Entry trajectory shaping for Shuttle-deployed experiments
Abstract
The availability of the Space Transportation System has provided a unique opportunity for deployment of atmospheric entry experiments. These experiments require a trajectory design that provides a well-defined and controlled flight environment. Items addressed in this paper include control of thermal and aerodynamic loading consistent with the test objectives, maintenance of acceptable velocity-altitude conditions, and accommodation of tracking and recovery requirements. Various strategies, including constant-drag flight, equilibrium glide, and controlled linear velocity-altitude flight segments are employed to effect desired trajectory conditions. Algorithms to match thermal constraints to entry conditions and vehicle aerodynamic configuration are also discussed.
- Publication:
-
American Institute of Aeronautics and Astronautics
- Pub Date:
- August 1981
- Bibcode:
- 1981atfm.conf.....L
- Keywords:
-
- Atmospheric Entry;
- Payload Deployment & Retrieval System;
- Space Shuttle Payloads;
- Space Transportation System;
- Spacecraft Trajectories;
- Trajectory Optimization;
- Aerodynamic Drag;
- Aerodynamic Loads;
- Dynamic Tests;
- Flight Simulation;
- Flight Tests;
- Spacecraft Control;
- Astrodynamics