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EFFECTS OF UAV SUPERVISORY CONTROL ON F-18 FORMATION FLIGHT PERFORMANCE IN A SIMULATOR ENVIRONMENT. LCDR Eric McMullen MAJ Shane Grass Thesis Advisor: Dr. Ji -Hyun Yang Co-Advisor: Dr. Quinn Kennedy Second Reader: Dr. Joseph Sullivan. Outline. Background Pilot Study Hypotheses
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EFFECTS OF UAV SUPERVISORY CONTROL ON F-18 FORMATION FLIGHT PERFORMANCE IN A SIMULATOR ENVIRONMENT LCDR Eric McMullen MAJ Shane Grass Thesis Advisor: Dr. Ji-Hyun Yang Co-Advisor: Dr. Quinn Kennedy Second Reader: Dr. Joseph Sullivan
Outline • Background • Pilot Study • Hypotheses • Experiment • Participants • Equipment • Design • Results • Data Formatting • Data Filtering • Statistics • Future Work • Q&A
Background • Distractions degrading task performance has been researched in numerous studies, but rarely concerning secondary tasks while flying military aircraft. • Noted study by Strayer, Drews, & Couch (2006) investigated the effects of cell phone use while driving • Compared effects to intoxication • Frequently cited in Crew Resource Management Instructors’ course for Naval Aviators
Pilot Study Conducted proof of concept in HF of System Design Inter-plane Following Distance
Hypotheses The objective of this thesis is to investigate the following questions: • What is the difference in performance of the primary flight task when performing a traditional secondary task versus a potential future UAV supervisory task? • Does pilot experience and proficiency/currency indicate their primary task performance when performing a future secondary task? • (EXPLORATORY) What is the difference in physiological measures such as heart rate, respiration rate, and posture when performing the traditional versus future secondary tasks?
Participants • Aviators from NAS Lemoore operational squadrons • CAT II-IV qualified (moderate to high experience) Median Mean SD
Equipment • Primary Task Simulators : F-18 Tactical Operational Flight Trainers (TOFTs) • Semi-Autonomous Wingman Supervisory Interface (SAWSI) • BioHarness
BioHarness Records Heartrate, Respiratory Rate, Posture, and Skin Conductance
Design • Planned for 40 participants • 3 Scripted Tasks with a practice session • Baseline (no secondary task) • Traditional (w/Air-Ground task) • Futuristic (w/UAV task using SAWSI) • Length • Each session 5 minutes long (~20 min sim period) • ~ 1 hr/participant total • Simplified Randomization • Group A: B, T, F • Group B: B, F, T
Future Task 50nm
Data Filtering if (filtering distance == 0) then use the original following distance value else, (if original following distance>the filtering distance) then (if the previous cell following distance > filtering distance) then use min(the next previous cell’s value, filtering distance) else use the original following distance.
Data Filtering Smoothing Function=IF(AC$3=0,AB9,(IF (AB9> AC$3,IF(AB8>AC$3,MIN(AB7,AC$3),AB8),AB9))) Filtering Distance
C/D vs E/F Comparison C/D E/F
Future Work • Continue analysis of biodata • Factor in performance of secondary task • Study performance in multi-crew aircraft compared to single pilot • Vary intensity of secondary task • Increased UAVs • Vary frequency of interaction