered around NASA’s Advanced Solid State Lighting System, which functionally mimics the changes in natural light that humans would typically experience on earth. This technology provides these same fluctuations to astronauts in space. A unique logo and branding were created for a potential product that would use this technology. Three different marketing strategies relating to this brand were developed and tested to achieve this project’s goal: determining the best prospective market for this technology. The three potential market areas we tested dealt with: general fatigue & lack of productivity, family sleep habits, and jet lag. Through our research, we found the most attractive market to be people who are looking to improve their sleep habits and productivity at home. Conversely, we concluded that while there is an audience for travel fatigue solutions, the market is not interested in this NASA technology.
Electron Multiplying Charge Coupled Device (EMCCD) cameras are widely used for fluorescence microscopy experiments. However, the quantitative determination of biological parameters uniquely depends on characteristics of the unavoidably inhomogenous illumination profile as it gives rise to an image. It is therefore of interest to learn this inhomogenous illumination profiles that can dramatically vary across images alongside the camera parameters though a detailed camera model. In this manuscript we create a detailed model to learn inhomogeneous illumination profiles as well as learn all associated camera parameters. We achieve this within a Bayesian paradigm allowing us to determine full distributions over the unknowns.
Climate change is one of the most pressing issues of the generation. Both faith organizations and scientific research are striving to solve problems related to climate change. Both show significant motivations to act on the effects that global warming is predicted to have. Combining the motivations and finding common ground could be the key to changing the fundamental issues that lead to climate change and both sides need each other to carry out the goal of preventing climate change. Some potential outcomes of cooperation are explored and the impact that these measures could have are described. These effects will be synthesized from previous research on the subjects, compiling qualitative data on the motivations and effects of both religion and science on climate change.