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Ergonomization needs of student pilots Methods Research approach Sample Materials Procedure Data analysis Generalization potential

Site: Wiki of Science at http://wikiofscience.wikidot.com Source page: 20110615 - Ergonomization needs of student pilots at http://wikiofscience.wikidot.com/print:20110615-ergonomization-perezgonzalez2009

20110615 - Ergonomization needs of student pilots

[<Normal page] [PEREZGONZALEZ Jose D (20093). Ergonomization needs of student pilots. Journal of Knowledge Advancement & Integration (ISSN 1177-4576), 2011, pages 48-51].]

Ergonomization needs of

student pilots

Perezgonzalez & Lee explored the ergonomization needs of student pilots in 20091. They asked a group of student pilots which technological features they wanted to have when flying (with costs also included as part of those features). They also asked them how much they valued the selected features.

Extended research results are presented in table 1.

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Overall, the student pilots valued highly technological features that helped them with their flying (eg, onboard display of navigation charts, airspace awareness functionality, pre-flight route planning, and TCAS functionality), low running costs, post-flight analysis displayed on navigation charts, and equipment portability.

Table 1. Relative importance of ergonomization features to student pilots2

technological feature mean* interpretation

Onboard display of navigation charts 4.0 important

Airspace awareness functionality 3.9 important

Low operational costs 3.9 important

Post-flight feedback on navigation charts 3.8 important

Pre-flight route planning functionality 3.6 important

TCAS functionality 3.6 important

Weather and airspace planning support 3.5 important

Onboard display of track flown 3.5 important

Portability 3.5 important

Real-time onboard monitoring 3.4 medium importance

Onboard display of route to follow 3.4 medium importance

Onboard display of elevation 3.4 medium importance

Low set up costs 3.4 medium importance

Post-flight feedback on satellite maps 3.1 medium importance

Post-flight feedback of elevation flown 3.1 medium importance

Real-time remote monitoring 2.9 medium importance

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Recording of flight parameters per second 2.8 medium importance

Full communication capabilities 2.7 medium importance

Post-flight feedback in 3-D 2.6 medium importance

Onboard 3-D displays 2.5 medium importance

Autonomy 2.3 little importance

Recording of multiple flight parameters 2.2 little importance

Full post-flight video playback functionality 2.0 little importance

Post-flight video playback capability 1.6 little importance

Fleet monitoring functionality 1.5 little importance

Onboard display of street maps 0.8 very little importance

Post-flight feedback on street maps 0.6 very little importance

*average value out of 5

Methods

Research approach

This was an exploratory study of student pilots' valuation of new technologies (typically integrated in the so called glass-cockpit).

Sample

A convenient sample of 17 student pilots. The group comprised New Zealand student pilots who already had obtained their private pilot licences (PPL) and were on a continuation course towards their air transport pilot licences (ATPL). These pilots had also completed at least one navigational flight requiring them to fly solo over long distances. Both requirements were important as they allowed the student pilot some experience from which to draw an opinion regarding the technological features under research.

Of relevance here is that these students did not have experience with a glass-cockpit, but with a conventional one, so most of them had no direct experience with the technological features under research (although some students may have had access to some of them by way of bringing their own third-party technologies, such as smartphones or laptops with flight support programs installed, into the cockpit).

Materials

A questionnaire with a list of 28 technological features, collated from observing three different GPS-based technologies used in aviation or with aviation applications: a real-time fleet tracking technology (Spidertracks), an iPhone application for tracking flight parameters for post-flight analysis, and a flight management system application which runs on Microsoft Windows-capable devices.

The questionnaire required first a dichotomous (yes/no) selection of features deemed

relevant, and, secondly, an assessment of the relevant features on a five-anchor Likert scale running from '1, very little importance' to '5, very important'. (In practice, the procedure made for a six-anchor Likert scale, with '0' standing for those features not deemed relevant and meaning 'not important at all'. Results, thus, average values between 0 and 5.

A last question asked the students to choose which of the three technologies they would purchase if they had the capability of doing so.

Procedure

Wiki of Science: 20110615 - Ergonomization needs of student pilots http://wikiofscience.wikidot.com/printer--friendly//print:20110615-erg...

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Students were approached and invited to participate in the research in the last half-hour of a normal class.

They were given a presentation of the different technologies and their relevant features, including a comparison vis-a-vis between them.

After the presentation, they were invited to fill in the questionnaire.

Data analysis

Univariate quantitative analysis (namely descriptive analyses), using SPSS version 14.

Generalization potential

Given the exploratory approach of the research and the small sample and its convenience, the results from this study may not have enough scope for generalization. They could be indicative of similar attitudes in the following 'populations' (in order of decreasing generalization power):

Future student pilots from the same school reaching a similar level of training and exposure to new technologies.

Student pilots in New Zealand. Student pilots elsewhere.

References

1. PEREZGONZALEZ Jose D & Seung Yong LEE (2009a). New technologies for the student pilot. Aviation Education and Research Proceedings (ISSN 1176-0729), volume 2009, pages 10-11. 2. PEREZGONZALEZ Jose D & Seung Yong LEE (2009b). New technologies for the student pilot

(Conference presentation). Aviation Education and Research Conference, 2009 (July), Blenheim

(New Zealand). +++ Footnotes +++

3. Adapted with permission from PEREZGONZALEZ Jose D (2009). Ergonomization needs of student pilots. AviationKnowledge (ISSN 1179-6685), 2010, page 6.]

Want to know more?

AviationKnowledge - Ergonomization

This AviationKnoweldge page offers links to further information on aviation ergonomization.

Perezgonzalez & Lee's (2009) abstract

The original abstract can be found under the "2009 Symposium Proceedings" tab, as

PEREZGONZALEZ Jose D & Seung Yong LEE (2009a). New technologies for the student pilot. Aviation Education and Research Proceedings (ISSN 1176-0729), volume 2009, pages 10-11.

Author

Jose D PEREZGONZALEZ (2010). Massey University, Turitea Campus, Private Bag 11-222, Palmerston North 4442, New Zealand. ( JDPerezgonzalez JDPerezgonzalez).

Peer-reviewers

Stuart ANDERSON (2010). School of Aviation, Massey University, New Zealand ( stuartanderson stuartanderson).

Amber WAN (2010). School of Aviation, Massey University, New Zealand ( Amber Wan Amber Wan).

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Massey Documents by Type Journal Articles

Ergonomization needs of student pilots

Pérezgonzález, Jose D.

2011-06-15

http://hdl.handle.net/10179/9758

Figure

Table 1. Relative importance of ergonomization features to student pilots2

References

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