With the rapid advancements in aviation technology, the concept of Advanced Air Mobility (AAM) has gained considerable attention as a potential solution to address the growing demands for urban transportation. AAM refers to the use of electric vertical takeoff and…
With the rapid advancements in aviation technology, the concept of Advanced Air Mobility (AAM) has gained considerable attention as a potential solution to address the growing demands for urban transportation. AAM refers to the use of electric vertical takeoff and landing (eVTOL) aircraft for short-haul flights within urban and suburban areas. However, the implementation of AAM systems requires careful evaluation of feasibility, considering the existing structure of the National Airspace System (NAS) and local planning considerations. This research paper presents a comprehensive framework to assess the feasibility of AAM corridors in urban environments. Firstly, the integration aspect focuses on evaluating the compatibility of AAM operations with the existing airspace infrastructure. The framework assesses the potential impact of introducing AAM corridors on airspace capacity, safety, efficiency, and environmental sustainability. Additionally, it explores the required modifications or upgrades to existing NAS infrastructure to accommodate AAM operations. Secondly, the framework addresses local planning considerations, acknowledging that AAM corridors operate within specific urban or suburban landscapes. It considers factors such as land use, noise levels, public acceptance, emergency response capabilities, and integration with existing transportation networks. The framework provides decision-makers, urban planners, and aviation stakeholders with valuable insights into the feasibility of implementing AAM corridors, enabling informed policy decisions, infrastructure planning, and the development of regulation to support the safe and efficient deployment of AAM systems.
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This project uncovers and analyzes the important tasks of employees at an FBO, which is a smaller section of the airport that provides services like fueling, maintenance, and amenities. For the purposes of this project, interviews were conducted with the…
This project uncovers and analyzes the important tasks of employees at an FBO, which is a smaller section of the airport that provides services like fueling, maintenance, and amenities. For the purposes of this project, interviews were conducted with the line service technicians and the customer service representatives. Through the interviewing process, “hidden” workarounds of the customer service representatives were discovered. Interviews are often a helpful method to uncover these “hidden” processes, that may otherwise lead them to believe that operations at the company are being conducted “by the book.” However, the workarounds that employees create for themselves are often very helpful additions more efficiently completing their tasks. The findings were presented in a Cognitive Task Analysis (CTA) diagram. Additionally, the findings from the interviews could have positive implications for future training and development of the employees.
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This website was created to help an Arizona State University Professional Flight student get through the Stage Check and End of Course test for the Instrument stage of their training. It covers the topics of checkride etiquette, weather, regulations, acronyms, and aeronautical decision-making.
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The field of study that this topic is derived from constitutes both federal aviation regulation as well as medical and biological sciences. The compelling idea of this thesis is an in depth investigation of the Federal Aviation Administration's (FAA) regulation…
The field of study that this topic is derived from constitutes both federal aviation regulation as well as medical and biological sciences. The compelling idea of this thesis is an in depth investigation of the Federal Aviation Administration's (FAA) regulation and data collection throughout time regarding pilots with Insulin Treated Diabetes Mellitus (ITDM). When in comparison to the continuous evolution of diabetic research and endocrinology in all parts of the world, the regulations regarding this group of pilots seems displaced. This paper explores a chronological order of FAA research and regulations that were conducted on diabetic pilots stemming from 1959 - present. The findings seem to convey that the field of aviation is laden with inconsistencies and misplaced conclusions regarding regulation of insulin-treated diabetic pilots. This paper reflects on the impact of these regulations on this group of pilots from both a biological and medical standpoint as well as from an aviation point of view. In light of advanced medical knowledge, the paper explores what regulations regarding ITDM are in other countries and how FAA regulation should be refined and altered to realign with present day medical knowledge in the United States. This research was conducted to compare the sequential endocrinologic knowledge conducted and the subsequent regulatory actions.
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
The field of study that this topic is derived from constitutes both federal aviation regulation as well as medical and biological sciences. The compelling idea of this thesis is an in depth investigation of the Federal Aviation Administration's (FAA) regulation…
The field of study that this topic is derived from constitutes both federal aviation regulation as well as medical and biological sciences. The compelling idea of this thesis is an in depth investigation of the Federal Aviation Administration's (FAA) regulation and data collection throughout time regarding pilots with Insulin Treated Diabetes Mellitus (ITDM). When in comparison to the continuous evolution of diabetic research and endocrinology in all parts of the world, the regulations regarding this group of pilots seems displaced. This paper explores a chronological order of FAA research and regulations that were conducted on diabetic pilots stemming from 1959 - present. The findings seem to convey that the field of aviation is laden with inconsistencies and misplaced conclusions regarding regulation of insulin-treated diabetic pilots. This paper reflects on the impact of these regulations on this group of pilots from both a biological and medical standpoint as well as from an aviation point of view. In light of advanced medical knowledge, the paper explores what regulations regarding ITDM are in other countries and how FAA regulation should be refined and altered to realign with present day medical knowledge in the United States. This research was conducted to compare the sequential endocrinologic knowledge conducted and the subsequent regulatory actions.
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)