This paper develops an algorithm to determine the batch size of the batch process in real time for improving production and efficient control of production system with multiple processes and batch processes. It is so important to find the batch size of the batch process, because the variability arising from the batch process in the production system affects the capacity of the production. Specifically, batch size could change system efficiency such as throughput, WIP (Work In Process) in production system, batch formation time and so on. In order to improve the system variability and productivity, real time batch size determined by considering the preparation time and batch formation time according to the number of operation of the batch process. The purpose of the study is to control the WIP by applying CONWIP production system method in the production line and implements an algorithm for a real time batch size decision in a batch process that requires long work preparation time and affects system efficiency. In order to verify the efficiency of the developed algorithm that determine the batch size in a real time, an existed production system with fixed the batch size will be implemented first and determines that batch size in real time considering WIP in queue and average lead time in the current system. To comparing the efficiency of a system with a fixed batch size and a system that determines a batch size in real time, the results are analyzed using three evaluation indexes of lead time, throughput, and average WIP of the queue.
FRP is a new material that has light, high strength and high durability characteristics and is emerging as a third construction material in and out of countries. However, very few studies have been done on curved FRP construction materials that can be used for tunnels or arched bridges. In particular, many joints are required for the application of curved panels to the open cut tunnel. Experimental data on the performance of the joint is required due to insufficient design criteria. The purpose of this study is to analyze the structural performance of real size, composite materials curved panels. To achieve this goal, curved panels were constructed and bending performance was tested. A numerical analysis was also performed and compared with the results of the test. The results of the test showed that the average load was 757.6 kN and the average displacement of bottom was measured at 53.12 mm. Compression stress on the upper flange and tensile stress on the lower flange were within acceptable limits of 50% of the allowable stress.
본 논문은 히스토그램과 그레이레벨 프로파일의 VS(valley size)를 이용한 문턱치 기반의 대두 선별알고리즘 을 제안한다. 대두의 변형은 크게 표면 변색 및 외형 변형으로 나눌 수 있다. 본 연구에서는 대두 개체를 건전립, 부 분변색립, 전면변색립, 표면변형립으로 구분하고 히스토그램 기반 문턱치와 VS기반 선별알고리즘을 이용하여 표면의 변색 및 변형에 따른 불량 대두와 건전립을 선별하였다. 제안한 방법은 대두와 같이 개체수가 많은 농작물의 실시간 선별을 목적으로 하여, 정수덧셈 연산기반의 선별 알고리즘으로 구현 되었다. 제안한 방법을 실제 선별에 적용한 결 과 선별의 정확도는 94.5%이며 기존의 문턱치 기반 대두 선별 알고리즘에 비교할 때 상대적으로 적은 연산량에서 동 등한 수준의 정확도를 나타내는 것을 확인하였다.
The chigger mite, Leptotrombidium pallidum, is widely distributed throughout South Korea and is a major vector for Orientia tsutsugamushi, the causative agent of scrub typhus. In this study, the genome size of the chigger mite was estimated to determine the necessary coverage level prior to whole genome sequencing. Cloning of EF1α and RpS3 as putative single copy reference genes were conducted and their partial sequences were determined. Using the serially diluted reference genes with known amount as standard templates, the weight of a single copy of the genome was predicted by a method based on quantitative real time PCR. The average genome length estimated from the weight using two methods was 191 ± 7 Mb. When the genome size of other arthropods (Drosophila melanogster, Apis mellifera and Tetranychus urticae), with their genome analysis completed, were estimated using the same method and compared with actual values, the estimation accuracy was 79.8-98.9%, suggesting our current estimation of L. pallidum genome size is reliable. The estimated L. pallidum genome size is in a similar range to other Acariform mites, such as the dust mite and scabie mite, but appoximately 10-fold smaller compared to the deer tick, which belongs to Parasitiform. Our finding provides key information for further genome sequencing and understanding of mite genome evolution.
건축물에서의 성능기반 화재안전 설계를 위해서는 우선적으로 구획 내에서의 화재성장 및 크기를 예측하고 이 결과를 통하여 연기제어 및 피난 활동 등을 평가할 수 있다. 따라서 본 연구에서는 실규모의 구획 화재실험을 통해 구획 공간에서의 화재성장 및 크기를 예측하고자 하였다.