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Equivalency Analysis of Sidestick Controller Modes During Manual Flight

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Date Issued:
2018
Abstract/Description:
Equivalency analysis is a statistical procedure that can enhance the findings of an analysis of variance in the case when non-significant differences are identified. The demonstration of functional equivalence or the absence of practical differences is useful to designers introducing new technologies to the flight deck. Proving functional equivalence is an effective means to justify the implementation of new technologies that must be (")the same or better(") than previous technology. This study examines the functional equivalency of three operational modes of a new active control sidestick during normal operations while performing manual piloting tasks. Data from a between-subjects, repeated-measures simulator test was analyzed using analysis of variance and equivalency analysis. Ten pilots participated in the simulator test which was conducted in a fixed-base, business jet simulator. Pilots performed maneuvers such as climbing and descending turns and ILS approaches using three sidestick modes: active, unlinked, and passive. RMS error for airspeed, flight path angle, and bank angle were measured in addition to touchdown points on the runway relative to centerline and runway threshold. Results indicate that the three operational modes are functionally equivalent when performing climbing and descending turns. Active and unlinked modes were found to be functionally equivalent when flying an ILS approach, but the passive mode, by a small margin, was not found to be functionally equivalent.
Title: Equivalency Analysis of Sidestick Controller Modes During Manual Flight.
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Name(s): Rummel, Alex, Author
Karwowski, Waldemar, Committee Chair
Elshennawy, Ahmad, Committee Member
Hancock, Peter, Committee Member
University of Central Florida, Degree Grantor
Type of Resource: text
Date Issued: 2018
Publisher: University of Central Florida
Language(s): English
Abstract/Description: Equivalency analysis is a statistical procedure that can enhance the findings of an analysis of variance in the case when non-significant differences are identified. The demonstration of functional equivalence or the absence of practical differences is useful to designers introducing new technologies to the flight deck. Proving functional equivalence is an effective means to justify the implementation of new technologies that must be (")the same or better(") than previous technology. This study examines the functional equivalency of three operational modes of a new active control sidestick during normal operations while performing manual piloting tasks. Data from a between-subjects, repeated-measures simulator test was analyzed using analysis of variance and equivalency analysis. Ten pilots participated in the simulator test which was conducted in a fixed-base, business jet simulator. Pilots performed maneuvers such as climbing and descending turns and ILS approaches using three sidestick modes: active, unlinked, and passive. RMS error for airspeed, flight path angle, and bank angle were measured in addition to touchdown points on the runway relative to centerline and runway threshold. Results indicate that the three operational modes are functionally equivalent when performing climbing and descending turns. Active and unlinked modes were found to be functionally equivalent when flying an ILS approach, but the passive mode, by a small margin, was not found to be functionally equivalent.
Identifier: CFE0007242 (IID), ucf:52226 (fedora)
Note(s): 2018-08-01
M.S.I.E.
Engineering and Computer Science, Industrial Engineering and Management Systems
Masters
This record was generated from author submitted information.
Subject(s): Equivalency analysis -- sidestick -- sidestick controller -- active control sidestick -- active sidestick controller -- aerospace -- fly by wire -- passive sidestick -- unlinked sidestick -- flight crew performance -- pilot performance -- flight technical error -- fixed base simulator -- business jet -- workload
Persistent Link to This Record: http://purl.flvc.org/ucf/fd/CFE0007242
Restrictions on Access: public 2018-08-15
Host Institution: UCF

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