Large-Scale Virtual Simulation of the Solar System Based on Java3D

Xiao Liang Chen; Jian Xun Chen; Hao Liu

doi:10.4028/www.scientific.net/AMM.721.459

Paper Titles

Ultrasonic Transceiver-Based Structural Deformation Monitoring with Location Ability
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Lunar Soft - Landing Trajectory of Mechanics Optimization Based on the Improved Ant Colony Algorithm
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Chaos Research of Asymmetric System Based on Melnikov Method
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The Design and Experiment of Levelness-Adjustable Clamping Device for Cable Gland
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Large-Scale Virtual Simulation of the Solar System Based on Java3D
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The Effect of Different Optimization Methods on Robustness for Robust Optimization Design
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Modeling and Simulation Research of Lidar Tomography Imaging
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Researching on Characteristics of Rayleigh Waves
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Evaluation Framework and Method of the Intelligent Behaviors of Unmanned Ground Vehicles Based on AHP Scheme
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 721Large-Scale Virtual Simulation of the Solar System...

Large-Scale Virtual Simulation of the Solar System Based on Java3D

Abstract:

As the modeling of the solar system is difficult and inaccurate, the 3D modeling of the planets in the solar system is studied by using Java3D technology. To make the revolution of simulated planets meet Kepler's laws while traveling around the sun, an improved approximate algorithm to calculate the optimum angle and the vertex coordinates of each planet is proposed. Using java3D perspective projection technique, the observation coordinate system is determined, and real-time viewpoint setting as well as roaming processing is realized. Through multiple view technique, we can observe the movement of celestial bodies from multiple aspects to obtain vivid simulation effects of planets' behavior in the solar system. Simulation results show that the virtual simulation platform developed based on java3D can improve the accuracy and naturalness of solar system simulation.