This report defines the initial requirements for designing a research high-speed rollout and turnoff (ROTO) guidance and control system applicable to transport class aircraft whose purpose is to reduce the average runway occupancy time (ROT) for aircraft operations. The requirements will be used to develop a ROTO system for both automatic and manual piloted operation under normal and reduced visibility conditions. Requirements were determined for nose wheel/rudder steering, braking/reverse thrust, and the navigation system with the aid of a non-real time, three degree-of-freedom MD-11 simulation program incorporating airframe and gear dynamics. The requirements were developed for speeds up to 70 knots using 30 ft exit geometries under dry a...
A piloted simulation study was conducted with the aim of advancing the development of longitudinal h...
Propulsion systems proposed for the next generation of long-range transport aircraft will utilize ad...
This research addresses the problem of the definition and calculation of the landing point-of-no-ret...
A study developed for the TCV B-737, designed to apply existing navigation aids plus magnetic leader...
An in-flight evaluation of transport roll characteristics in the landing approach was made with a ge...
Two NASA goals are to enhance airport safety and to improve capacity in all weather conditions. This...
This report examines a rollout and turnoff (ROTO) system for reducing the runway occupancy time for ...
Some loading conditions imposed during ground turning maneuvers are presented for arrival and depart...
Research was conducted to increase airport capacity by studying the feasibility of the longitudinal ...
Operational procedures for use in an assumed short haul transport route were evaluated. The curved p...
The take-off distances over a 35-foot obstacle have been determined for a supersonic transport confi...
An in-flight evaluation of transport roll characteristics in the landing approach was made with a ge...
Aircraft stopping and directional control performance on wet runways is discussed. The major element...
A concept for automating the control of air traffic in the terminal area in which the primary man-ma...
Flight investigation of roll requirements for transport airplanes in cruising fligh
A piloted simulation study was conducted with the aim of advancing the development of longitudinal h...
Propulsion systems proposed for the next generation of long-range transport aircraft will utilize ad...
This research addresses the problem of the definition and calculation of the landing point-of-no-ret...
A study developed for the TCV B-737, designed to apply existing navigation aids plus magnetic leader...
An in-flight evaluation of transport roll characteristics in the landing approach was made with a ge...
Two NASA goals are to enhance airport safety and to improve capacity in all weather conditions. This...
This report examines a rollout and turnoff (ROTO) system for reducing the runway occupancy time for ...
Some loading conditions imposed during ground turning maneuvers are presented for arrival and depart...
Research was conducted to increase airport capacity by studying the feasibility of the longitudinal ...
Operational procedures for use in an assumed short haul transport route were evaluated. The curved p...
The take-off distances over a 35-foot obstacle have been determined for a supersonic transport confi...
An in-flight evaluation of transport roll characteristics in the landing approach was made with a ge...
Aircraft stopping and directional control performance on wet runways is discussed. The major element...
A concept for automating the control of air traffic in the terminal area in which the primary man-ma...
Flight investigation of roll requirements for transport airplanes in cruising fligh
A piloted simulation study was conducted with the aim of advancing the development of longitudinal h...
Propulsion systems proposed for the next generation of long-range transport aircraft will utilize ad...
This research addresses the problem of the definition and calculation of the landing point-of-no-ret...