AN IN-FLIGHT SIMULATION OF HANDLING QUALITIES OF THE SV-5P (PILOT) LIFTING BODY WITH VARIOUS FEEDBACK GAINS AND RUDDER TO AILERON INTERCONNECT RATIOS

Abstract

The results of an in-flight simulation program to investigate longitudinal and lateral-directional handling qualities of the Martin SV-5P (Pilot) lifting body are presented and discussed. The in-flight simulation was a point stability simulation at five flight conditions: (1) Re-entry Glide, (2) Boost A, (3) Burnout, (4) Boost B, and (5) Landing Approach. The in-flight simulation was primarily a lateral-directional investigation, the longitudinal characteristics simulated at each flight condition remained fixed. Nine lateral-directional configurations were investigated for each flight condition for a total of 45 different configurations. The nine lateral-directional configurations at each flight condition were obtained by varying the SV-5P rudder to aileron interconnect ratio and the yaw and roll damping feedback gains. The USAF/CAL variable stability T-33 airplane was used as an in-flight simulator. A CAL and a Martin pilot each evaluated 50 configurations. A NASA and a USAF pilot each evaluated 6 configurations. All the configurations were evaluated in straight and level flight. In addition, the landing approach configurations were evaluated during descent at a simulated maximum L/D of the SV-5P. The handling qualities simulated were evaluated by the pilots based on the mission requirements and tasks at each flight condition of the SV-5P. Pilot comments were recorded on each configuration, and the pilots rated the configurations using a new pilot rating scale. The pilot comments and ratings were analyzed and interpreted in the light of the simulated characteristics and their handling qualities.

Document Details

Document Type

Technical Report

Publication Date

Dec 01, 1967

Accession Number

AD0386573

Entities

Tags