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오창근,제해광,박석주 韓國海洋大學校 附設 海洋科學技術硏究所 2002 硏究論文集 Vol.11 No.1
진동해석과 기술에 있어서 실험과 해석분야 모두 다 같이 발전한 것은 사실이지만, 실험해석법은 유한요소법과 같은 이론해석법만큼 발달한 것이라 할 수 없을 것이다. 그 이유 중에 하나로 비선형 방정식을 푸는데 있어 초기치의 선택에 따라 계산시간이 길어지고 해가 종종 발산하기도 하기 때문이다. 일반적으로 실험모드해석에 있어 방정식은 고유진동수와 감쇠비의 비선형 항과 등가강성이 선형 항으로 구성된다. 본 연구에서는 비선형 항을 먼저 구하고, 다음에 선형 항을 구하였다. 개발된 실험모드해석법(곡선맞춤법)을 선체상부구조 모델에 적용하여, 모드 특성치들을 계산하였다. 또한 개발된 프로그램은 그래픽기법을 적용하여 간단한 마우스 조작으로 채용 모드수와 감쇠비를 결정할 수 있도록 하였다. It might be true that both experimental and analytic techniques have been developed in the vibration analysis and engineering. It could not be said, however, that the experimental method has been also developed as much as analytic method, such as Finite Element Method. One of the reasons is that computation time becomes longer and that the solution often diverges depending on the choice of initial value in solving nonlinear equation, The equation in experimental modal analysis is usually composed of the nonlinear term of natural frequency and modal damping ratio, and the linear one of equivalent stiffness. In this study, the nonlinear terms were solved first, and then the linear term was obtained. The experimental modal parameters were estimated, applying the developed experimental modal analysis (curve-fitting method) to the super-structure model. In addition, the number of modes and modal damping ratio could be easily determined by the developed program with the application of graphical techniques and with easy handling mouse button.
박석주,오창근,제해광 韓國海洋大學校 附設 海洋科學技術硏究所 2001 硏究論文集 Vol.10 No.2
Up to now, vibration analysis and vibration engineering have been developed, encompassing the aspects of both experimental and analytical techniques. Using experimental modal analysis or modal testing, the mode shapes and frequencies of practical structure can be measured accurately. Curve-Fitting Method is realized through experimental modal identification. In the experimental modal parameter estimation, the estimation of modal damping factor is difficult for complicated and large structure. Also numbers of Selected mode are determined before the procedure. This paper describes the vibration shape of the super-structure model of ship through experimental modal analysis.
오창근(Chang-Geun Oh),제해광(Hae-Kwang Je),박석주(Sok-Chu Park) 한국항해항만학회 2002 한국항해항만학회지 Vol.26 No.3
진동해석과 기술에 있어서 실험과 해석분야 모두 다 같이 발전한 것은 사실이지만, 실험해석법은 유한요소법과 같은 이론해석법만큼 발달한 것이라 할 수 없을 것이다. 그 이유 중에 하나로 비선형 방정식을 푸는데 있어 초기치의 선택에 따라 계산시간이 길어지고 해가 종종 발산하기도 하기 때문이다. 일반적으로 실험모드해석에 있어 방정식은 고유진동수와 감쇠비의 비선형 항과 등가강성의 선형 항으로 구성된다. 본 연구에서는 비선형 항을 먼저 구하고, 다음에 선형 항을 구하였다. 개발된 실험모드해석법(곡선맞춤법)을 선체상부구조 모델에 적용하여, 모드 특성치들을 계산하였다. 또한 개발된 프로그램은 그래픽기법을 적용하여 간단한 마우스 조작으로 채용 모드수와 감쇠비를 결정할 수 있도록 하였다. It might be true that both experimental and analytic techniques have been developed in the vibration analysis and engineering. It could not be said, however, that the experimental method has been also developed as much as analytic method, such as Finite Element Method. One of the reasons is that computation time becomes longer and that the solution often diverges depending on the choice of initial value in solving nonlinear equation. The equation in experimental modal analysis is usually composed of the nonlinear term of natural frequency and modal damping ratio, and the linear one of equivalent stiffness. In this study, the nonlinear terms were solved first, and then the linear term was obtained. The experimental modal parameters were estimated, applying the developed experimental modal analysis (curve-fitting method) to the super-structure model. In addition, the number of modes and modal damping ratio could be easily determined by the developed program with the application of graphical techniques and with easy handling mouse button.
