In this study, we have developed a movable defect detection system based on a vision module with machine-learning algorithm for distinguishing product quality. Machine-learning model determined the results in good or no good through images acquired from the vision module consisting of a camera, processor unit, and lighting. To ensure versatility for use in a variety of settings, we have integrated a robot arm and cart for the movable defect detection system, and the robot arm that adjusts the focus length is made to be able to rotate in all directions. The type of defect was divided into eccentricity defect and printing defect. As a result, it was confirmed that classification accuracy showed 0.9901 in our developed device.
n Korea, the decommissioning of nuclear power plants is being prepared, and a large amount of radioactive waste is expected to be generated. In particular, clearance level waste, which accounts for more than 90%, requires prevention of cross-contamination and prompt classification. In this study, the possible exposure route and the derivation of exposure dose for worker exposure management in a movable analysis system that can be analyzed onsite were studied. The movable radionuclide analysis system is divided into a preparatory room, a sample storage room, a radioanalysis room, a laboratory, and a waste storage room. It consists of one radioanalysis worker and one pre-treatment worker, and the main radiation exposure is expected to occur in the movement path in the sample storage room, radioanalysis room, and laboratory. The source term for the exposure evaluation, the annual usage dose presented in the radiation safety report in the movable radionuclide analysis system was used. The input data for the evaluation of the external exposure dose under normal circumstances (exposure situation, working hours, distance, etc.) is referenced at facility specifications. The internal exposure dose evaluation was assumed to be acute exposure (1 hour) assumed as internal pollution due to the drop in liquid sample during the pretreatment work. As an evaluation method, a method using a calculation formula and a method using an evaluation code was performed. For the evaluation of exposure dose using the calculation formula, a preliminary evaluation was performed using the point source method, the point kernel method, and intake and dose conversion factors. In addition, VISIPLAN and IMBA codes were used to evaluate exposure dose using the evaluation code, and the input data were supplemented for evaluation. As a result of the evaluation, the annual exposure dose limit of 20 mSv was satisfied for both normal and non-normal situations. In future research, it is planned to derive the evaluation results by particular scenarios for the detailed movement route and evaluation time according to the work process in the mobile radionuclide analysis.
As the plan for the nuclear dismantlement due to the permanent shutdown of Kori-1 and Wolseong- 1 nuclear power plants has been concretized, a “movable radionuclide analysis system” is being developed that can quickly and accurately analyze large amounts of radioactive waste generated on the sites during dismantling. This system has various advantages from the perspective of strict regulations on the radioactive waste movement and social acceptability, such as preventing unexpected accidents while moving on the national highway or expressway, reducing various documents and immediate response to dismantling plans. Currently the system is being developed to be equipped with previously developed sample pretreatment and radioactivity measuring equipment and automated volatile and nonvolatile nuclide separation equipments, but to ensure mobile stability, it needs to analyze factors and establish stability standards. In the KS Q ISO/IEC 17025:2017 standard, the requirements for “facilities and environmental conditions” are a very important factor in building reliability for consumers as part of the quality guarantee for this facility. In order to meet the requirements, the technical standards of various test equipment to be installed in this facility were investigated. The physical, chemical, and radiological hazards that could affect the safety of the equipment and workers in the process of moving the equipment between nuclear power plants or between nuclear dismantling sites were derived from vibrations, rapid changes in temperature and humidity, and the spread of contamination from radioactive waste samples. Therefore, the scope of application of the law, which is the basis for securing stability during movement, was classified into two situations: movement from facility manufacturer to installation site (non-contaminated) and movement from primary to secondary use (contaminated). And in order to investigate the Nuclear Safety Act, enforcement ordinances, and radiation safety management, and to establish standards for packaging and transportation of radioactive materials, the results of transportation tests and transport details were compared and analyzed. Finally, the air suspension systems and the automatic temperature and humidity control devices were analyzed to establish standards for securing stability against the vibration and the sharp changes in the temperature and humidity, and countermeasures such as accident measures in accordance with the Enforcement Decree of the Nuclear Safety Act were also investigated.
In the study, a shape finding procedure for the tensegrity system model inspired by the movement pattern of animal backbone was presented. The proposed system is allowing a dynamic movement by introducing the concept of “saddle” for the variable tensegrity structure. Mathematical process and an algorithm for movable tensegrity to specified points were established. Several examples have applied with in established shape finding analysis procedure. The final tensegrity structures were determined well to a object shape.
Most of the variable shading devices are installed outdoors, so they are greatly affected by structural safety due to external climate change, wind, rain, and snow. Especially, due to strong wind such as typhoons, safety problems may occur due to the dropout of the device. Therefore, it is necessary to secure the structural safety against the wind. Therefore, it is necessary to analyze the structural behavior of the windshield to evaluate the structural safety of the variable sunshade device. In this study, we analyze the wind pressure applied to the shading material according to the change of the length of the variable shading device, and apply it to the calculation of the wind load for the structural design of the variable shading device. The CFD (Computational Fluid Dynamic) analysis of the structure of the sample was used to analyze wind pressure magnitude and distribution. In order to estimate the wind pressure, the maximum wind loads of the static and negative pressures acting on the structure were analyzed from numerical simulation results.
