Moon Kyu Lee scite author profile

Although real-time monitoring of bladder volume together with intravesical pressure can provide more information for understanding the functional changes of the urinary bladder, it still entails difficulties in the accurate prediction of real-time bladder volume in urodynamic studies with small animal models. We studied a new implantable bladder volume monitoring device with eight rats. During cystometry, microelectrodes prepared by the microelectromechanical systems process were placed symmetrically on both lateral walls of the bladder, and the expanded bladder volume was calculated. Immunohistological study was done after 1 week and after 4 weeks to evaluate the biocompatibility of the microelectrode. From the point that infused saline volume into the bladder was higher than 0.6 mL, estimated bladder volume was statistically correlated with the volume of saline injected (p<0.01). Additionally, the microelectromechanical system microelectrodes used in this study showed reliable biocompatibility. Therefore, the device can be used to evaluate changes in bladder volume in studies with small animals, and it may help to provide more information about functional changes in the bladder in laboratory studies. Furthermore, owing to its biocompatibility, the device could be chronically implanted in conscious ambulating animals, thus allowing a novel longitudinal study to be performed for a specific purpose.

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Robust optimum design of a bearingless rotation motor using the Kriging model

Seo

Lee

Kim

et al. 2011

Int. J. Precis. Eng. Manuf.

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Recently, bearingless rotation motors have become widely popular in office automation (OA) and factory automation (FA) systems due to their simple structure, high speed of operation, and high precision in positioning. In this study, a bearingless rotation motor was designed to have a large torque and levitation force because these are generally considered as indicators of motor performance. The torque and levitation force of the bearingless rotation motor can be calculated by a commercial finite element method (FEM) program, ANSYS. To robustly design the bearingless rotation motor, first, the effective design parameters were selected; we set a table of orthogonal arrays, including the design variables and parameters. The Kriging model was applied to formulate the cost function of the regression model, which can be used to evaluate the motor performance. By minimizing the cost function, it was possible to quickly realize a robust optimum design of a bearingless rotation motor. As a result, the performance of the motor was improved with regard to the torque and levitation force.

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A study on the fluid mechanical urinary bladder simulator and reproduction of human urodynamics

Kim

Lee

Choi

2011

Int. J. Precis. Eng. Manuf.

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Many aging people and patients have difficulties in bladder control. Its symptoms are largely urinary frequency and urinary incontinence, which can cause life-threatening illnesses. A therapeutic research for bladder nerves and surgical treatment has been studied. However, such treatments are likely to cause complications and need more reliability and safety. An urodynamic study, which is designed to monitor the relationship between flow, pressure, and volume by inserting a condom catheter into the urethra, is most commonly used for the measurement of bladder operation. Unfortunately, this method may cause inconvenience and side effects. Thus, a urinary tract-bladder-resembling experimental device was manufactured and used for the study based on experimental data. Similar research to human urinary tract-bladder dynamics is lacking. Therefore, this study intended to design mechanical urinary-bladder simulator, which resembled the urinary tract system including the bladder, ureter, and urethra. The fluid mechanical urinary tract-bladder simulator was manufactured by using a pump, hose, flow-meter, pressure sensor, rubber membrane, syringe and control software. In addition, the unique pressure-volume relationship in the bladder and urination affected by abdominal pressure could be comprehended with the use of the manufactured simulator. In this simulator, bladder pressure change and urination control were reproduced by the pump and valve by letting water flow in, while non-linear increase and reduction of pressure was reproduced by application of abdominal pressure on the elastic rubber membrane and plastic hemispherical capsule-connected syringe. The abdominal pressure added in the system can expect to reproduce other types of urinary symptoms. As a result, the fluid mechanical simulator made it possible to reproduce human urinary tract bladder urodynamics movement. This simulator will be effectively used for reliability and stability of the research for the improvement of bladder management that is currently lacking reliability and stability. It can also be utilized for the future application. The fluid mechanical simulator can be useful method to avoid other difficulties which are unpredictable conditions of the human body or seeking the approval of the IRB(Institutional review board) for bioethics. Additionally, an invasive bladder monitoring system that utilizes the simulator has been developing that will benefit patients.

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The Study of Femoral 3D Reconstruction Process Based on Anatomical Parameters Using a Numerical Method

Lee

Kim

et al. 2008

JBSE

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Prediction of thermal deformation considering the residual stresses for the PMMA-TSP laminated structure

et al. 2011

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The use of polymethylmethacrylate (PMMA) plates is limited by some of their typical features, particularly the tendency to be deformed when conjugated with other materials, while remaining stable if it becomes homogeneous. This paper describes PMMA deformation caused by injection molding at high temperature. The relocation of the injection gate in order to minimize the deformation is also studied. Results rule out residual stresses as the main cause of the deformation, which are predicted by inverse engineering as described in the paper. Further study of residual stresses among different injection gates is made, and deformations of the PMMA-touch screen panel (TSP) laminated plate based on the locations of the injection gates are measured. In conclusion, one of the ways by which to reduce deformation at high temperature is to locate the injection gate at a symmetrical position of the plate.

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A study on the mechanical properties and deformation behavior of injection molded PMMA-TSP laminated composite

Wang

Lee

Park

et al. 2012

Korea-Aust. Rheol. J.

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Robust design of roll-formed slide rail using response surface method

Lee

Kim

2010

J Mech Sci Technol

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Roll-formed slide rail used as a linear guide in the smooth movement of drawers and electric home appliances requires geometric accuracy because of a high slenderness ratio and repetitive usage. The slide rail members are generally manufactured by the roll forming process. The members need to be improved through optimization of the roll forming process instead of the designer's experience. The aim of this study is to determine the optimal roll forming parameters by using robust optimization technique which simultaneously satisfies three criteria such as the shape difference factor, bowing factor and modified inverse safety factor. In analyzing the roll forming process of a slide rail, the pass in which the largest deformation occurred is designated as the target pass. The positions and the curvature of rolls are set as the design variables in the target pass. The cost function, which is comprised of the shape difference factor, the bowing factor, and the modified inverse safety factor, is obtained using design-of-experiments of the response surface method. The cost function is minimized by using robust optimization techniques and showed the improved the straightness and the durability value. Using robust design methodology, it is able to be constructed a multi-objective function, and optimized three criteria, simultaneously.

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Moon Kyu Lee

Buckling sensitivity of a connecting rod to the shank sectional area reduction

Real‐time bladder volume monitoring by the application of a new implantable bladder volume sensor for a small animal model

Robust optimum design of a bearingless rotation motor using the Kriging model

A study on the fluid mechanical urinary bladder simulator and reproduction of human urodynamics

The Study of Femoral 3D Reconstruction Process Based on Anatomical Parameters Using a Numerical Method

Prediction of thermal deformation considering the residual stresses for the PMMA-TSP laminated structure

A study on the mechanical properties and deformation behavior of injection molded PMMA-TSP laminated composite

Robust design of roll-formed slide rail using response surface method

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