Modern Creative Technologies and Their Applications in VR Based Laparoscopic Surgery Simulation

Tuesday 25 July 2017

6.30pm for 7.00pm start

Room K1003, Kimmeridge House, University of Bournemouth, Talbot Campus, Fern Barrow, Poole, BH12 5BB | Directions

Free to both BCS and Non BCS Members

Organised by the BCS Animation and Games Development SG, and Bournemouth University 


With the development of computer graphic and haptic devices, training surgeons with virtual reality technology has proven to be very effective in surgery simulation. Due to the various unsolved technical issues, the laparoscopic surgery simulation has not been widely used. Such issues include modelling of complex anatomy structure, large soft tissue deformation, frequent surgical tools interactions, and the rendering of complex material under the illumination. A successful laparoscopic surgery simulator should integrate all these required components in a balanced and efficient manner to achieve both visual/haptic quality and a satisfactory refreshing rate. In this talk, we propose an efficient framework integrating a set of specially tailored and designed techniques, ranging from deformation simulation, collision detection, soft tissue dissection and rendering. This framework can be used as a low level engine for surgery simulation by integrating and optimizing modern creative technologies.


Laparoscopic SurgeryBowel cancer is the fourth most common cancer in the UK. Around 41,000 people were diagnosed with bowel cancer annually in the UK, that’s more than 110 people a day. Although it is estimated that 90% of the cases are suitable for a laparoscopic approach, there has been lack of surgeons trained to perform such demanding operations. This is particularly true for rectal cancer surgery which is the most complex and technically challenging for the laparoscopic colorectal surgeons. Because of the ethical and cost reasons, training capable surgeons for such complex operations has proven extremely difficult both in this country and around the world. Medical simulation is seen to be a viable training alternative and has proven beneficial in significantly reducing clinical errors, improving survival and relapse rates.

About the speakers:

Kun QianKun Qian is currently a PhD candidate of the National Center for Computer Animation (NCCA), Bournemouth University. His research mainly focus on physics based animation, deformation simulation, collision detection, haptic rendering and virtual surgery. Before joining NCCA, Kun has been working on computer graphics, game, vfx and virtual reality technologies for more than 10 years.

Xiaosong YangXiaosong Yang  is currently an Associate Professor  in the National Centre for Computer Animation, the Media School, Bournemouth University. His research interests include interactive graphics and animation, rendering and modeling, virtual reality, virtual surgery simulation, CAD. He received his bachelor (1993) and master degree (1996) in Computer Science from Zhejiang University (P. R. China), Ph.D.(2000) in Computing Mechanics from Dalian University of Technology (P. R. China), two years' PostDoc (2000-2002) in Tsinghua University on Scientific Visualization, one year (2001-2002) research assistant at the "Virtual Reality, Visualization and Imaging Research Centre" of Chinese University of Hong Kong. Since 2003, he came to NCCA, continue his work on Computer Animation