금융리스는 현재 사회에서 활용도가 매우 높은 거래방식이지만 중국에서 금융리스업을 규제하는 법규정이 미비하고 또 관련 분쟁도 많이 일어 나고 있다. 학계에서는 금융리스의 법적성질, 임대인의 리스물건에 대한 회수권 등 권리보호와 등기에 의한 공시문제에 관하여 많은 논의가 있다. 금융리스의 법적구조를 보면 금융리스계약은 임대인과 임차인사이에 성립되는 것이며 금융리스에 참여하는 공급자는 금융리스계약의 당사자가 아니다. 임대인의 이익을 위하여 임대인의 회수권의 확보를 강화할 필요가 있다. 2014년에 공포된 금융리스에 관한 사법해석은 임대인의 리스물건에 대한 회수권을 구체적으로 규정하였고 동시에 임대인의 손해 배상청구권을 인정하였다. 리스물건의 선의취득은 금융리스 등기시스템 과의 연동성을 고려해야 하며 리스물건에 표기를 하거나 등기를 확인하거나 조회하는 등 방법으로 제3자의 선의취득을 방지할 수 있다. 금융리스에 관한 분쟁이 많이 발생하는 이유가 통일된 금융리스등기기관의 부재이다. 현재 중국 상무부와 중국인민은행 신용조회센터는 각각 등기시스템을 운행하고 있다. 2개의 서로 다른 시스템이지만 중복되는 기능을 갖고 있기 때문에 장래에 하나의 통합된 등기시스템을 구축하여 관련 문제를 해결하고 금융리스의 효율을 제고할 수 있다.
Structural analyses were performed for a movable seat mechanism applied in a new type shower commode wheel chair. The wheel chair has slide rails below the wheel chair seat to help patient move to bed side. The slide rails and seat were modeled for the structural simulation. Experiments were performed to validate simulation results by using strain gage Rosettes. Student t-test was performed to the experimental data, which showed that the stresses obtained from the simulation were not significantly different from those obtained from the experiments. The slide rail structure was found to give a safety factor of 2.4 under 80Kg user weight with ten rollers used for seat support. The safety factor much increased by placing more rollers under the wheel chair seat. Our simulation revealed that rollers installed only in the central and corner regions were used as supports due to the bending deformation of the seat.
This study aimed to develop the movable bed cultivating system for strawberry cultivation that enables to increase crop yield and save labor through high-density cultivation. In comparison with a conventional raised-bed system, the best feature of the system is a culture bed moving freely, left, right, up and down. This system consists of four devices; longitudinally- and laterally-moving device, nutrient solution supply device, and a control device. A comparative study showed that there was no significant difference on strawberry growth between a conventional raised bed and the movable bed cultivation systems. In addition, the change of growing environment to high-density cultivation did not influence strawberry growth, which proved the applicability of the movable bed cultivation system. Additional finding of this study showed that about 1.7 times more plants can be planted in movable beds. High-density cultivating using movable beds enables to plant more strawberry within the same cultivated area, which eventually contribute to reduce energy consumption per strawberry.
Dry CVT(Continuously variable transmission) consists of a driving pulley and a driven pulley joined by rubber V-belt. Each pulley consists of a fixed flange and a movable flange. The movable flange of the driving pulley has the centrifugal roller and a ramp plate in the flange. The movable flange moves toward a fixed flange under the actuation of a centrifugal roller, as the driving pulley speed increases. The main advantages of the Dry CVT with V-belt, which has been popular in Asia, are a simple mechanism, less maintenance and low cost. The important claim which have an influence on the performance of the Dry CVT is the wear of the centrifugal roller. In this study ball type is proposed instead of roller type of movable flange to resolve claim. Also experiments are carried out for new model to evaluate performances.
우리나라의 담보제도는 지나치게 不動産擔保制度 위주로 구성되어 있어 그동안 자본의 원활한 흐름이 저해되어 왔다. 그러나 최근에는 동산이나 채권 등의 권리가 부동산보다 더 많아지게 제조업과 컴퓨터분야의 중소기업 등 일부기업의 경우에는 소유하고 있는 부동산담보가액 보다 동산이나 채권이 4배가 넘는 환경에 처하고 있다. 따라서 기업의 자금흐름을 원활히 하기 위해서는 동산이나 채권 등의 담보제도에 대한 입법이 불가피하게 되어 2010년 6월 10일에 동산․채권 등의 담보에 관한 법률을 제정하기에 이르렀다. 이러한 물적담보제도는 향후에 우리나라 담보법의 역사에서 커다란 획을 그을 정도로 중요한 법이라고 판단된다. 이 시점에서 무엇보다도 시급한 것은 동산․채권담보법이 시행되기 전까지 세부적인 절차를 보다 구체적으로 마련하는 것이다. 동산 및 채권은 부동산에 비하여 성상이 변하기 쉽고, 무엇보다도 그 종류가 많아서 이를 공적 장부에 기재하는 것이 결코 쉽지 않기 때문이다. 신설된 담보등기제도는 그 자체로 중대한 변화를 초래할 뿐만 아니라, 민법상의 담보제도를 개선하는데 일조를 할 것이다. 채권법의 국제화에 발맞추어 UNCITRAL의 담보거래에 관한 입법지침, 미국 등 선진국의 입법례를 우리 실정에 맞도록 수용함으로써 국제적인 거래기준에 따른 금융제도의 마련도 시급한 것이다. 즉 단기적이고 장기적인 계획을 수립, 시행함으로써 동산․채권 등의 담보에 관한 법률이 조기에 정착될 수 있도록 그 부작용을 최소화하면서도, 활성화되도록 할 필요가 있다.
