Markov Model of Terrain for Evaluation of Ground Proximity Warning System Thresholds

Astatistical model ofterrainwasdevelopedtoestimatetheprobabilityofacontrolled eightintoterrainaccident followingaground proximitywarningsystem(GPWS)alert. The terrain model wasderived froman actual terrain database and used to create a Markov chain simulation. With this simulation the probability of terrain impact was computed as a function of terrain type and aircraft trajectory proele. Contours of collision probability were then generated and plotted against current alerting thresholds, illustrating how threshold placement maps into safety. Example results for the GPWS excessive descent rate alerting mode are provided. Following a warning and the subsequent pilot reaction delay and pull-up maneuver, the probability of collision with relatively e at terrain is less than 1 £ 10i 8 for high descent rates. In steep, rapidly changing terrain, the probability of collision following an alert increases to more than 0.01. A simple modie cation of alerting thresholds would not resolve this problem because of a resulting higher rate of nuisance alarms, as shown quantitatively by a performance tradeoff curve. Potential performance improvements through decreased response time or increased maneuvering load factor are also quantie ed.