Thematische Bibliographien / Air pilots

Inhaltsverzeichnis

  1. Zeitschriftenartikel
  2. Dissertationen
  3. Bücher
  4. Buchteile
  5. Konferenzberichte
  6. Berichte der Organisationen

Auswahl der wissenschaftlichen Literatur zum Thema „Air pilots“

Autor: Grafiati
Veröffentlicht am 4. Juni 2021
Zuletzt aktualisiert am 1. August 2024

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Zeitschriftenartikel zum Thema "Air pilots"

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Nowadly, Craig D., Rebecca S. Blue, Harry M. Albaugh, Ryan S. Mayes und Douglas J. Robb. „A Preliminary Study of U.S. Air Force Pilot Perceptions of the Pilot–Flight Surgeon Relationship“. Military Medicine 184, Nr. 11-12 (15.05.2019): 765–72. http://dx.doi.org/10.1093/milmed/usz088.

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Abstract Introduction Flight surgeons play a vital role in U.S. Air Force aviation operations by ensuring that pilots are medically prepared to meet the demands of military aviation. However, there is natural tension between pilots and flight surgeons. A pilot may be reluctant to share medical information with a flight surgeon who could negatively impact the pilot’s career or flight status. In this preliminary study, we sought to identify pilot-perceived strengths and weaknesses in the relationship between U.S. Air Force aviators and their flight surgeons. Materials and Methods An online survey regarding pilot–flight surgeon confidence and perceived values was distributed electronically to a convenience sample of U.S. Air Force aviators. Participants included U.S. Air Force active duty and Air Reserve Component (Air Force Reserve and Air National Guard) military aviators in addition to U.S. Air Force Academy aviation cadets. Results One hundred and seventy-three aviators participated in the survey. Respondents reported variable comfort in approaching flight surgeons with medical concerns and suggested that they believed other pilots might be withholding medical information from flight surgeons or seeking care from civilian physicians for career protection. Conclusions We sought to examine the pilot–flight surgeon relationship and its impact on daily flying operations. While limited, results suggest that there may be gaps in trust between pilots and their flight surgeons. These findings could present an opportunity to improve the pilot–flight surgeon relationship by identifying factors that contribute to closer pilot–flight surgeon relationships.
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Wang, Xiashuang, Guanghong Gong, Ni Li, Li Ding und Yaofei Ma. „Decoding pilot behavior consciousness of EEG, ECG, eye movements via an SVM machine learning model“. International Journal of Modeling, Simulation, and Scientific Computing 11, Nr. 04 (02.07.2020): 2050028. http://dx.doi.org/10.1142/s1793962320500282.

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To decode the pilot’s behavioral awareness, an experiment is designed to use an aircraft simulator obtaining the pilot’s physiological behavior data. Existing pilot behavior studies such as behavior modeling methods based on domain experts and behavior modeling methods based on knowledge discovery do not proceed from the characteristics of the pilots themselves. The experiment starts directly from the multimodal physiological characteristics to explore pilots’ behavior. Electroencephalography, electrocardiogram, and eye movement were recorded simultaneously. Extracted multimodal features of ground missions, air missions, and cruise mission were trained to generate support vector machine behavior model based on supervised learning. The results showed that different behaviors affects different multiple rhythm features, which are power spectra of the [Formula: see text] waves of EEG, standard deviation of normal to normal, root mean square of standard deviation and average gaze duration. The different physiological characteristics of the pilots could also be distinguished using an SVM model. Therefore, the multimodal physiological data can contribute to future research on the behavior activities of pilots. The result can be used to design and improve pilot training programs and automation interfaces.
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AR Bezerra, Thiago, Ana Carolina RV Rodrigues, Thiago G Trigueiro, Liliana M Occulate, Hamilton RMO Carriço und Leonardo Mendes Faria. „Incidence of cervical and lumbar spine injuries in Brazilian air force helicopter pilots“. Aeronautics and Aerospace Open Access Journal 8, Nr. 1 (26.02.2024): 17–21. http://dx.doi.org/10.15406/aaoaj.2024.08.00189.

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This paper is a brief analysis of the incidence of pain and discomfort caused by flying rotary-wing aircraft. This is due to the excessive vibration exerted by the rotors on the pilot's seat, which is absorbed by the pilot's spine, and the posture adopted by the pilot during the flight due to the layout of the controls. Air forces from various countries such as Israel, Sweden, England, among others, have considered low back pain to be a primary health problem in airmen and admit that this type of problem is detrimental to flight safety, given that the pain acts throughout the flight and can appear at a level that distracts the pilot. The aim of this study was to clarify the incidence of pain and discomfort among rotary-wing pilots in the Brazilian Air Force. To help carry out the study, an online questionnaire with multiple-choice, scale and full answer questions was used, answered by 124 aviation officers belonging to the Brazilian Air Force. Corroborating previous research in this area, we identified that the main discomforts are related to the position of piloting the aircraft, mainly located in the region of the spine. Most of this discomfort lasts from a few minutes to a few hours. The main preventative methods used by helicopter pilots are related to strength training. Thus, we can infer the awareness of pilots and authorities of the importance of physical exercise, thus inferring an important preventive measure.
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Stepnova, A. I., S. M. Stepanov, V. V. Borsoeva und V. A. Borsoev. „Analysis of effectiveness of the program of joined air traffic controlles and pilotes training“. Civil Aviation High Technologies 22, Nr. 5 (28.10.2019): 32–42. http://dx.doi.org/10.26467/2079-0619-2019-22-5-32-42.

