KASI (Korea Astronomy and Space Science Institute) has developed an SLR (Satellite Laser Ranging) system since 2008. The name of the development program is ARGO (Accurate Ranging system for Geodetic Observation). ARGO has a wide range of applications in the satellite precise orbit determination and space geodesy research using SLR with mm-level accuracy. ARGO-M (Mobile, bistatic 10 cm transmitting/40 cm receiving telescopes) and ARGO-F (Fixed stationary, about 1 m transmitting/receiving integrated telescope) SLR systems development will be completed by 2014. In 2011, ARGO-M system integration was completed. At present ARGO-M is in the course of system calibration, functionality, and performance tests. It consists of six subsystems, OPS (Optics System), TMS (Tracking Mount System), OES (Opto-Electronic System), CDS (Container-Dome System), LAS (Laser System) and AOS (ARGO Operation System). In this paper, ARGO-M system structure and integration status are introduced and described.
This study is aimed to increase the activity of cathodic catalysts for PEMFCs(Polymer Electrolyte Membrane Fuel Cells). we investigated the temperature effect of 20wt% Pt/C catalysts at five different temperatures. The catalysts were synthesized by using chemical reduction method. Before adding the formaldehyde as reducing agent, process was undergone for 2 hours at the room temperature (RT), 40˚C, 60˚C, 80˚C and 100˚C, respectively. The performances of synthesize catalysts are compared. The electrochemical oxygen reduction reaction (ORR) was studied on 20wt% Pt/C catalysts by using a glassy carbon electrode through cyclic voltammetric curves (CV) in a 1M H2SO4 solution. The ORR specific activities of 20wt% Pt/C catalysts increased to give a relative ORR catalytic activity ordering of 80˚C > 100˚C > 60˚C > 40˚C > RT. Electrochemical active surface area (EAS) was calculated with cyclic voltammetry analysis. Prepared Pt/C (at 80˚C, 100˚C) catalysts has higher ESA than other catalysts. Physical characterization was made by using X-ray diffraction (XRD) and transmission electron microscope (TEM). The TEM images of the carbon supported platinum electrocatalysts (80˚C, 100˚C) showed homogenous particle distribution with particle size of about 2~3.5 nm. We found that a higher reaction temperature resulted in more uniform particle distribution than lower reaction temperature and then the XRD results showed that the crystalline structure of the synthesized catalysts are seen FCC structure.
종균의 종류에 따라 중온성 품종의 생산성이 어떻게 달라지는지를 확인하고자 연구를 수행하였다. 버섯의 발생 경향은 세 처리구 모두 비슷했으며, 성형종균과 액체종균 처리구는 2차발생까지 총수확량의 50% 이상, 4차까지 80%이상 발생되었다. 기형버섯조사에서는, 세 처리구 모두 2차 발생까지만 기형버섯이 발생되었다. 하지만 기형버섯 발생률에 있어서는 다른 처리구들에 비해 액체종균 접종구에서의 발생률이 낮았다. 수확량조사에서는 액체종균을 접종했을 때 배지당 411 g으로 처리구들 중 가장 많았고 10 g이 넘는 버섯도 309 g으로 톱밥종균과 성형종균에 비해 많았다. 그리고 발생된 자실체 개수는 톱밥종균과 성형종균 간에 유의성이 있었지만 자실체 개당 무게는 세 처리구 간에 유의성이 없었다.
In this paper, we present a systematic approach to translating BPML (Business Process Modeling Language) into the π-Calculus. BPML is an executable business process modeling language, like BPEL4WS (Business Process Execution Language for Web Services).
In this paper, we consider a planning problem arising from printed circuit board manufacturing industries. Given a set of several types of PCBs, component feeders and surface mounting machines in series in a PCB assembly line, the problem is to define t
볼륨 광선 투사법은 볼륨 데이터를 가시화하는 기법 중 고화질 영상을 만들어내는 기법이다. 하지만 일반적으로 볼륨 데이터는 매우 크기 때문에 렌더링 시간이 오래 걸리는 문제가 있다. 이를 보완하기 위하여 최근에는 GPU를 이용하여 볼륨 광선 투사법을 가속화하는 많은 기법들이 연구되고 있다. 본 논문에서는 볼륨 광선 투사법을 가속화하기 위한 GPU 기반의 옥트리 탐색을 통한 효과적인 빈 공간 도약 기법을 제안한다. 여기서는 최대-최소 옥트리를 생성하고 옥트리의 루트 노드부터 정점분할을 이용하여 빈 공간을 식별한다. 찾아낸 빈 공간을 삭제함으로써 볼륨 데이터에서 의미 있는 객체를 둘러싸는 바운딩 다면체를 최소화 시킨다. 최소화 된 바운딩 다면체에 대해서만 렌더링을 진행함으로써 기존의 볼륨 광선 투사법과 비교하여 빠른 시간에 동일한 결과물을 생성한다.