Recently, retail store automation appliance market is changed with traditional POS systems techniques and RFID, radio POS system, and self checkout system, etc. in the foreign advanced distribution industry. Retailers and consumers require convenient POS system which can provide more functions and fast service. These requests bring to rapid evolution of various H/W and S/W corresponding with POS system. In this study with the POS systems and the RFID technology we develop core technology of movable u-POS system based on RFID that can use in large store. So we propose u-Cart system that can alternate the current shopping cart and POS terminal and that provide value added services to customer. As the result we present the configuration of u-Cart terminal device(WMDT : Wireless Mobile Data Terminal) including RFID reader module that can provide various information to consumer and some convenient client applications that are running in WMDT and u-POS administration service module.
본 연구는 최근 물류 활동 전반에 걸쳐 무선주파수를 이용해 상품과 사물에 내장된 정보를 읽어내는 기술인 RFID(Radio Frequency IDentification) 응용기술과 유비쿼터스 환경에서의 POS(POS : point of sales) 시스템의 발전 형태를 예측하여, 향후 국내 외 대형 할인점에서 적용할 수 있는 RFID 기반의 이동형 u-POS 시스템의 핵심기술개발에 관한 연구이다. 본 연구는 RFID 기반의 이동형 u-POS 시스템의 핵심기술을 크게 H/W와 S/W로 구분하여 H/W 측면으로는 기존의 쇼핑 Cart를 대체 할 수 있는 u-Cart 개발을 목표로 하고, S/W 측면으로는 기존의 POS 시스템과 연동 할 수 있는 u-Cart의 클라이언트 어플리케이션과 매장관리 서비스 모듈의 개발을 목표로 한 내용에 대하여 발표하고자 한다.
이 논문은 CC 프로세스의 movable side trowel 효과를 연구하기 위한 실험과 모델링을 제시한다. FEA simulation을 이용하여 우리는 movable side trowel의 효과와 움직임에 대한 기초적인 이해를 얻어냈다. 단면의 side trowel 보다 양면의 side trowel이 실제의 3D 형상을 만드는 동안에 층간의 최적의 결합을 만들어 준다는 면에서 가장 적합하다는 것을 알아냈다. 우리의 실험이 위의 결과를 입증하였다.
이 논문에서는 이동식 지보를 이용한 MSS공법에 의해 건설되는 콘크리트 교량의 설계 모멘트를 산정하기 위한 관계식을 제안하고 있다. 각 시공 단계에 따른 시간 의존적 거동해석을 통해 교량의 부재력 변화와 처짐 변화를 고찰하였으며 변위와 하중조건을 토대로 한 지배방정식을 구성한 후 복잡한 장기 거동 해석 없이 탄성 해석 결과를 토대로 설계 부재력과 임의의 시간 경과 후 모멘트 변화를 예측할 수 있는 관계식을 구성하였다. 나아가 다양한 예제 해석을 통해 제안한 관계식의 적용성을 검증하였으며 모멘트 포락선을 토대로 보다 합리석인 설계 부재력의 산정 방안을 소개하였다.
본 연구에서는 실내실험을 통하여 개량형 공압식 가동보를 대상으로 보의 기립각도를 고려한 유사의 퇴적과 델타의 발달 과정을 파악하였다. 가동보 상류에서 유입되는 유사는 배수의 영향으로 유속이 느려지면서 퇴적이 되고 델타가 형성되며 하류로 이동하였다. 각 실험조건에 대하여 시간에 따른 델타의 이동속도는 델타는 시간이 지나면서 현저하게 감소하고, 보에 접근하였다. 무차원 델타의 높이(hd/h)가 증가할수록 무차원 델타의 이동속도(SD/V0)는 감소하였다. 따라서 델타의 높이(hd)가 증가할수록 수심(h)은 감소하였다. 델타의 유효높이(hw)가 크기 때문에 델타의 체적 (VxD)은 증가하지만 배수(backwater)의 영향을 받아 델타의 이동속도(SD)와 퇴적량은 감소하였다. 수로 경사가 일정할 때, 보의 높이(W)가 클수록 델타체적(VxD)이 증가하고, 델타의 전면부 길이비(hd/△S)는 1에 가깝다. 같은 유량조건인 경우에 가동보의 기립 각도가 가장 클 때, 시간당 델타의 퇴적량(Qs)은 가장 작았다. 따라서 보의 높이(W)가 클수록 델타의 발달을 억제할 수 있는 효과가 크다.