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Training of cadets-air traffic controllers and cadets-pilots is an integral part of the training, which allows you to form the skills of quick and correct decision-making in different types of situations. For the air traffic controller, these are exercises to solve conflict situations with aircraft in the area of their responsibility, solving problems in normal flight conditions, in unfavorable atmospheric conditions and in the non-routine situations in flight. For the pilots, solutions to the problems are reduced to the rapid decisionmaking on aircraft control in normal flight conditions, adverse atmospheric conditions and non-routine situations in flight. As you know, the work of air traffic controllers is associated with the work of pilots, but training in educational institutions takes place separately, resulting in gaps in knowledge of the specifics of the adjacent specialty, and, eventually, leads to errors. Optimization of the educational process is currently an urgent task. The program of joint training can act as an optimization tool. The program enables you to collaboratively practice the skills of fast decision-making, clearly to learn the specifics of the related specialties that will allow you to create a complete picture of the air situation. The program of joint training implies the joint operational logic simulator that combines two simulators. For the air traffic controller, this is a separate airspace area in the form of a sector, for the pilot it is the cockpit. Thus, the solution to the problems occurs sequentially from the air traffic controller to the pilot and vice versa, and the controller has the ability to observe the algorithm of the pilot's actions, and the pilot is able to monitor the algorithm of the controller's actions.
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Baumgartner, Hannah M. „Wire Strikes and In-Air Obstacle Collisions During Agricultural Aviation Operations“. Aerospace Medicine and Human Performance 94, Nr. 11 (01.11.2023): 852–56. http://dx.doi.org/10.3357/amhp.6318.2023.

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INTRODUCTION: Wire strikes and in-air collisions with obstacles are a leading cause of accidents in the aerial application industry. While some of these collisions occur due to unseen obstacles, some pilots report being previously aware of the obstacles that they collide with. Whether or not pilots are aware of obstacles pre-collision is an important factor to inform methods of accident prevention.METHODS: Final reports from the National Transportation Safety Board were analyzed for Part 137 Agricultural Operation accidents that took place between January 2020 and December 2022. A deeper analysis of cases that involved an in-air collision with an obstacle was performed, excluding cases that were attributable to an external cause (e.g., aerodynamic stall). The pilot’s awareness of the obstacle pre-accident was inferred from accident narratives if available.RESULTS: Nearly half of all accidents (N = 45 of 107) involved an in-air collision with an obstacle (e.g., wire, tree, pole) as the defining event. In cases where pilot awareness of the obstacle was determinable through the accident report, over half of pilots (N = 21 of 39) had previously seen this obstacle yet still made contact with it.DISCUSSION: In-air obstacle collisions make up a substantial portion of accidents within Part 137 Agricultural Operations. Nearly half of pilots were already aware of the obstacle before collision, indicating that inadequate preparation in scoping the field is not a predominant driver of these events. Instead, these findings suggest that other factors including distractions, high task difficulty, and errors in decision-making may contribute.Baumgartner HM. Wire strikes and in-air obstacle collisions during agricultural aviation operations. Aerosp Med Hum Perform. 2023; 94(11):852–856.
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Lee, Minseok, Jihyun Oh, Cheonyoung Kim, Jungho Bae, Yongduk Kim und Cheolkyu Jee. „The Development of Rule-based AI Engagement Model for Air-to-Air Combat Simulation“. Journal of the Korea Institute of Military Science and Technology 25, Nr. 6 (05.12.2022): 637–47. http://dx.doi.org/10.9766/kimst.2022.25.6.637.

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Since the concept of Manned-UnManned Teaming(MUM-T) and Unmanned Aircraft System(UAS) can efficiently respond to rapidly changing battle space, many studies are being conducted as key components of the mosaic warfare environment. In this paper, we propose a rule-based AI engagement model based on Basic Fighter Maneuver(BFM) capable of Within-Visual-Range(WVR) air-to-air combat and a simulation environment in which human pilots can participate. In order to develop a rule-based AI engagement model that can pilot a fighter with a 6-DOF dynamics model, tactical manuals and human pilot experience were configured as knowledge specifications and modeled as a behavior tree structure. Based on this, we improved the shortcomings of existing air combat models. The proposed model not only showed a 100 % winning rate in engagement with human pilots, but also visualized decision-making processes such as tactical situations and maneuvering behaviors in real time. We expect that the results of this research will serve as a basis for development of various AI-based engagement models and simulators for human pilot training and embedded software test platform for fighter.
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Vempati, Lakshmi, Sabrina Woods und Scott R. Winter. „Pilots’ willingness to operate in urban air mobility integrated airspace: a moderated mediation analysis“. Drone Systems and Applications 10, Nr. 1 (01.01.2022): 59–76. http://dx.doi.org/10.1139/juvs-2021-0009.

