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Flight below minimum altitude reminder of high workload during approach, landing

Flight below minimum altitude a reminder of high workload during approach, landing

Key points:

  • Turbulence led pilot to experience data entry difficulties, which combined with environmental conditions, and timing of clearance from air traffic control, led the pilot to experience high workload;
  • Pilot inadvertedly selected the incorrect radio frequency during approach, and aircraft descended below minimum altitude while control attempted to re-establish communications;
  • Incident is a reminder for pilots of high workload during approach and landing, which can be exacerbated by additional factors such as turbulence.

A pilot’s high workload, including data entry difficulties, while conducting an approach to land at Adelaide Airport in instrument meteorological conditions likely affected their situational awareness resulting in their aircraft descending below the assigned minimum altitude.

An Australian Transport Safety Bureau investigation into the incident details that on the morning of 12 August 2021, the twin-engine Aero Commander 500-S was conducting a private flight from Port Lincoln to Adelaide with a pilot and passenger on board.

After descending to 3,800 ft during the approach, the pilot was cleared by air traffic control to track direct to the GPS waypoint GULLY, the initial waypoint for the area navigation (RNAV) instrument approach into Adelaide.

However, the pilot reported having difficulties entering the RNAV approach into the aircraft’s touchscreen multi-function display due to turbulence.

“Several factors including the environmental conditions, data entry difficulties, and the timing of the clearance for the GULLY waypoint, likely led to the pilot experiencing a high workload,” ATSB Director Transport Safety Dr Stuart Godley explained.

By the time the pilot correctly input the approach into the system, the aircraft had just overflown the GULLY waypoint. This meant when the pilot then selected the ‘Direct-To’ option on the display, the autopilot commanded a sharp turn to the right, to commence an orbit to attempt to overfly the waypoint to recapture it.

The controller then began giving the pilot instructions, intending to vector the aircraft back to the waypoint, but a short time later, communications were lost.

“The ATSB found that during the approach the pilot had inadvertedly selected the incorrect radio frequency,” Dr Godley said.

For about 4 minutes before contact was re-established, the aircraft continued on its assigned heading, but began descending below its assigned altitude.

“During this time, the approach controller attempted to contact the pilot and issued three terrain safety alerts. The lowest altitude the aircraft descended to was 2,480 ft, close to the highest point within 5 NM of the aircraft’s track, which was 1,913 ft.”

Once communications were re-established, the approach controller issued the pilot a terrain safety alert and instructed the pilot to climb immediately to 5,000 ft.

The aircraft then tracked to Adelaide Airport and landed without further incident.

Dr Godley said the event highlights the heightened workload pilots experience during the approach and landing phases of flight.

“Pilots must continuously monitor aircraft and approach parameters, and the external environment, to ensure they maintain a stable approach profile and make appropriate decisions for a safe landing,” Dr Godley said.

“Distractions and unanticipated events can further increase a pilot’s workload leading to undetected errors and a loss of situational awareness.

“During high workload phases of flight, pilots should remain focused on monitoring the aircraft instruments and avoid fixating on a problem.”

You can find here the report:

Last update 01 March 2022

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