• The Journal of Korean Institute of Electromagnetic Engineering and Science
• /
• v.11 no.7
• /
• pp.1204-1210
• /
• 2000

An analysis method for obtaining transient response of electromagnetic pulse(EMP) coupled via a slot aperture into a parallel-plate waveguide, is considered. The mixed-potential integral equation(MPIE), in which the vector and scalar potential Green's functions for the unknown equivalent magnetic surface current of the aperture in parallel-plate region are expressed in closed forms derived by use of the improved complex image method, is formulated. When the method of moments(MoM) is used to solve the MPIE, the matrix-fill time is significantly reduced because of closed-form Green's functions. In order to check the validity of the present method, the numerical results obtained by the present method are compared with those obtained by the previous method. Fairly good agreements between them are observed.

• Proceedings of the Korea Water Resources Association Conference
• /
• 2006.05a
• /
• pp.1910-1913
• /
• 2006

To solve the interaction of incident monochromatic waves with a bottom-fixed vertical circular cylinder, a numerical analysis by boundary element method is developed using three-dimensional linear potential theory. A numerical analysis by boundary element method is based on Green's theorem and introduce to an integral equation for the fluid velocity potential around the vertical circular cylinder. These numerical results are compared with those of ManCamy and Fuchs(1954) and Williams and Mansour(2002), and it has shown good relationship with their results. This numerical analysis developed by boundary element method will be applied for various offshore structures to be constructed in coastal zones in the future.

• Journal of Ocean Engineering and Technology
• /
• v.32 no.3
• /
• pp.208-212
• /
• 2018

In this paper, we focus on planing avoidance control for a supercavitating underwater vehicle based on the potential function method. The planing margin can be calculated using the relative position between the cavity center and vehicle center at the end of the vehicle. The planing margin was transformed into a limit variable such as the pitch angle and yaw angle limit. To prevent the vehicle attitude from exceeding the limit variable, a potential function based planing envelope protection method was proposed. The planing envelope protection system overrides commands from the tracking controller, and the vehicle attitude converges to a desired angle, in which the potential function is minimized. Numerical simulations were performed to analyze the physical feasibility and performance of the proposed method. The results showed that the proposed methods eliminated the planing, allowing the vehicle to follow tracking commands.

• Transactions of the Korean Society of Mechanical Engineers
• /
• v.15 no.5
• /
• pp.1530-1537
• /
• 1991

본 연구에서는 반무한 직선 계면균열의 상하면에 임의로 분포하는 어떠한 하 중에 대해서도 그 해석이 가능한 그린함수(Green's function)를 구하고자 한다. 이 를 위하여 반무한 직선 계면균열상의 임의의 한 점에 평면 집중하중이 작용하는 문제 와 비평면 집중전단하중이 작용하는 문제를 각각 택하였고, 이때 계면균열의 선단은 열려있다고 가정하였다. 이 문제를 풀므로써 균열선단부근의 응력성분을 결정하고 이로부터 그린함수의 의미를 지니는 응력강도계수에 대한 폐형해를 얻었다.

• Journal of Forest and Environmental Science
• /
• v.22 no.1
• /
• pp.71-75
• /
• 2006

Water relations of Kalopanax pictus leaves obtained from the P-V curve. In the upper leaves of Kalopanax pictus seedlings, the original osmotic pressure at maximum turgor was -1.44 MPa, and the osmotic pressure at incipient plasmolysis point was -1.84 MPa, and the relative water content at incipient plasmolysis point was 78.2%.

• Proceedings of the Computational Structural Engineering Institute Conference
• /
• 2011.04a
• /
• pp.209-212
• /
• 2011

본 논문에서는 평판(plate) 형태를 갖는 부유식 해상구조물의 유탄성해석에 관한 연구를 수행하였다. 유체력 산정을 위해 포텐셜을 입사, 방사, 산란으로 구분하여 계산하였던 기존의 방법 대신 전체 포텐셜을 직접 계산하는 방법을 사용하여 최근의 경향을 반영하였다. 선형 유탄성해석의 특성을 고려하여 해석시간을 감소시키기 위해 일반적으로 사용되고 있는 주파수 영역에서의 해석 기법을 적용하였다. 구조체의 모델링에 소요되는 요소수를 줄이고, 휨 변형 시 전단변형률에 의한 잠김현상을 해소하기 위해 MITC 기법을 적용한 평판 유한요소를 사용하였으며, 3차원 Green 함수법을 적용해 유체력을 산정하였다.

• Journal of Internet Computing and Services
• /
• v.21 no.2
• /
• pp.49-55
• /
• 2020

Information theoretic learning (ITL) methods based on random symbols (RS) use a set of random symbols generated according to a target distribution and are designed nonparametrically to minimize the cost function of the Euclidian distance between the target distribution and the input distribution. One drawback of the learning method is that it can not utilize the input power statistics by employing a constant stepsize for updating the algorithm. In this paper, it is revealed that firstly, information potential input (IPI) plays a role of input in the cost function-derivative related with information potential output (IPO) and secondly, input itself does in the derivative related with information potential error (IPE). Based on these observations, it is proposed to normalize the step-size with the statistically varying power of the two different inputs, IPI and input itself. The proposed algorithm in an communication environment of impulsive noise and multipath fading shows that the performance of mean squared error (MSE) is lower by 4dB, and convergence speed is 2 times faster than the conventional methods without step-size normalization.