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Interest in advanced air mobility (AAM) and urban air mobility (UAM) operations for on-demand passenger and cargo transport continues to grow. There is ongoing research on market demand and forecast, community acceptance, privacy, and security. There is also ongoing research by National Aeronautics and Space Administration , Federal Aviation Administration, academia, and industry on airspace integration, regulatory, process, and procedural challenges. Safe integration of UAM and AAM will also require different stakeholder perspectives such as air traffic controllers, manned aircraft pilots, remote pilots, UAM operators, and the community. This research aimed to assess the willingness of manned aircraft pilots to operate in UAM integrated airspace based on airspace complexity and UAM automation level. In addition, a moderated mediation analysis was conducted using trust and perceived risk as mediators and operator type as a moderating variable. The results indicated that automation level influenced pilots’ willingness to operate an aircraft in integrated airspace. A moderating effect of operation type on automation level and willingness to pilot an aircraft was also observed: professional pilots were more amenable to UAM operations with a pilot on board compared with remotely piloted operations. Results from the study are expected to inform airspace integration challenges, processes, and procedures for UAM integrated operations.
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Thomas, Gary S., und David C. Miller. „Development of an Air Combat Performance Measure“. Proceedings of the Human Factors Society Annual Meeting 32, Nr. 18 (Oktober 1988): 1207–11. http://dx.doi.org/10.1177/154193128803201804.

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The purpose of this research was to formulate a unitary measure of performance for simulated one-versus-one, within visual range, air-to-air combat. The measure will serve as a criterion for the development and validation of specific measures of ACM skill that can be used to provide diagnostic performance feedback to pilots. Two experiments were conducted in which fighter pilots served as judges and rank-ordered, from most to least desirable, hypothetical ACM engagement outcomes. Outcome variables included (1) whether or not the hypothetical pilot achieved a “kill,” (2) whether or not he survived the mission, (3) the percent of time the pilot was in an offensive, defensive, or neutral posture, (4) length of engagement, and (5) posture at the beginning and end of the engagement (offensive, defensive, or neutral). In order to determine inter-rater agreement among judges in Experiment I, their rankings were correlated. Correlations ranged from .93 to .99. Pilots' rankings of engagement outcomes were subjected to linear regression analyses to derive equations that could be used as a unitary measure of ACM success. The regression equation in Experiment I accounted for 95% of the variance in rankings, and the composite regression model calculated in Experiment II accounted for more than 70% of the variance.
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Hettinger, Lawrence J., W. Todd Nelson und Michael W. Haas. „Applying Virtual Environment Technology to the Design of Fighter Aircraft Cockpits: Pilot Performance and Situation Awareness in a Simulated Air Combat Task“. Proceedings of the Human Factors and Ergonomics Society Annual Meeting 38, Nr. 1 (Oktober 1994): 115–18. http://dx.doi.org/10.1177/154193129403800123.

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The use of multi-sensory displays for fighter aircraft cockpits is being investigated at the U.S. Air Force's Armstrong Laboratory as a means of enhancing pilot performance. The current experiment was conducted to evaluate the effect of employing such displays on the performance of a simulated air combat task. Each of four experienced US Air Force F-16 pilots flew 12 simulated missions which required them to locate and destroy four enemy bombers whose flight path was pre-programmed. Simultaneously, two other pilots were assigned to auxiliary cockpits in the laboratory and flew enemy fighter aircraft in an attempt to intercept and shoot down the primary pilot. Therefore there were three active participants in each air combat scenario. Each pilot flew six trials using a cockpit comprised of conventional F-15 flight instruments and six trials using a modified, multi-sensory cockpit. The results indicated that pilot performance and situation awareness were generally superior with the multi-sensory cockpit as opposed to the conventional cockpit, although statistical differences between the two were at best marginally significant. Nevertheless, the results suggest that if pilots were to receive advance training with the multi-sensory cockpit their performance may exceed that in the highly overlearned conventional cockpit by even more substantial amounts.
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Hancock, Katherine. „The Airline Pilot Shortage: A Result of Age Discrimination or Excessive Training Requirements?“ Journal of Air Law and Commerce 88, Nr. 2 (2023): 535. http://dx.doi.org/10.25172/jalc.88.2.5.

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In its relatively short history, public air travel has seen its fair share of airline pilot shortages. Before the COVID-19 pandemic, the industry was facing yet another. There was virtually no part of the airline industry untouched by the pandemic, and pilot supply was no exception. As an attempt to mitigate profit loss, airlines offered pilots early retirement packages. When air travel returned to pre-pandemic numbers earlier than expected, airlines struggled to fill cockpit seats, which was a major factor in causing the extensive flight cancellations and delays in 2022. Legislators sought to alleviate the issue by raising the federally mandated retirement age. In 2022, a bill was introduced to raise the age to from sixty-five to sixty-seven. The lawmakers behind the bill provided one reason for this change: to relieve the pilot shortage. They blamed the pilot shortage on the demographic; the majority of airline pilots are baby boomers nearing retirement. There are a few issues with this proposal. The first is the discriminatory nature of the law itself. Raising the age by two years is a step in the right direction, but it is just as arbitrary as the Age Sixty-Five Rule. The second issue is the lack of impact it would have on the pilot supply. The two-year increase is not going to achieve the lawmakers’ purpose because it does not incentivize pilots to keep working. The third issue is that the proposal does not confront the larger cause for the pilot shortage: the excessive training requirements for pilots to earn their commercial pilot’s license. This Article first examines the legality of the airline pilot age limit and the court challenges it has overcome. It confronts the superfluousness of the mandatory retirement age, arguing that an age limit is superseded by the regular aircraft simulator trainings and medical examinations airline pilots are required to pass in order to keep flying. This Article then critiques the 1,500 Hour Rule and assesses other causes of the pilot shortage. Finally, it argues that there are other, better ways to bolster the pilot supply in the United States.
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Dissertationen zum Thema "Air pilots"

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Maue, Brian E. A. „Balancing two lives the relationship of activation, pay, and retention among U.S. Air Force reserve pilots /“. Santa Monica, CA : RAND, 2007. http://www.rand.org/pubs/rgs_dissertations/RGSD213/.

