@article{ART002198110},
author={Hyunsu KIM},
title={The Design of Energy Management Training Using Abstraction Hierarchy},
journal={Journal of Knowledge Information Technology and Systems},
issn={1975-7700},
year={2017},
volume={12},
number={1},
pages={79-90},
doi={10.34163/jkits.2017.12.1.008}
TY - JOUR
AU - Hyunsu KIM
TI - The Design of Energy Management Training Using Abstraction Hierarchy
JO - Journal of Knowledge Information Technology and Systems
PY - 2017
VL - 12
IS - 1
PB - Korea Knowledge Information Technology Society
SP - 79
EP - 90
SN - 1975-7700
AB - Even experienced pilot, lack of energy recognition and management would lead to critical condition and fatal accident. The pilot should require aware of energy status of each flight phase and learning energy management. Basically, law of energy conservation on real flight maintains different way such as potential as a height, kinetic as a velocity and dissipation energy from chemical energy. In this study, it is shown the energy equations caused from energy status such as climb, decent, acceleration and deceleration for knowledge-based training. In order to understand how pilots can manage energy state on real flight, flight trajectories are displayed using the flowchart that explains the energy state of each flight phase. Also it is shown and compared with flight strategy single-input single-output and Multi-Input Multi-Output strategy using energy matrix. Multi-Input Multi-Output strategy helps student pilots to understand the energy management on knowledge-based training, it is explored the use of Work Domain Analysis of energy management. In order to provide a new way for effective flight training, skill-based and knowledge-based training program structures are designed using by abstraction hierarchy. Each training program structure based on whole-part is reclassified as structure based on goal–means domain analysis. This study shows that it is made the subject contents of the energy management which will be included in new curriculum for flight training, also each program structure of whole-part has been reclassified as structural goal-means.
KW - Energy management;Law of energy conservation;Work domain analysis;Abstraction hierarchy;Flight training;Development of curriculum
DO - 10.34163/jkits.2017.12.1.008
ER -
Hyunsu KIM. (2017). The Design of Energy Management Training Using Abstraction Hierarchy. Journal of Knowledge Information Technology and Systems, 12(1), 79-90.
Hyunsu KIM. 2017, "The Design of Energy Management Training Using Abstraction Hierarchy", Journal of Knowledge Information Technology and Systems, vol.12, no.1 pp.79-90. Available from: doi:10.34163/jkits.2017.12.1.008
Hyunsu KIM "The Design of Energy Management Training Using Abstraction Hierarchy" Journal of Knowledge Information Technology and Systems 12.1 pp.79-90 (2017) : 79.
Hyunsu KIM. The Design of Energy Management Training Using Abstraction Hierarchy. 2017; 12(1), 79-90. Available from: doi:10.34163/jkits.2017.12.1.008
Hyunsu KIM. "The Design of Energy Management Training Using Abstraction Hierarchy" Journal of Knowledge Information Technology and Systems 12, no.1 (2017) : 79-90.doi: 10.34163/jkits.2017.12.1.008
Hyunsu KIM. The Design of Energy Management Training Using Abstraction Hierarchy. Journal of Knowledge Information Technology and Systems, 12(1), 79-90. doi: 10.34163/jkits.2017.12.1.008
Hyunsu KIM. The Design of Energy Management Training Using Abstraction Hierarchy. Journal of Knowledge Information Technology and Systems. 2017; 12(1) 79-90. doi: 10.34163/jkits.2017.12.1.008
Hyunsu KIM. The Design of Energy Management Training Using Abstraction Hierarchy. 2017; 12(1), 79-90. Available from: doi:10.34163/jkits.2017.12.1.008
Hyunsu KIM. "The Design of Energy Management Training Using Abstraction Hierarchy" Journal of Knowledge Information Technology and Systems 12, no.1 (2017) : 79-90.doi: 10.34163/jkits.2017.12.1.008
