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Saturday, June 1, 2013

Takeoff and Landing Performance Assessment Validation Effort of the Runway Condition Assessment Matrix

DOT/FAA/TC-TN13/22 Authors: Nicholas Subbotin and Susan Gardner

Takeoff and Landing Performance Assessment Validation Effort of the Runway Condition Assessment Matrix

In 2009, the Takeoff and Landing Performance Assessment (TALPA) Aviation Rulemaking Committee (ARC) recommended that the Federal Aviation Administration (FAA) conduct a trial program or validation effort to assess the use of a Runway Condition Assessment Matrix (RCAM), commonly referred to as the Matrix. The validation effort was intended to examine the RCAM’s processes to determine if they could be implemented at airports nationwide in order to disseminate runway surface condition information to pilots prior to landing. The objectives included validating the correlation between the Matrix surface condition descriptions and pilot braking action reports (PIREP) and determining the usability of the Matrix for airport operators and pilots.

This technical note gives a general overview and background of the TALPA ARC and provides an overview of the two RCAM FAA validation efforts during consecutive winter airport operations seasons in 2009-10 and 2010-11. Recommendations for changes to the RCAM are also provided. This technical note discusses these two validation efforts along with the evaluation approach, analysis, results, and recommendations. Similarly, the revisions and changes that affected the RCAM and its processes during the course of this effort are also described.

An Industry Team comprised of industry representatives instrumental in the development of the RCAM, along with the FAA, airport operators, and air carrier representatives who participated in the validation efforts, reviewed the evaluation approach, analysis, and results. Based on the results of the validation efforts, the Industry Team recommended that the FAA work to implement the RCAM and its processes into aviation operations

DOT/FAA/TC-TN13/22
Authors: Nicholas Subbotin and Susan Gardner

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