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Kleinfehn, Andrew David. „Regional airline pilot commute| How commuting by air affects pilots' satisfaction with life“. Thesis, The University of North Dakota, 2017. http://pqdtopen.proquest.com/#viewpdf?dispub=10247662.

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At a time of increased use and competitiveness amongst U.S. regional airlines, and the growing pilot shortage, regional air carriers and pilots alike lack proper understanding how pilot commutes by airplane affect satisfaction with life. There are numerous studies on how commuting by vehicle, bicycle, mass transit system, or walking (traditional commute) to and from work affects one’s satisfaction with life. There are no identified studies which investigate regional airline pilots’ commute by airplane and its affect on satisfaction with life.

The purpose of this study was to gain knowledge on regional airline pilot commutes, how commuting affects regional pilots’ satisfaction with life, and to explore why regional airline pilots choose to commute. This study used both qualitative and quantitative measures to accomplish this task by imploring a mixed methods exploratory sequential design. The two research questions were what is the variation in the Satisfaction With Life Scale scores between different groups of regional pilots and what aspects of pilot commuting are related to traditional commuting?

This study used previous related research and regional airline pilot qualitative interviews to build a quantitative survey to measure satisfaction with life. The survey was distributed to a large regional airline to get a representative pilot population sample response. Statistical analysis was conducted on the responses which looked for significance between different groups of regional airline pilots.

Results from a t-test indicated that there is a significant difference in Satisfaction With Life Scores for regional pilots that are able to traditionally commute to their domicile vs. regional pilots who commute by airplane to their domicile. Further t-test results indicated that there is a significant difference in satisfaction with life for airplane commute captains vs. traditional commute captains, and airplane commute captains vs. traditional commute first officers. When only airplane commute pilots were analyzed, there are significant differences in satisfaction with life for pilots that commute over 43.33 hours a month (equivalent to one hour, one way traditional commute), and a one way airplane commute of two or more legs. A Between-Groups ANOVA indicated that commuting the day before a trip begins and commuting the day after a trip ends (un-commutable trip) produces a less satisfied pilot compared to trips that are commutable at the beginning, end or both ends.

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Harris, Artistee Shayna Schnell Thomas. „A state machine representation of pilot eye movements“. Iowa City : University of Iowa, 2009. http://ir.uiowa.edu/etd/297.

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Pauley, Keryn A., und n/a. „Personal risk management in pilots“. University of Otago. Department of Psychology, 2007. http://adt.otago.ac.nz./public/adt-NZDU20071010.090032.

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Risk management is a key component of aeronautical decision-making and one of the possible causes of pilot error (e.g., Jensen, Guilke, & Hunter, 1997). Risk management encompasses risk perception and risk tolerance. Risk perception involves the detection of risks associated with a situation, whereas risk tolerance is the willingness to accept a given degree of risk (Hunter, 2002). Previous studies using flight simulators have found that risk perception and risk tolerance differs between pilots who fly into adverse weather and those who do not (e.g., O�Hare, Owen, Jorgensen, Wiegmann, Hunter, & Mullen, 2007). The aim of this research was to assess risk perception and risk tolerance using scenario-based measures. The measure of risk perception was developed over three studies. Since risk perception is a skill which expert pilots exercise (Jensen et al., 1997), I used the Cochran-Weiss-Shanteau (CWS, Weiss & Shanteau, 2003) index to measure how good pilots were at perceiving aeronautical risks. Weiss and Shanteau assumed that an expert should be able to discriminate between two relevant stimuli, and do so consistently. Participants were presented with flight scenarios and rated the risk involved in each scenario from 0 (low risk) to 100 (high risk). If a valid measure of expertise in risk perception, those with experience in aeronautical decision-making should have been better at this task. In study one the qualified pilots had higher and more variable CWS scores than the non-pilots, suggesting that some pilots were expert at this task, whereas most non-pilots were poor at this task. The focus of study two was shifted to weather-related decision-making (WRDM). Geography students, student pilots, and qualified pilots did not differ in their mean CWS scores, although the qualified pilots were most discriminating, and the geography students were most consistent. To decrease the reliance of the task on memory, study three included a blocking task in between each scenario. While only a small scale study, the results suggested that the blocking task improved the qualified pilots� performance while the geography students� performance deteriorated. In study four, I used Lopes�s (1987) theory to measure risk tolerance in pilots. According to Lopes (1987), risk tolerant individuals are motivated by opportunity, or what they can gain from taking risks, whereas risk averse individuals are motivated by threat, or what they can lose from taking risks. Qualified pilots were presented with 36 flight scenarios, varying in the level of threat and opportunity. The pilots rated the likelihood of going on the flights. Multiple regression equations were calculated, measuring the influence of threat and opportunity on each pilot�s ratings. Pilots were largely risk averse, as their ratings were influenced by threat. The two pilots whose ratings were influenced by opportunity had experienced more aviation incidents compared to the pilots who were not influenced by opportunity. The aim of study five was to assess the relationship between risk management and in-flight WRDM. Qualified pilots completed a simulated flight into adverse weather, and four-computer based measures: the expertise in risk perception measure developed in study three, the risk tolerance measure developed in study four, and two implicit association tests assessing implicit risk perception and anxiousness towards adverse weather. Twelve pilots continued beyond the critical decision point, 18 pilots diverted, and 2 pilots crashed. There was no relationship between in-flight WRDM and expertise in weather-related risk perception. However, the pilots who diverted gave higher ratings of risk during the CWS task compared to the pilots who crashed. The pilots who diverted also tended to be more risk averse and implicitly perceived more risk in adverse weather, compared to the pilots who continued, suggesting a relationship between risk management and decision-making in a simulated flight into adverse weather. These five studies further highlight the role of risk management in pilot decision-making. The tools developed in these studies have potential for measuring risk management in pilots.
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Lu, Chien-Chung. „An empirical analysis of U.S. Air Force pilots' attrition“. Thesis, Monterey, Calif. : Springfield, Va. : Naval Postgraduate School ; Available from National Technical Information Service, 1995. http://handle.dtic.mil/100.2/ADA296408.

