Non-adherence to altitude restrictions and limitations to the see-and-avoid principle contributed to the March 2017 mid-air collision near the Montréal/St-Hubert Airport, Quebec Français
DORVAL, QC, Sept. 5, 2018 /CNW/ - Today, the Transportation Safety Board of Canada (TSB) released its investigation report (A17Q0030) on a collision between two flying school aircraft that occurred over St-Bruno-de-Montarville, Quebec, in March 2017. The investigation determined that both pilots, who were flying solo under visual flight rules in controlled airspace, had deviated from the altitude restrictions provided by air traffic control before colliding in mid-air.
In the early afternoon of 17 March 2017, a Cessna 152 (C-GPNP), operated by a licenced pilot undergoing commercial training at Cargair Ltd., was returning to the Montréal/St-Hubert airport from a training flight in a local training area. At the same time, another Cessna 152 (C-FGOI), operated by a Cargair Ltd. student pilot, was departing the airport for a training flight in a local training area. At 12:38 Eastern Daylight Time, the two aircraft collided at 1500 feet above the Promenades St-Bruno shopping mall, less than two nautical miles from the airport. Substantially damaged, the C-GPNP aircraft subsequently struck the roof of the mall, seriously injuring its pilot. The C-FGOI aircraft, which fell in a parking lot, was destroyed and its student pilot was fatally injured. Both pilots were international students enrolled in flight training whose first language was neither English nor French, although both had their English-language proficiency assessed as operational, meaning they met the minimum international proficiency level acceptable for radiotelephony communication.
The investigation determined that the pilot of C-GPNP inadvertently descended 100 feet below his altitude restriction of 1600 feet while attempting to troubleshoot a radiocommunication issue. Meanwhile, for unknown reasons, the student pilot of C-FGOI climbed 400 feet above his altitude restriction of 1100 feet, and then collided with the other aircraft from below. Neither pilot saw the other aircraft in time to prevent the collision, partly owing to the limitations of the see-and-avoid principle, which is the basic collision avoidance method under visual flight rules. A pilot's ability to visually detect another aircraft and avoid collision is affected by many factors, such as: proximity, reaction time, obstructions to field of view, pilot scanning techniques, in-flight monitoring of instruments, and radiocommunications.
The investigation also found that the density and variety of operations conducted at the St-Hubert Airport increase the complexity of air traffic control. The varying levels of flying skills and language proficiency among the student pilots of the four local flying schools add to this complexity. In this regard, the investigation found that Transport Canada's oversight of aviation language proficiency testing (ALPT) is limited to administrative verifications. Therefore, it is not possible to assess whether and to what extent designated examiners administer the ALPT program in a manner that ensures validity, reliability, and standardization nationally.
After the occurrence, Transport Canada published a Civil Aviation Safety Alert recommending that flight-training units ensure that student pilots have been awarded an operational level of language proficiency in accordance with the language proficiency scale set out in the personnel licensing standards prior to their first solo flight.
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SOURCE Transportation Safety Board of Canada
Transportation Safety Board of Canada, Media Relations, 819-994-8053, [email protected]
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