Information of three-dimensional quasi-realistic asteroid shape and terrain modeling of 43 Ariadne and 2016 AO131

This dataset obtained 43 Ariadne and 2016 HO3 ground-based optical observation data, inverted and generated a convex surface model, and generated a three-dimensional terrain simulation model through Loop subdivision algorithm, fractal terrain generation algorithm, and feature landform addition algorithm. The model point surface information, modeling time, feature landform size, and quantity constraints were statistically analyzed, which can be used as a reference and comparison for asteroid morphology modeling. This dataset obtained 43 Ariadne and 2016 HO3 ground-based optical observation data, inverted and generated a convex surface model, and generated a three-dimensional terrain simulation model through Loop subdivision algorithm, fractal terrain generation algorithm, and feature landform addition algorithm. The model point surface information, modeling time, feature landform size, and quantity constraints were statistically analyzed, which can be used as a reference and comparison for asteroid morphology