NTL Record

Title Use of traffic displays for general aviation approach spacing : a human factors study
Record ID 35536
Personal Name
Creator
Nadler, Eric; Yost, A.; Kendra, A. J.
Source 44p. in various pagings
Corporate Creator John A. Volpe National Transportation Systems Center (U.S.)
Publisher United States. Office of Aerospace Medicine
Publication Date 20071200
Language English
Abstract A flight experiment was conducted to assess human factors issues associated with pilot use of traffic displays for approach spacing. Sixteen multi-engine rated pilots participated. Eight flew approaches in a twin-engine Piper Aztec originating in Sanford, ME, and eight flew approaches in the same aircraft originating in Atlantic City, NJ. The spacing target was a Cessna 206. The traffic display was either a Garmin International MX-20™ (the “Basic” Cockpit Display of Traffic Information, or CDTI) or an MX-20™ modified with features to help the pilot monitor the closing rate, the range and ground speed of the traffic-to-follow, and ownship ground speed (Range Monitor). Two other Equipment conditions were Baseline and Autopilot. Pilots successfully used the displays to maintain the assigned spacing on visual and instrument approaches. The spacing deviations were significantly lower when using the displays during visual approaches than when attempting to maintain spacing without a traffic display. The mean spacing deviation during the IFR approaches was less than 0.10 NM for all three equipment conditions (Basic CDTI, Range Monitor, Autopilot), and these mean spacing deviations did not differ significantly. Range Monitor features appeared to particularly benefit the low-hour pilots. While the traffic display reduced visual reacquisition times, this effect was only found with pilots whose displays showed additional traffic (not only the traffic-to-follow). In general, however, the additional traffic was associated with less time between fixations on the display and higher workload. Subjects appeared to have had difficulty identifying an optimal display range that would simultaneously provide traffic awareness and spacing task performance. The traffic display necessarily requires visual attention and reduces the attention available for scanning the instrument panel and on visual approaches, the outside world. For this reason, even if pilots assume responsibility for spacing when they temporarily lose visual contact with the assigned traffic-to-follow, they should notify ATC of the loss of visual contact so that controllers can assume responsibility for separation from other aircraft.
Rosap ID dot:9018
Rosap URL https://rosap.ntl.bts.gov/view/dot/9018
TRT Terms Information display systems; Air traffic control
General Subjects ADS-B Displays; CDTI Displays; Navigation Displays; Human Factors; Psychology; Applied Psychology
Classification NTL - AVIATION - AVIATION;
NTL - AVIATION - Airports and Facilities;
NTL - AVIATION - Air Traffic Control;
NTL - AVIATION - Aviation Safety/Airworthiness;
NTL - SAFETY AND SECURITY - Human Factors;
NTL - SAFETY AND SECURITY - Aviation Safety/Airworthiness
Geographical
Coverage
United States
OCLC 276929685
TRIS Online
Accession No
1088855
Report Number DOT/FAA/AM-07/30
Availability Volpe National Transportation Systems Center, Technical Reference Center
Resource type Research Paper
URL https://ntlrepository.blob.core.windows.net/lib/35000/35500/35536/CDTI_Approach_Spacing_Nadler_Yost_Kendra_2007.pdf
Format PDF
Database NTL Digital Repository