Brain-Computer Integration and Escapism: Science Fiction and the Risk Mitigation of Future Immersive Technologies

Description
With the projected growth of virtual reality and other immersive technologies in the next decade, there is a natural promise of innovations in the field to compete with the growing market. One such potential innovation, brain-computer integration (BCI), has the

With the projected growth of virtual reality and other immersive technologies in the next decade, there is a natural promise of innovations in the field to compete with the growing market. One such potential innovation, brain-computer integration (BCI), has the potential to link user's brains with the virtual worlds they wish to participate in and use their mind as the controller. When looking at science fiction media such as Do Androids Dream of Electric Sheep, Aniara, and Cyberpunk 2077 though, the overuse of BCI technology is alarmingly dangerous due to its escapist draw. By analyzing Sheila Jasanoff's existing technological risk mitigation framework through the lens of escapism and BCI, a formal plan can be generated to better combat the potential dystopian future immersive technologies can cause as presented by science-fiction.
Date Created
2024-05
Agent

The Use of Wearable Robotics For Improving Quality of Life

Description
Imagine the possibility of a cure for one of the most prevalent problems associated with aging. Numerous individuals experience difficulty getting out of bed, sitting, or performing normal tasks due to weak knees. This issue also affects manual laborers who

Imagine the possibility of a cure for one of the most prevalent problems associated with aging. Numerous individuals experience difficulty getting out of bed, sitting, or performing normal tasks due to weak knees. This issue also affects manual laborers who may be compelled to change careers or retire as a result of the strenuous repetitive nature of their work. The purpose of this Barrett Honors Thesis/Project is to build, testing, and conduct studies to create a portable, lightweight, low-profile passive leg exoskeleton that supports the legs and knees to assist in standing up from a kneeling position or lowering oneself to a sitting position.
Date Created
2023-12
Agent

Co-Bot Integration For High-Volume Manufacturing of Aerospace Components

Description

Over the years, American manufacturing has been offshored due to the competitive labor conditions in other countries. In addition, the COVID-19 pandemic exposed the fragility of the international supply chain, highlighting the importance of reshoring manufacturing and industry. However, reshoring

Over the years, American manufacturing has been offshored due to the competitive labor conditions in other countries. In addition, the COVID-19 pandemic exposed the fragility of the international supply chain, highlighting the importance of reshoring manufacturing and industry. However, reshoring alone cannot solve the underlying issues that caused offshoring in the first place, such as shortages of skilled labor and extensive regulation. To address these issues, the implementation and scaling of automation and Industry 4.0 technologies are necessary. The aerospace industry is a prime example of the need for skilled labor. Abiding by rigorous specifications and achieving the tight tolerances required by aerospace specifications is a highly specialized skill that requires experience and training. The shortage of skilled labor puts those working in aerospace at a disadvantage, often leading to long strenuous work hours to meet demand. To address this, a collaboration with two ASU manufacturing student research teams aided the development of two co-bot solutions that can work alongside technicians and operators to reduce downtime, increase efficiency, and free up human operators to focus on more complex tasks. While many automated solutions are available on the market, co-bots are not often used to their full capability. The proposed solutions demonstrate the possibilities of implementing co-bots in the aerospace industry by using them in machine tending and blending processes for aerospace parts. In traditional manufacturing processes, human operators are still responsible for performing repetitive and often mundane tasks, such as loading and removing workpieces from a CNC workstation and starting a CNC machine for repetitive parts. The current blending process requires a technician to manually sand damaged areas for Depot, Repair, and Overhaul (DRO), which is time-consuming and strenuous. By using a co-bot for this process, the technician's workload is significantly reduced, decreasing lead times and increasing quality control. Inspiration for this thesis came from observing the demands of companies like SpaceX, which require mass manufacturing of rocket engines to meet testing and launch schedules. The SpaceX Raptor engine is a complex, precise system that is aimed at being produced in high volume, which is a prime target for co-bot integration to help meet production targets. Implementing more co-bots into manufacturing has been shown to increase efficiency, reduce cost, and relieve stress on human operators. The integration of co-bots into the manufacturing process for the Raptor engine has the potential to improve efficiency and productivity, making high-volume manufacturing a possibility. Overall, the implementation of co-bots in the aerospace industry can offer a competitive advantage by increasing productivity and efficiency while reducing costs and relieving stress on human operators. This thesis provides proof of the possibilities of implementing co-bots in a versatile industry like aerospace and demonstrates the potential benefits of integrating co-bots into the manufacturing process for rocket engines like the Raptor. By doing so, the aerospace industry can move towards a more automated and efficient future, helping to address the challenges faced by American manufacturing today.

