http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
Simulation Model of Integrated OTEC and Desalination Plant and Its Application
Syo Nakamura,Satoru Goto,Takenao Sugi,Yusuke Ikegami,Masatoshi Nakamura 제어로봇시스템학회 2009 제어로봇시스템학회 국제학술대회 논문집 Vol.2009 No.8
Water and energy are indispensable for human life. Fossil fuels such as oil and coal are usually used for power generation. However, the environment impact of these thermal power generatio is releatively large. Moreover, the shortage of water caused by a population increaase and global warming also becoames serial problem. In dorder to solve these energy and water problems at the ame time, an integrated plant of ocean thermal energy conversion (OTEC) system and desalination system has been developed. In this research, a simulation model of the integrated OTEC and desalination plant was consturcted.
Laparoscopic and Robotic Liver Resection Using Advanced 3D Liver Simulation Software
( Atsushi Sugioka ),( Yutaro Kato ),( Yoshinao Tanahashi ),( Tadashi Kagawa ),( Masayuki Kojima ),( Sanae Nakajima ),( Syo-ichiro Tsuji ),( Ichiro Uyama ) 대한간학회 2016 춘·추계 학술대회 (KASL) Vol.2016 No.1
Background: Minimally invasive liver resection including laparoscopic and robotic liver resection is a rapidly developing field withthe greatest potential. However, the spatial disorientation is one of the biggest issues that would increase the risk of dangerousbleeding and bile leakage. To overcome this issue, it is of crucial importance to standardize anatomical liver resection with extrahepaticGlissonean pedicle-first approach and to use advanced 3D liver simulation software that can visualize the Glissoneansystem.Methods: We proposed a novel concept of liver anatomy based on Laennec’s capsule that can standardize the extrahepaticGlissonean pedicle approach. Whereas Synapse 3D® is the first simulation software to use face recognition technology for clinical3D simulation and visualization of the Glissonean system are available since version 4.4.Results: Owing to the novel concept of liver anatomy, anatomical liver resection with extrahepatic Glissonean pedicle-first approachwas standardized and target area was well recognized prior to parenchymal dissection with minimal bleeding and bileleakage from the resecting plane. Preoperative 3D simulation and intraoperative navigation contributed to perform systematicanatomical liver resection without spatial disorientation even for the cases with anatomical abnormalities such as right-sidedligamentum teres.Conclusion: Minimally invasive liver resection including laparoscopic and robotic resection became safe and curable procedureswith the novel concept of liver anatomy and advanced 3D liver simulation.