workload considerations in urban air mobilityon workload and efficiency-related performance •...
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Workload considerations in Urban Air Mobility
Tamsyn Edwards, Savita Verma, Jillian Keeler
https://ntrs.nasa.gov/search.jsp?R=20190033213 2020-07-07T17:05:44+00:00Z
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Agenda
• Research motivation & aims
• Method
• Results– Reduced communication associated with lower workload– Current procedures associated with fewer controlled aircraft– Route modification associated with increased traffic, not
necessarily reduced workload
• Conclusions & Implications
• Future research
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Research Motivation
• UAM receiving rapidly increasing attention across academic, research and industry domains
– E.g. NASA ‘Grand Challenge’
• Offers potential for significant benefits, but also fundamental change
• Human operator involvement remains undefined– Dependent on near, medium and far term
operations– Dependent on airspace location
• UAM operations will interact heavily with traditional airspace and as such, interactions with ATCOs will occur in the near to mid-term future operations
• Investigation of the impact of UAM traffic on ATCOs’ workload and performance needed to identify and mitigate potential risks to human performance and human operator roles
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• Aim: – Investigate the effect of:
• Task demand• Route modification• Verbal clearance procedures
on workload and efficiency-related performance
• Potential Outcomes:– Better understanding of human operator roles– Contribution to the development of a human-
machine interaction paradigm for UAM– Inform strategies to support human
performance in association with UAM traffic• UAM traffic management• Interaction with air traffic controllers (ATCOs)
Research overview
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Method: Simulation
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• 3 within-measure variables– Task demand– Communications procedures– Routes
• Three task demand scenarios:Hl;l;JjjJkJjjJjLl• Pilot studies confirmed task demand
variation associated with workload variation
Method: Design(1)
ScenarioTemporal spacing
(seconds)
Distance spacing (miles)
Vehicle Count
Scenario 1: Low UAM density 90 3.75 115Scenario 2: Medium UAM density 60 2.5 167
Scenario 3: High UAM density 45 1.88 225
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• Two sets of communication procedure– Current day communications
“UAM942, Love Tower, cleared to enter class bravo. Squawk 4043 [additional instructions]”
– Simulated letter of agreement – reduced verbal communications“UAM173, Love Tower, cleared via [route name]”
• Two sets of routes– Current day helicopter routes– Modified routes, optimized for UAM vehicles
• Avoided approach and departure paths for commercial or VFR aircraft• Avoided common temporary flight restrictions• Avoided heavily populated areas• Shorter, more direct• Introduced two-way routes
Method: Design (2)
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• Experimental conditions overview– Did not use full-factorial designHHHHHHHHHHH
• Measures– Workload– Efficiency-related performance
• Participants– 6 retired controllers– Experience with Dallas metroplex control
Method: Design (3)
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Result 1: Reduced communication is associated with lower workload
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5.00
Low Medium High
Aver
age
Wor
kloa
d (1
-Low
; 5-H
igh)
UAM density
Currentroutes
Currentroutes, LOA
Modifiedroutes, LOA
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Result 2: Current day routes & procedures are associated with fewer controlled aircraft
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160
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Low Medium High
Aver
age
UAM
s co
ntro
lled
UAM density
Currentroutes
Currentroutes, LOA
Modifiedroutes, LOA
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Result 2: Route modifications are associated with increased traffic, not necessarily reduced workload
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Conclusions & Implications
• Findings are provisional (n=6)
• Reduction of verbal communications associated with reduced workload
• Modification of routes associated with increased throughput
• But may still not be sufficient…
• UAM operations significantly restricted if controlled according to current day regulations
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Future research – Human Factors considerations
• Critical focus moves to development of scalable UAM operation that maintains safety– In ATC, ATCOs maintain safe operations
• Balance of human operator and automation in UAM traffic management– Dynamic response, prevention and mitigation
• Role and responsibilities of human operator
• System resilience, tolerances and graceful degradation
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Result 4: Positioning of UAM routes hasimplications for workload