Identifies discontinuous TOF behavior in three-body Earth-Moon transfers and augments grid search with a diffusion model, reporting 47-56% better convergence and 39-40% time savings for different orbital altitudes.
Deep Neural Network-Based High-Precision Identification of Weak Stability Boundary Structures,
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
years
2026 2verdicts
UNVERDICTED 2representative citing papers
The paper defines reflective-sail weak stability boundary structures and uses them with a locally optimal energy-rate control law to construct Earth-escape trajectories in the Sun-Earth PCR3BP that show shorter flight times and higher hyperbolic excess velocity than ballistic escapes.
citing papers explorer
-
Three-Body Earth-Moon Transfers with Different Departure/Arrival Orbital Altitudes: New Phenomenon and Diffusion Model-Augmented Construction
Identifies discontinuous TOF behavior in three-body Earth-Moon transfers and augments grid search with a diffusion model, reporting 47-56% better convergence and 39-40% time savings for different orbital altitudes.
-
Reflective-Sail Weak Stability Boundary Structure with the Locally Optimal Control Law
The paper defines reflective-sail weak stability boundary structures and uses them with a locally optimal energy-rate control law to construct Earth-escape trajectories in the Sun-Earth PCR3BP that show shorter flight times and higher hyperbolic excess velocity than ballistic escapes.