Date Created
2023-05
Agent

Founders Lab - HeartSignal 3-Lead EKG

Description

Our project is to create a simplified, portable, modular electrocardiogram known as ECG/EKG. Most medical facilities, including hospitals, clinics, and skilled nursing facilities, still rely on traditional 12-lead EKG equipment consisting of a large cart with long 10 wires. These

Our project is to create a simplified, portable, modular electrocardiogram known as ECG/EKG. Most medical facilities, including hospitals, clinics, and skilled nursing facilities, still rely on traditional 12-lead EKG equipment consisting of a large cart with long 10 wires. These wires can be a pain to constantly detangle and rearrange to determine a person’s heart conditions. This creates issues in fast paced scenarios such as when a patient is experiencing a heart attack and needs an EKG stat. Additionally, the current technology can be somewhat unreliable at determining heart conditions, causing providers to request multiple EKG’s for patients. With our improved versatile EKG, we can help solve these issues and implement additional outpatient use with its portable features. This can be done by remotely monitoring heart conditions during activities such as exercise, sleep, or stressful events, without worrying about wire disturbance.

Date Created
2023-05
Agent

The Growth of Chinese Power: A Need to Reshore American Manufacturing

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Description
The People’s Republic of China over the course of 40 years has developed from one of the world’s poorest countries, to one of the world’s richest. The early years of the PRC was marked with significant poverty caused by government

The People’s Republic of China over the course of 40 years has developed from one of the world’s poorest countries, to one of the world’s richest. The early years of the PRC was marked with significant poverty caused by government policies like the Great Leap Forward and the Cultural Revolution. However, in the late 1970s with Deng Xiaoping’s Open Door policy, China began its rapid transformation and economic growth. China’s economic development was greatly enhanced with the establishment of Special Economic Zones and industrial clusters. These zones coupled with China’s low-cost wages, made it ideal for international companies to invest and set up low-cost manufacturing production in China driven by global market competition and communication technologies. The results of China’s transformation made China into the world’s second largest economic power in terms of gross domestic product, and the world’s largest when adjusted to purchasing power parity. China also earned the moniker as the “World’s Factory” with China now accounting for the largest share of global manufacturing output. However, as China’s population urbanizes and wages become more expensive, several international companies have looked elsewhere for low-wage manufacturing threatening China’s manufacturing sector which employs over 128 million people. With the prospect of a potential slowdown in economic growth, the Chinese Communist Party initiated the Made-In-China 2025 program modernizing and advancing China’s manufacturing base with technologies in Industry 4.0. The MIC25 initiative is accelerated with China’s state-owned enterprises which often make their decisions based on government policy. The goal of MIC25 is for China to transition from a process innovating country into a product innovating one, becoming a leader in global technologies. The investment into human capital through education and especially foreign expertise is the primary driver of China’s prospects to lead the world in technological innovations related to Industry 4.0. MIC25 also has the prospect of legitimizing the CCP trough economic growth and development. Based on historical trends related to countries dominating the globe economically, industrially, and technologically seen in past industrial revolutions, China’s attempts to dominate the world in the fourth industrial revolution poses a great threat to the United States. China’s growing economic and technological advancements, and its dominant share of global manufacturing threaten the US’ position as the world’s foremost superpower. The US in turn should take accelerated steps to reshore American manufacturing to secure and maintain the US’ economic and technological lead and rebuild the American manufacturing base.
Date Created
2022-05
Agent