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Thesis (M.S. in Management) Naval Postgraduate School, March 1995.
Thesis advisor(s): Gregory G. Hildebrandt, Julie A. Dougherty. "March 1995." Includes bibliographical references. Also available online.
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Smith, Benjamin L. „Pilot fatigue detection using aircraft state variables“. Morgantown, W. Va. : [West Virginia University Libraries], 2008. https://eidr.wvu.edu/etd/documentdata.eTD?documentid=5607.

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Thesis (M.S.)--West Virginia University, 2008.
Title from document title page. Document formatted into pages; contains v, 88 p. : ill. (some col.). Includes abstract. Includes bibliographical references (p. 57-59).
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Smith, Carl F. „The effect of functional display information on the acquisition and transfer of novice piloting knowledge“. Fairfax, VA : George Mason University, 2008. http://hdl.handle.net/1920/3148.

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Thesis (Ph.D.)--George Mason University, 2008.
Vita: p. 145. Thesis director: Deborah A. Boehm-Davis. Submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy in Psychology. Title from PDF t.p. (viewed July 8, 2008). Includes bibliographical references (p. 142-144). Also issued in print.
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Heartsill, Gary L. (Gary Leon). „An Analysis of Reading Preferences of Pilots to Develop a Book List for Aviation Education“. Thesis, University of North Texas, 1992. https://digital.library.unt.edu/ark:/67531/metadc332504/.

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This study proposed to develop a list of aviation books that experienced pilots consider inspirational and motivational which could be used in an aviation literature course in adult education. Survey results showed the subject pilots had a positive attitude toward reading and flying, but there was little correlation (r = .35) between the two. This suggests that something else influenced the reading of the sample books. The pilot resondents suggested 269 books for use in a course. This book list will need additional refining and syntopical sorting before use as a canon in an aviation education course.
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Naidoo, Prevendren. „Airline pilots' perceptions of advanced flight deck automation“. Diss., Pretoria : [s.n.], 2009. http://upetd.up.ac.za/thesis/available/etd-06152009-133747/.

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Hohmann, Maya Danielle. „Psychological Skills of Canadian Military Pilots“. Thèse, Université d'Ottawa / University of Ottawa, 2011. http://hdl.handle.net/10393/20058.

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For decades, elite athletes have used mental skills training to enhance their performance. The effectiveness of these skills and strategies have been measured, documented and supported in research (e.g., Feltz & Landers, 1983; Vealey, 1994). As the remarkable benefits of mental skills continue to reach an ever-growing community of performers, it is surprising that many military organizations, known for their high standards for performance and little tolerance for error, have yet to take full advantage of this type of training. Canada’s Air Force (CAF), home to a world-renowned pilot training program, now finds itself seeking additional tools to empower pilots to achieve consistent, high quality performance under demanding, high stress conditions. The purpose of this research was to explore the psychological skills used by elite Canadian military pilots to perform successfully in this highly demanding occupation. Sixteen in-depth interviews were conducted with elite Canadian pilots at a CAF base in Saskatchewan. Results indicated that pilots utilized all seven elements of Orlick’s (2008) Wheel of Excellence over three phases of flight: pre-flight preparation, mission execution, and post-flight debriefs. Pilots also drew on elements of the Wheel of Excellence during deployments to combat zones. Effective stress management played an especially important role in this context. Recommendations for future research include mental skills usage and preparation specific to deployment contexts as well as the implementation of a specific, relevant mental skills training program within the existing CAF pilot training program
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Bücher zum Thema "Air pilots"

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William, Russell. Pilots. Vero Beach, Fla: Rourke Press, 1994.

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Peacock, Lindsay T. Pilots. Ada, OK: Garrett Eductional Corp., 1992.

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Fafard, Alexis J. D. Canadian Air Law for Pilots. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-3599-2.

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Gaffney, Timothy R. Air show pilots and airplanes. Berkeley Heights, NJ: Enslow, 2001.

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Jeffries, Joyce. Meet the pilot: Conoce a los pilotos. New York, NY: Gareth Stevens Publishing, 2014.

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Nairn, Don. Gold wings and webbed feet: The autobiography of a New Zealand pilot, his naval and civilian flying experiences. Invercargill, N.Z: Craig Printing Co., 1996.

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Uchida, Motoki. Kichō kara anaunsu. Tōkyō: Shinchōsha, 2004.

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ill, Ingersoll Norm, Hrsg. Pilots. [New York]: Lodestar Books, 1992.

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Robert, Pooley, Ryall William und Civil Aviation Authority, Hrsg. Pooley's pilots information guide: Air legislation. 2. Aufl. Herts: Pooley, 1986.

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Sloan, S. J. Pilots under stress. London: Routledge & Kegan Paul, 1986.

