Add to ORKGA FORTRAN computer program was developed which automatically targets two and three burn rendezvous missions and performs feedback guidance using the GUIDE algorithm. The program was designed to accept a large class of orbit specifications and to automatically choose a two or three burn mission depending upon the time alignment of the vehicle and target. The orbits may be specified as any combination of circular and elliptical orbits and may be coplanar or inclined, but must be aligned coaxially with their perigees in the same direction. The program accomplishes the required targeting by repeatedly converging successively more complex missions. It solves the coplanar impulsive version of the mission, then the finite burn coplanar mission, an...
Program computes turns required to point given spacecraft-fixed vector in direction of given inertia...
Digital computer program SWITCH for trajectory optimization of multiple-burn vacuum rocket flight
Mathematical formulation of guidance equations and solutions for orbital space mission
Minimum fuel rendezvous guidance of powered interceptor from parking orbit to target in coplanar cir...
A brief outline of a targeting program for use in the space shuttle mission is presented. This gener...
The development of the guidance targeting techniques for the Apollo command module and launch vehicl...
This report describes current work in the numerical computation of multiple burn, fuel-optimal orbit...
Flight scheduling in planar two burn minimum fuel rendezvous of interceptor with target vehicle
Progress reports on guidance and attitude control mechanisms of different flight vehicles are presen...
Computer programs provide preliminary trajectory and guidance information required for feasibility s...
Program determines if rendezvous in near space is possible, and performs an analysis to determine th...
textThe development of a self-contained, onboard, fully autonomous trajectory guidance tool for spac...
Midcourse guidance analysis and optimization with discrete measurements for mission logic developmen
The main body of this paper describes the evolution of the Centaur D-1A Guidance and Software System...
The concept of a decision aid to assist the piloting of a powered vehicle during a near-field (less ...
Program computes turns required to point given spacecraft-fixed vector in direction of given inertia...
Digital computer program SWITCH for trajectory optimization of multiple-burn vacuum rocket flight
Mathematical formulation of guidance equations and solutions for orbital space mission
Minimum fuel rendezvous guidance of powered interceptor from parking orbit to target in coplanar cir...
A brief outline of a targeting program for use in the space shuttle mission is presented. This gener...
The development of the guidance targeting techniques for the Apollo command module and launch vehicl...
This report describes current work in the numerical computation of multiple burn, fuel-optimal orbit...
Flight scheduling in planar two burn minimum fuel rendezvous of interceptor with target vehicle
Progress reports on guidance and attitude control mechanisms of different flight vehicles are presen...
Computer programs provide preliminary trajectory and guidance information required for feasibility s...
Program determines if rendezvous in near space is possible, and performs an analysis to determine th...
textThe development of a self-contained, onboard, fully autonomous trajectory guidance tool for spac...
Midcourse guidance analysis and optimization with discrete measurements for mission logic developmen
The main body of this paper describes the evolution of the Centaur D-1A Guidance and Software System...
The concept of a decision aid to assist the piloting of a powered vehicle during a near-field (less ...
Program computes turns required to point given spacecraft-fixed vector in direction of given inertia...
Digital computer program SWITCH for trajectory optimization of multiple-burn vacuum rocket flight
Mathematical formulation of guidance equations and solutions for orbital space mission