Add to ORKGThe Air Transportation Technology Program at Princeton proceeded along four avenues: Guidance and control strategies for penetration of microbursts and wind shear; Application of artificial intelligence in flight control systems; Computer aided control system design; and Effects of control saturation on closed loop stability and response of open loop unstable aircraft. Areas of investigation relate to guidance and control of commercial transports as well as general aviation aircraft. Interaction between the flight crew and automatic systems is a subject of prime concern
This paper describes a model-predictive automatic recovery system for aircraft on the verge of a los...
Engineering: 4th Place, Honorable Mention (The Ohio State University Denman Undergraduate Research F...
Delivering communications from high altitudes, at airspeeds of just 30 knots, gathering data from ac...
The Air Transportation Technology Program at Princeton University, a program emphasizing graduate an...
The Air Transportation Research Program at Princeton University proceeded along five avenues during ...
The Air Transportation Research Program at Princeton University proceeded along six avenues during t...
The Joint University Program on Air Transportation Technology was conducted at Princeton University ...
Brief summaries are given of research activities at the Massachusetts Institute of Technology (MIT) ...
Much remains to be learned about the hazards of low altitude wind shear to aviation. New research sh...
A study of intelligent guidance and control concepts for protecting against the adverse effects of w...
Numerous air carrier accidents and incidents result from encounters with the atmospheric wind shear ...
Low altitude wind shear poses a serious threat to air safety. Avoiding severe wind shear challenges ...
The effects of microburst characteristics on the optimal penetration performance of jet transport an...
Automatic flight control systems provide means for significantly enhancing survivability in severe w...
Two project areas were pursued: the intelligent cockpit and human problem solving. The first area in...
This paper describes a model-predictive automatic recovery system for aircraft on the verge of a los...
Engineering: 4th Place, Honorable Mention (The Ohio State University Denman Undergraduate Research F...
Delivering communications from high altitudes, at airspeeds of just 30 knots, gathering data from ac...
The Air Transportation Technology Program at Princeton University, a program emphasizing graduate an...
The Air Transportation Research Program at Princeton University proceeded along five avenues during ...
The Air Transportation Research Program at Princeton University proceeded along six avenues during t...
The Joint University Program on Air Transportation Technology was conducted at Princeton University ...
Brief summaries are given of research activities at the Massachusetts Institute of Technology (MIT) ...
Much remains to be learned about the hazards of low altitude wind shear to aviation. New research sh...
A study of intelligent guidance and control concepts for protecting against the adverse effects of w...
Numerous air carrier accidents and incidents result from encounters with the atmospheric wind shear ...
Low altitude wind shear poses a serious threat to air safety. Avoiding severe wind shear challenges ...
The effects of microburst characteristics on the optimal penetration performance of jet transport an...
Automatic flight control systems provide means for significantly enhancing survivability in severe w...
Two project areas were pursued: the intelligent cockpit and human problem solving. The first area in...
This paper describes a model-predictive automatic recovery system for aircraft on the verge of a los...
Engineering: 4th Place, Honorable Mention (The Ohio State University Denman Undergraduate Research F...
Delivering communications from high altitudes, at airspeeds of just 30 knots, gathering data from ac...