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Buchteile zum Thema "Air pilots"

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Fafard, Alexis J. D. „Commercial Air Services“. In Canadian Air Law for Pilots, 615–1038. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-3599-2_24.

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Fafard, Alexis J. D. „Miscellaneous“. In Canadian Air Law for Pilots, 275–79. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-3599-2_8.

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Fafard, Alexis J. D. „Pilots and Canadian Decision-Makers Under Air Law“. In Canadian Air Law for Pilots, 53–206. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-3599-2_4.

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Fafard, Alexis J. D. „Visual Flight Rules“. In Canadian Air Law for Pilots, 475–80. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-3599-2_14.

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Fafard, Alexis J. D. „Aircraft Equipment and Maintenance Requirements“. In Canadian Air Law for Pilots, 535–83. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-3599-2_22.

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Fafard, Alexis J. D. „Airworthiness — Cargo Compartment Classification“. In Canadian Air Law for Pilots, 497–98. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-3599-2_17.

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Fafard, Alexis J. D. „Canadian Airspace“. In Canadian Air Law for Pilots, 415–31. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-3599-2_12.

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Fafard, Alexis J. D. „General“. In Canadian Air Law for Pilots, 209–21. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-3599-2_5.

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Fafard, Alexis J. D. „General“. In Canadian Air Law for Pilots, 269–74. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-3599-2_7.

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Fafard, Alexis J. D. „Flight Operations in Canada“. In Canadian Air Law for Pilots, 433–73. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-3599-2_13.

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Konferenzberichte zum Thema "Air pilots"

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Yeong Kwon, Ju, Seok Jun Jin und Da young Ju. „Considerations for Cabin Design in Urban Air Mobility's Personal Air Vehicles with a Focus on User Experience“. In AHFE 2023 Hawaii Edition. AHFE International, 2023. http://dx.doi.org/10.54941/ahfe1004261.

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Urban Air Mobility (UAM) era is predicted to arrive, with the commercialization of Personal Air Vehicle (PAV) expected by 2025. The cabin design direction of traditional aircraft and PAV differs significantly, and considering the perspective of a new space that users have not previously experienced, it is necessary to understand user perceptions in order to provide an environment that ensures satisfaction, comfort, and stability. Furthermore, while the cockpit in traditional aircraft is separated and disconnected, PAV may have direct interaction points between pilots and passengers, necessitating consideration of social factors related to pilot-passenger interaction. The purpose of this study is to identify the physical and social servicescape factors in PAV cabins that may influence the experiences of passengers and pilots. According to the survey results, both pilots and passengers rated the "Safety in Emergencies" element as the most important. It takes into account the confined interior of the cabin, examining environmental factors that impact not only passengers but also pilots, thus providing a holistic understanding and presentation of the overall aspects.
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Sineglazov, V. M., und Yu N. Shmelev. „Qualification level control of remotely piloted aircraft pilots“. In 2013 IEEE 2nd International Conference Actual Problems of Unmanned Air Vehicles Developments (APUAVD). IEEE, 2013. http://dx.doi.org/10.1109/apuavd.2013.6705305.

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Sicre, Jean-Luc. „Pilots Role vs. Avionics Systems Role, and Pilots Training Implications“. In AIAA International Air and Space Symposium and Exposition: The Next 100 Years. Reston, Virigina: American Institute of Aeronautics and Astronautics, 2003. http://dx.doi.org/10.2514/6.2003-2661.

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Donval, Ariela, Tali Fisher, Ofir Lipman und Moshe Oron. „Anti-dazzling protection for Air Force pilots“. In SPIE Defense, Security, and Sensing, herausgegeben von Bjørn F. Andresen, Gabor F. Fulop und Paul R. Norton. SPIE, 2012. http://dx.doi.org/10.1117/12.916967.

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Kim, Sungho, Kyehyun Kim, Kgyungwon Kim, Juhyeong Yang, Hong-kyung Lee, Jungwoon Kim, Geonhui Kim, Seunghoon Yoo, Younggun Lee und Dongsoo Kim. „A Longitudinal Study on Hearing Loss in South Korean Air Force Pilots: Evidence from Electronic Medical Records“. In 15th International Conference on Applied Human Factors and Ergonomics (AHFE 2024). AHFE International, 2024. http://dx.doi.org/10.54941/ahfe1005070.

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Hearing loss is known to be one of the most common diseases that can occur among Air Force pilots. Since treatment for hearing loss varies greatly depending on the cause, an accurate diagnosis of the cause is important. However, few studies have comprehensively analysed the causes of hearing loss in Air Force pilots. Therefore, the purpose of this study is to contribute to the prevention of hearing loss by identifying the vulnerability of hearing loss in Air Force pilots in the long term through the analysis of Electronic Medical Records (EMRs). This study analysed the EMRs of Air Force pilots from 2012 to 2023 in South Korea. The EMRs included pilot demographic information as well as the results for each indicator of the general check, blood test, urine test, and Pure Ton Audiometry (PTA) test. Results of data analysis show that pilots who were older, had propeller aircraft types, and had a total flight time of 2,001 to 3,000 hours had a high rate of hearing loss. In addition, pilots with hearing loss were found to have both systolic and diastolic blood pressures outside the normal range. In particular, diastolic blood pressure and glucose levels showed a significant positive correlation with both left and right hearing test results in the high frequency range. In terms of PTA tests, pilots with hearing loss mainly exceeded the criteria in the left ear and high frequency range, and the C5-dip and asymmetry phenomenon were partially identified. The results of this study show the possibility of predicting hearing loss disease for Air Force pilots or suggesting medical treatment guidelines through the analysis of EMRs.
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Green, Steven, Byron Moe und Joseph Bracken. „Inflight Icing Educational Objectives for Air Carrier Pilots“. In 41st Aerospace Sciences Meeting and Exhibit. Reston, Virigina: American Institute of Aeronautics and Astronautics, 2003. http://dx.doi.org/10.2514/6.2003-21.

