Zhong Yongmin, Shirinzadeh Bijan, Alici Gursel, Smith Julian
Robotics and Mechatronics Research Laboratory, Department of Mechanical Engineering, Monash University, P.O. Box 31, Clayton Campus, Clayton, VIC, 3800, Australia.
Med Biol Eng Comput. 2006 Sep;44(9):805-21. doi: 10.1007/s11517-006-0084-7. Epub 2006 Aug 4.
Modelling of soft tissue deformation is of great importance to virtual reality based surgery simulation. This paper presents a new methodology for simulation of soft tissue deformation by drawing an analogy between autowaves and soft tissue deformation. The potential energy stored in a soft tissue as a result of a deformation caused by an external force is propagated among mass points of the soft tissue by non-linear autowaves. The novelty of the methodology is that (i) autowave techniques are established to describe the potential energy distribution of a deformation for extrapolating internal forces, and (ii) non-linear materials are modelled with non-linear autowaves other than geometric non-linearity. Integration with a haptic device has been achieved to simulate soft tissue deformation with force feedback. The proposed methodology not only deals with large-range deformations, but also accommodates isotropic, anisotropic and inhomogeneous materials by simply changing diffusion coefficients.
软组织变形建模对于基于虚拟现实的手术模拟非常重要。本文通过类比自波和软组织变形,提出了一种模拟软组织变形的新方法。由于外力引起的变形而存储在软组织中的势能通过非线性自波在软组织的质量点之间传播。该方法的新颖之处在于:(i)建立了自波技术来描述变形的势能分布以推断内力,以及(ii)用非线性自波而非几何非线性对非线性材料进行建模。已实现与触觉设备集成以通过力反馈模拟软组织变形。所提出的方法不仅能处理大范围变形,还能通过简单改变扩散系数来适应各向同性、各向异性和非均匀材料。