• Proceedings of the Korean Vacuum Society Conference
• /
• 2010.02a
• /
• pp.89-90
• /
• 2010

최근 우리는 InGaAs 위에 성장한 InAs 양자점에 GaAs를 얇게 덮음으로써 양자고리를 성장하고, 그 광학적 특성을 분석하였다. [1] 이번 연구에서는 이 양자고리 구조의 전자 구조 및 광학적 특성을 전산모사를 통해 계산하였고, GaAs가 구조의 응력, 압전 포텐셜 및 light-hole 분율에 미치는 영향을 분석하였다. 이론적인 분석을 위해, valence force field 방법을 이용하여 이종 물질간의 격자상수 차이에 의한 격자 변형 및 압전 포텐셜의 변화를 계산하였고, 양자고리 내 전자의 양자화 에너지 및 파동함수를 k p 방법을 통해 얻을 수 있었다. 또한 광학적인 특성 등의 다체 효과를 예측하기 위해 configuration interaction 방법을 사용하였다. 이 연구에서 우리는, GaAs가 InAs에 강한 압축 응력을 가할 것이라는 일반적인 예측과 달리, InGaAs 매트릭스 안에서는 격자상수가 작은 GaAs가 InAs 양자고리에 효과적인 압축 응력을 가할 수 없음을 보였다. 특히 GaAs 층의 두께가 얇을 경우, InGaAs 매트릭스에 의해 인장 응력을 받는 GaAs가 InAs의 응력을 해소하기 충분한 공간을 제공하여, 오히려 InAs의 압축 응력을 약화시키는 것을 알 수 있었다. 이 연구 결과는 응력 분포가 단순한 양자우물 등의 2차원 구조와 달리, 응력 분포가 복잡한 3차원 나노 구조에서는 단순히 격자상수만으로 파장 변화 경향을 예측할 수 없음을 나타낸다. 또한 우리는, GaAs의 큰 negative 이방 응력과 InAs의 작은 positive 이방 응력에 의해 전자와 heavy-hole은 InAs에, light-hole은 GaAs에 구속됨을 보였다. 즉, InAs보다 밴드갭이 큰 GaAs가 전자와 heavy-hole에 대해서는 강한 포텐셜 배리어로 작용하지만 light-hole에 대해서는 포텐셜 우물로 작용하는, 반 우물-반 배리어 특성을 가짐을 알 수 있었다. 이로 인해 GaAs가 있는 양자고리의 light-hole 분율이 GaAs가 없을 경우에 비해 2배에서 8배가량 증가함을 보일 수 있었다. 비슷한 특성이 hole에 대해서는 InP나 InGaAsP 위에 성장한 GaAs 층에서 보고된 바가 있으나, 전자는 InAs로, hole은 GaAs로 분리할 수 있는 3차원 나노 구조에 대한 연구는 이 연구가 처음이다. [2]

• Journal of the Korea Institute of Information and Communication Engineering
• /
• v.15 no.6
• /
• pp.1338-1342
• /
• 2011

In this paper, threshold voltage characteristics have been analyzed as one of short channel effects occurred in double gate(DG)MOSFET to be next-generation devices. The Gaussian function to be nearly experimental distribution has been used as carrier distribution to solve Poisson's equation, and threshold voltage has been investigated according to projected range and standard projected deviation, variables of Gaussian function. The analytical potential distribution model has been derived from Poisson's equation, and threshold voltage has been obtained from this model. Since threshold voltage has been defined as gate voltage when surface potential is twice of Fermi potential, threshold voltage has been derived from analytical model of surface potential. Those results of this potential model are compared with those of numerical simulation to verify this model. As a result, since potential model presented in this paper is good agreement with numerical model, the threshold voltage characteristics have been considered according to the doping profile of DGMOSFET.

• Journal of Korean Society of Coastal and Ocean Engineers
• /
• v.15 no.3
• /
• pp.159-166
• /
• 2003

In this study, we develop a finite element model to directly solve the Laplace equation while keeping the same computational efficiency as the models based on the extended mild-slope equation which has been widely used for calculation of wave transformation in shallow water. For this, the computational domain is discretized into finite elements with a single layer in the vertical direction. The velocity potential in the element is then expressed in terms of the potentials at the nodes located at water surface, and the Galerkin method is used to construct the numerical model. A common shape function is adopted in horizontal direction, and the cosine hyperbolic function in vertical direction, which describes the vertical behavior of progressive waves. The model was developed for vertical two-dimensional problems. In order to verify the developed model, it is applied to vertical two-dimensional problems of wave reflection and transmission. It is shown that the present finite element model is comparable to the models based on extended mild-slope equations in both computational efficiency and accuracy.