International Journal

Seung-Ho Ham, Myung-Il Roh, Hye-Won Lee, "Collision Detection and Response of Multibody Systems Using a Position Difference Method and Non-Interpenetration Constraint in Shipbuilding Simulation", Ocean Engineering, Vol. 195, pp. 1-18, 2020.01.01

by SyDLab posted Nov 03, 2019
?

단축키

Prev이전 문서

Next다음 문서

ESC닫기

크게 작게 위로 아래로 댓글로 가기 인쇄
Extra Form
Abstract Collision detection and response between the block model in shipbuilding simulation are one of the most difficult issues in dynamic analysis. The existing collision programs are not appropriate to be applied in this domain because the model has unclosed meshes and very sharp edges. Therefore, this study proposed a position difference method to detect collision between unclosed meshes. This method calculates the intersection between the previous and current positions of the two meshes. Moreover, because the shape of the colliding body in the shipbuilding industry has too many meshes, it takes too much time to detect collision between two bodies. To increase performance, this study adopted a boundary volume hierarchy which is a kind of space-partitioning algorithm and exclusion boxes which exclude meshes inside boxes. For the collision response, this study derived a force-based method based on the non-interpenetration constraint to calculate the collision normal and tangential forces. This method can be applied to the multibody system and to consider material properties such as restitution coefficient and softness. As a result, it is successfully applied to the dynamic analysis of LPG tank erection by using a floating crane. The collision force between the tank and the hull structure is calculated due to the motion of the floating crane induced by environmental loads.
Publication Date 2020-01-01
Role Corresponding Author
Category SCI
Impact Factor 1.894

Seung-Ho Ham, Myung-Il Roh, Hye-Won Lee, "Collision Detection and Response of Multibody Systems Using a Position Difference Method and Non-Interpenetration Constraint in Shipbuilding Simulation", Ocean Engineering, Vol. 195, pp. 1-18, 2020.01.01


Articles

1 2 3 4 5 6