착빙 및 착설에 의한 송전선의 갤로핑 발생 메커니즘의 규명을 위해 본 연구에서는 실제규모의 송전선 풍진동 모사를 가능 하게 하는 실험방법과 실험장치를 개발하였다. 개발된 실험장치는 8줄의 탄성와이어로 지지되는 송전선단면 모형으로 구성되며, 수직 , 수평 및 비틀림 방향으로 저주파수에서 큰 변위의 진폭으로 진동이 가능하다. 풍동실험을 통하여 본 실험방법의 유효성을 확인 하였고 실제 송전선의 갤로핑현상의 재현이 가능하다는 것을 알 수 있었다.

This study presents a flexible and highly stretchable textile circuit line for the signal and power transmission of smart clothing systems that provide wearing comfort and high mobility to where’s. A textile based circuit network on smart clothing requires 30% stretch ability so as not to constrain body movement. The advantages of a textile band type transmission line is the easy configuring of several separate transmission lines on a single band to construct a sensor module network. Conductive transmission line yarns have to be protected from deformation when textile transmission lines are stretched according to body movement. To ensure the elastic property of the smart clothing, textile transmission lines need to stretch more than 30% using the additional spandex yarns in warp. Four strands of conductive yarns were inserted in a single transmission line and each transmission line indicated 0.03Ω/cm in resistance. The resistance change rate of the textile transmission line during elongation was measured using a universal testing machine (Instron 5543) and Milliohmeter (Agilent 4338). The resistance of the transmission lines unchanged until breakage occurred at the 140% strain level. Resistance started to change at the 180% strain level where conductive yarns start to deform and break. In conclusion, the proposed textile transmission provides a comfortable wearing sensation that maintains a stable electrical performance during any type of body movement and is suitable for the wearable circuit of a highly stretchable smart wear system.

More recently, unsteady flow in small-diameter pipes plays a major role in liquid propellantrocket systems, hydraulic and pneumatic control system, and elsewhere. And it has shown that line dynamics can have a marked effect on the hydraulic system characteristics. In this paper, transfer function of hydraulic lines with an accumulator and an outlet orifice is' developed and compared with experimental data from frequency response tests at various airvolume(V.) and the location of accumulator(ld1t), so that their performance may be correctly and easily predicted and the design of the systems incorporating them improved. The obtained results are as follows: 1. The dynamic response of hydraulic lines may be analyzed more accurately by use of the viscous term(22) in unsteady laminar flow. 2. There was good agreement between the theoretical and experimental results of this investigation, and hydraulic systems with liines included an accumulator can be analyzed more accurately by use of the pressure transfer function given by eq. (16). 3. For the mitigation of surge in hydraulic lines, it is more effective that the location ofaccumulator is close to the pipe outlet side. 4. According to the gas volume of accumulator is increased(the sealing pressure is close tomean line pressure), the damping effect of pressure wave is improved.

We present a robust power transmission lines detection method based on vanishing point estimation. Vanishing point estimation can be helpful to detect power transmission lines because parallel lines converge on the vanishing point in a projected 2D image. However, it is not easy to estimate the vanishing point correctly in an image with complex background. Thus, we first propose a vanishing point estimation method on power transmission lines by using a probabilistic voting procedure based on intersection points of line segments. In images obtained by our system, power transmission lines are located in a fan-shaped area centered on this estimated vanishing point, and therefore we select the line segments that converge to the estimated vanishing point as candidate line segments for power transmission lines only in this fan-shaped area. Finally, we detect the power transmission lines from these candidate line segments. Experimental results show that the proposed method is robust to noise and efficient to detect power transmission lines.

경남 하동 지역 유학자의 세기별 분포는 15세기 1명, 16세기 2명, 17세기 7명, 18세기 2명, 19세기 16명, 20세기 초 1명이다. 가장 비율이 높은 시기가 19세기이며, 그 다음이 17세기이다. 경남 지역은 南冥 曺植의 학문을 계승한 南冥學派가 주도적 역할을 담당하였는데, 남명학파의 성쇠에 따라 하동 지역의 유학자도 비례하여 산출되고 있는 점을 확인할 수 있다.구역별 분포는 총 29명의 유학자 가운데 옥종면이 21명으로 가장 많으며, 그 다음으로 북천면이 6명, 금남면과 양보면이 각각 1명이다. 이 가운데 옥종면 안계리 출신의 유학자가 11명으로, 옥종면 유학자의 절반이 넘는 비율을 차지하며, 전체 하동군 유학자의 3분의 1에 해당한다. 이러한 통계를 근거해 볼 때, 하동 유학의 중심지는 옥종면이며, 그 중에서도 안계리가 핵심 지역이라고 규명해 볼 수 있다.학맥 형성 양상을 살펴본다면, 남명학파 11명, 寒洲系列 4명, 蘆沙系列 5명, 星湖系列 3명, 尤庵系列 1명, 華西系列 1명, 기타 6명이 된다. 그러므로 하동 지역의 학파별 분포는 남명학파 및 南人 계열이 대다수 를 차지하며, 그 다음으로 노사계열의 문인이 많은 비중을 가진다. 하동 지역의 남명학 전승과 관련해서는 안계마을 출신의 晉陽河氏 학자들이 家學을 통해 계승한 사실을 거론할 수 있다. 그리고 河達弘, 鄭瑀贇, 趙性家, 崔琡民, 姜柄周, 鄭敦均 등의 학자들이 서로 다른 학맥과 당파를 가지고 있었음에도 불구하고, 남명을 존숭하고 본받아 실천하려 한 점을 지적할 수 있다.