Inhibition of LPS-induced iNOS and Tyrosinase Protein from Traditional Plant
Dong Hee Kim,Han Hyuk Kim,Sok Jun Hyun,Gun Hye Park,Kang Soo Park,Tae Soon Park,Jin Young Lee,Jung Mi Park,Hyun Oh Shin,In Chul Lee,Young Je Cho,Bong Jeun An 한국응용생명화학회 2008 Applied Biological Chemistry (Appl Biol Chem) Vol.51 No.5
김종석,오득영,서제원,이중호,이종원,안상태,Kim, Jong-Sok,Oh, Deuk-Young,Seo, Je-Won,Lee, Jung-Ho,Rhie, Jong-Won,Ahn, Sang-Tae 대한성형외과학회 2010 Archives of Plastic Surgery Vol.37 No.1
Purpose: Nowadays spinal cord stimulator is frequently used for the patients diagnosed as complex regional pain syndrome. The lead is placed above the spinal cord and connected to the stimulation generator, which is mostly placed in the subcutaneous layer of the abdomen. When the complication occurs in the generator inserted site, such as infection or generator exposure, replacement of the new generator to another site or pocket of the abdomen would be the classical choice. The objective of our study is to present our experience of the effective replacement of the existing stimulation generator from subcutaneous layer to another layer in same site after the wound infection at inexpensive cost and avoidance of new scar formation. Methods: A 50-year-old man who was diagnosed as complex regional pain syndrome after traffic accident received spinal cord stimulator, Synergy$^{(R)}$ (Medtronic, Minneapolis, USA) insertion 1 month ago by anesthetist. The patient was referred to our department for wound infection management. The patient was presented with erythema, swelling, thick discharge and wound disruption in the left upper quadrant of the abdomen. After surgical debridement of the capsule, the existing generator replacement beneath the anterior layer of rectus sheath was performed after sterilization by alcohol. Results: Patient's postoperative course was uneventful without any complication and had no evidence of infection for 3 months follow-up period. Conclusion: Replacement of existing spinal cord stimulation generator after sterilization between the anterior layer of rectus sheath and rectus abdominis muscle in the abdomen will be an alternative treatment in wound infection of stimulator generator.
과다 체중 감량 환자에서의 허리띠 피부지방절제술의 치험례
김종석,서제원,오득영,이중호,안상태,이종원,Kim, Jong-Sok,Seo, Je-Won,Oh, Deuk-Young,Lee, Jung-Ho,Ahn, Sang-Tae,Rhie, Jong-Won 대한성형외과학회 2010 Archives of Plastic Surgery Vol.37 No.5
Purpose: Obese proportion is increasing universally, estimating more than a billion. So reducing the weight became one of the topic in medical market. Not only diet, exercise, medication, but also many surgical procedures are being developed, such as sleeve gastrectomy, gastric bypass surgery. After massive weight loss, skin excess and laxity occurs, leading to unsatisfying body contour. Body contouring surgery including abdominoplasty, breast reduction is performed when skin excess is present in abdomen and breast. When skin excess is present circumferentially, belt dermolipectomy is the treatment of choice. Methods: A 23-year-old man had weight gain since he was 12 of age. A year before visiting to our department, his height was 168 cm, weight was 150 kg and body mass index (BMI) was 53.15 kg/$m^2$. The patient lost 55 kg of his weight through exercise and diet control. When he visited again, his weight was 95 kg and BMI was 33.66 kg/$m^2$. In physical examination, skin excess and laxity was seen in both breast and abdomen circumferentially and lateral folds were seen in the back. Abdominal contour deformity (Pitman classification type 6) and pseudogynecomastia (grade 3) were present in both breast. Belt dermolipectomy of abdomen, both breast and lateral folds was performed, resecting 6,400 g of tissue and additive 1,200 g through revisional operation. Results: The patient lost 6,500g of his weight and BMI reduced by 2.3 kg/$m^2$. The patient's hospital course was uneventful during 5 weeks of hospitalization and he was satisfied with his final body contour. Conclusion: Body contouring with belt dermolipectomy in patient who has circumferential skin excess and laxity after massive weight loss can be a treatment of choice.