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K. LEKEA, Ioanna, Dimitrios G. STAMATELOS und Dimitrios G. STAMATELOS. „DIGITALIZING PILOT’S TRAINING ON SAFETY PROCEDURES OR HOW TO DEAL WITH ABNORMAL SITUATIONS“. In SCIENTIFIC RESEARCH AND EDUCATION IN THE AIR FORCE. Publishing House of "Henri Coanda" Air Force Academy, 2022. http://dx.doi.org/10.19062/2247-3173.2022.23.12.

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Flight safety is an extremely important parameter in pilots’ training. Every pilot must know the aircraft, its limits, and how he/she will effectively deal with any in-flight contingencies. To this end, flight training includes real flight hours (whether with a flight instructor or solo flights), simulator hours, targeted presentations, and discussions of case studies. In the abovementioned training methods, the flight instructor must be with the trainee at a specific place and for a specific time, which sets practical restrictions. For example, the weather may not always allow for a flight, the simulation of critical situations or mechanical/engine failures during flight may present serious risks, the flight simulator may be off for certain periods for maintenance purposes and the flight instructor may not be constantly available to the trainee. In our paper, we will examine the use of virtual tools for the pilots’ training on flight safety procedures and the relevant regulations of the aircraft
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Strybel, Thomas, Vernol Battiste, Kim-Phuong L. Vu, Panadda Marayong, Stacey Ahuja, Maegan Schmitz, Justin Cheung, Chloe Culver, Andrew Alfaroarevalo und Praveen Shankar. „Evaluation of Voice vs. Text Communication Modes in Simulated UAM Operations.“ In 15th International Conference on Applied Human Factors and Ergonomics (AHFE 2024). AHFE International, 2024. http://dx.doi.org/10.54941/ahfe1004744.

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Urban Air Mobility (UAM) is a system that is expected to operate within and around metropolitan environments, utilizing electric, vertical takeoff and landing (e-VTOL) aircraft, to create on-demand, highly automated passenger and cargo-carrying air transportation services. Many stakeholders are developing such systems, although several barriers to UAM operation remain. Two barriers being addressed in our simulation facility are pilot training and air traffic management operations. Although the UAM industry is focused on autonomous operations, the initial UAM operations will have ground or onboard pilots, yet the forecasted pilot shortage will be problematic. Completely autonomous systems will result from an evolution, of pilot-based operations, to onboard operators flying with automated assistance and finally completely autonomous vehicles. We are currently investigating and evaluating concepts for simplified vehicle operations and air traffic management using a virtual UAM eVTOL vehicle in a CAVE virtual environment. In the first test of the UAM vehicle (e.g., Strybel et al., 2021) pilots and reported that the simulation was sufficiently realistic for tests of UAM operations. Here we report on a subsequent investigation of communication modes for pilots flying UAM routes over the San Francisco metropolitan area. The routes consisted of stops at six vertiports, either at airports or other locations, for picking up/dropping off passengers. UAM pilots communicated with air traffic control and vertiport managers using either voice or text messaging. Voice communications were consistent with current day air traffic control operations. Text communications were via a custom message pad application that enabled standard messages to/from ATC (requests and responses) via touch input. Six certified pilots flew two routes using each mode of communication. We evaluated the impacts of these communication modes on pilot performance (flight time and communication latency) and subjective responses (workload and subjective feedback). Feedback regarding the messaging application and simulation facilities were also collected and will be described in the presentation.
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Ziakkas, Dimitrios, Gede Bagus Michael Kim und Dimitra - Eirini Synodinou. „Virtual Reality (VR) and Simulated Air Traffic Control Environment (SATCE) in flight training: The Purdue Case study“. In Human Interaction and Emerging Technologies (IHIET-AI 2024). AHFE International, 2024. http://dx.doi.org/10.54941/ahfe1004565.

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Adaptive learning capabilities based on Artificial Intelligence (AI) can provide learners with a personalized learning path. It is a capability that customizes the trainee’s learning experience to their identified learning style and preference while providing the quickest route through the pilot training program. To accomplish this, every training program should be integrated to provide context and relevance and improve performance by generating insights on the performance of learners or cohorts and the efficacy of associated content. The aviation industry seeks novel methods for pilot training that are more efficient. Competency-Based Training and Assessment (CBTA) is a method that proposes an assessment process that helps understand how a flight crew may be able to manage both foreseen and unforeseen incidents and uses this data to help the crew achieve a higher level of efficiency.With a centralized data capture process centered on the pilot’s information, a pilot profile can be created to provide personalized training and advanced insight into the pilot’s learning experience. New technologies like Virtual Reality (VR) training combined with biometric data like eye-tracking and facial tracking can be a powerful platform to obtain the required data. Describing the communication competency from a training perspective, an AI – VR training environment (Simulated Air Traffic Control Environment - SATCE) would allow the pilots to improve their communication skills, enable pilots to ask questions with a specifically trained Generative Pre-Trained (GPT) model, and receive a validated answer. The Purdue case study focuses on the cognitive aspects of flight training using emerging technologies. This research aims to improve training effectiveness by incorporating immersive technologies in aviation training. Dynamic real-time visualization, automatic human profile assessment, and training system adaption technologies can potentially improve flight training’s overall efficacy and efficiency. This digitization process includes various immersive virtual technologies and synthetic learning environments. By using these technologies, all persons participating in flight training will obtain a complete insight into the participants’ performance cognitive limitations, ultimately optimizing the training lifecycle.
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Starck, J., E. Toppila, P. Kuronen und M. Sorri. „165. Hearing Loss Among Finnish Air Force Military Pilots“. In AIHce 2004. AIHA, 2004. http://dx.doi.org/10.3320/1.2758138.

