Litcius/Paper detail

Models and Strategies for <i>J</i> <sub>2</sub> -Perturbed Orbital Pursuit–Evasion Games

Hongyu Han, Zhaohui Dang

2023Space Science & Technology21 citationsDOIOpen Access PDF

Abstract

This paper discusses the modeling and solving of orbital pursuit–evasion games (OPEGs) under J 2 perturbation. The optimal long-range maneuver method under J 2 perturbation is designed, and it is proved that the effect of eccentricity can be ignored when transfer times and the Δ V budgets are fixed. It is discovered that when the inclination between the initial and target orbit is equal and is between 10° and 25°, the whole maneuver process can be simplified to a fixed-inclination transfer. Subsequently, a long-term OPEG model is provided under the assumption of fixed inclination, zero eccentricity, and impulsive thrust. Winning conditions of OPEGs under J 2 perturbation are then carefully derived, with long-time OPEG ( J 2 dominated) and short-time OPEG (traditional) separated, and typical tactics of both sides formulated and verified. These studies are further extended to the “Arrival time matching game” for maintaining/avoiding resonant arrival time under J 2 perturbation, and the advantages and disadvantages of both sides are analyzed. The models and strategies obtained in this paper can be potentially used in practical applications of OPEGs, especially for evaders that have low thrust–weight ratios and are weak in traditional short-term OPEGs.

Topics & Concepts

Perturbation (astronomy)Pursuit-evasionOrbital maneuverEccentricity (behavior)ThrustTerm (time)Control theory (sociology)PhysicsMathematicsComputer scienceApplied mathematicsMathematical optimizationControl (management)ThermodynamicsAstronomyArtificial intelligencePolitical scienceSpacecraftQuantum mechanicsLawGuidance and Control SystemsSpacecraft Dynamics and ControlSpace Satellite Systems and Control