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Berichte der Organisationen zum Thema "Air pilots"

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Morin, Daniel P. Training Air Service Pursuit Pilots in World War I. Fort Belvoir, VA: Defense Technical Information Center, März 1997. http://dx.doi.org/10.21236/ada397837.

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Siem, Frederick M., und William E. Alley. Optimal Personnel Assignment: An Application to Air Force Pilots. Fort Belvoir, VA: Defense Technical Information Center, März 1996. http://dx.doi.org/10.21236/ada316975.

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Ausink, John, und David Wise. The Military Pension, Compensation, and Retirement of U.S. Air Force Pilots. Cambridge, MA: National Bureau of Economic Research, Dezember 1993. http://dx.doi.org/10.3386/w4593.

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Hoppe, Billy J. Pilot Retention - A 'Gray' Issue? The Impact of Airline Hiring of Retirement Eligible Pilots on Air Force Leadership. Fort Belvoir, VA: Defense Technical Information Center, April 1988. http://dx.doi.org/10.21236/ada195018.

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Callister, Joseph D., Raymond E. King, Paul D. Retzlaff und Royden W. Marsh. Using the NEO-PI-R to Assess the Personality of US Air Force Pilots. Fort Belvoir, VA: Defense Technical Information Center, Juli 1997. http://dx.doi.org/10.21236/ada328908.

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Carter, Eric, und James Norman. Three approaches, two go arounds, and one diversion. Hindsight, 2022. http://dx.doi.org/10.31356/avi-fac062.

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A surprise in the air often means surprise on the ground, but controllers and pilots rarely have the chance to share perspectives. In this article, Eric Carter and James Norman present a case study to highlight the benefit of a collaborative voice.
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Chappelle, Wayne L., Bret D. Heerema und William T. Thompson. Factor Analysis of Computer-Based Multidimensional Aptitude Battery-Second Edition Intelligence Testing from Rated U.S. Air Force Pilots. Fort Belvoir, VA: Defense Technical Information Center, September 2012. http://dx.doi.org/10.21236/ada583710.

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Pinchuk, O. P., O. M. Sokolyuk, O. Yu Burov, Evgeniy Lavrov, Svitlana Shevchenko und Valeriia Aksakovska. ICT for training and evaluation of the solar impact on aviation safety. CEUR Workshop Proceedings, 2020. http://dx.doi.org/10.33407/lib.naes.722580.

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The paper discusses information and communication technology use for studying reasons of aviation accidents because of the aviation operator errors as result of internal and external influence. The model and technique are proposed and include integrated ICT united previously developed (initial professional selection and day-to-day pre-shift check), open access cloud-based (NASA and ICAO) and real-time operative (air traffic controllers and pilots control) ICTs, which data are stored in one database. Proposed ICT has been checked to study effect of the solar wind parameters (speed and density) on appearance of aviation incidents and accidents during one year observation. Results of that study were compared with corresponding results of another period of solar activity, as well as with data obtained in laboratory conditions to study cognitive tests performance under effect of the solar wind.
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Cook, Stephen, und Loyd Hook. Developmental Pillars of Increased Autonomy for Aircraft Systems. ASTM International, Januar 2020. http://dx.doi.org/10.1520/tr2-eb.

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Increased automation for aircraft systems holds the promise to increase safety, precision, and availability for manned and unmanned aircraft. Specifically, established aviation segments, such as general aviation and light sport, could utilize increased automation to make significant progress towards solving safety and piloting difficulties that have plagued them for some time. Further, many emerging market segments, such as urban air mobility and small unmanned (e.g., small parcel delivery with drones) have a strong financial incentive to develop increased automation to relieve the pilot workload, and/or replace in-the-loop pilots for most situations. Before these advances can safely be made, automation technology must be shown to be reliable, available, accurate, and correct within acceptable limits based on the level of risk these functions may create. However since inclusion of these types of systems is largely unprecedented at this level of aviation, what constitutes these required traits (and at what level they must be proven to) requires development as well. Progress in this domain will likely be captured and disseminated in the form of best practices and technical standards created with collaboration from regulatory and industry groups. This work intends to inform those standards producers, along with the system designers, with the goal of facilitating growth in aviation systems toward safe, methodical, and robust inclusion of these new technologies. Produced by members of the manned and unmanned small aircraft community, represented by ASTM task group AC 377, this work strives to suggest and describe certain fundamental principles, or “pillars”, of complex aviation systems development, which are applicable to the design and architectural development of increased automation for aviation systems.
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Chappelle, Wayne, Julie Swearengen, Tanya Goodman und William Thompson. Personality Test Scores that Distinguish U.S. Air Force Remotely Piloted Aircraft Drone Pilot Training Candidates. Fort Belvoir, VA: Defense Technical Information Center, Februar 2014. http://dx.doi.org/10.21236/ada600491.

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