This study aims to implement an integrated control system for a micro drill bit grinding machine to increase the processing stability and production efficiency of the equipment. The system consists of a WTGM mechanism, an environmental measurement sensor (RMU device), a control server, and a control client, and collects production statistics and alarm information in real time to enable central monitoring and statistical analysis. Through the control system, managers can check data and solve problems anytime and anywhere, thereby increasing the stability and efficiency of the production process. As a result of the experiment, it showed excellent performance in all evaluation items such as alarm occurrence time, notification time, and event operation time through temperature and humidity sensors, and contributed to productivity improvement through immediate response through e-mail and SNS notification. In conclusion, the implemented system optimizes the operating rate and inventory management of the equipment through real-time monitoring and yield analysis, and it is expected to improve system performance as it can be used as learning material for pattern analysis and deep learning algorithms in the future.

딸기 수경재배 시 일사비례제어를 이용하여 생육단계별 적 정 누적일사량 기준을 설정하고자 수행하였다. 급액 방법은 외부 일사량을 기준으로 일정 누적 일사량에 도달하면 급액 하였고 누적 일사량 기준은 150, 200J·cm-2과 생육단계에 따 라 200J·cm-2에서 150J·cm-2로 변경하는 처리를 두었다. 타이 머 제어는 대조구로 설정하였다. 월별 평균 급액 횟수는 누적 일사량이 많은 3월에 150 J·cm-2과 생육단계별(150J·cm-2) 처 리구가 5.6회, 누적일사량이 적은 12월에 200J·cm-2과 생육 단계별(200J·cm-2) 처리구가 2.7회, 타이머는 3.6－3.8회였 다. 수분이용효율은 주당 총 급액량이 적었던 타이머 처리구 가 19.8g·L-1로 일사제어 처리구에 비해 낮았다. 일사제어에 따른 생육 및 과실 특성은 차이가 없었다. 생육단계별 처리구 가 총 상품과 수량은 주당 328g, 상품과율 85.3%로 가장 높았 다. 딸기 수경재배 시 일사비례 급액제어 방식은 재배기간 동 안 동일한 누적일사량 기준보다 생육단계별로 누적일사량을 조절하는 것이 과실의 수량 향상에 도움이 되었다.

Korea Institute of Nuclear Non-proliferation and Control (KINAC) Safeguards division and Export control division operate regulation management system each other according to their work scope and characteristics. Korea Safeguards Information System (KSIS) of Safeguards division handles information for nuclear material accounting and control. Especially, accounting and declaration reports submitted to International Atomic Energy Agency (IAEA) are important information in this system. And Nuclear Import and Export Control System (NEPS) of Export control division deals with import and export information of nuclear materials and nuclear weapon trigger list items. Establishing and operating the integrated database as sharing information between KSIS and NEPS derive merits as follows. First, the full cycle of nuclear material transfer records can be managed by collecting information on the nuclear materials from import to export or disposal. In addition, regulatory body can verify inconsistency between transfer records and account records in date, location, element, mass etc. Especially, small quantity nuclear materials are major loop hole in nuclear material accountancy system. The accumulated material transfer data will give an evidence to catch loss nuclear material. Second, sharing the information on nuclear fuel cycle related research and development activities in both divisions can utilize the information to outreach on facility subject to nuclear technology transfer for Nuclear Suppliers Group (NSG) and additional protocol declaration for Safeguards Agreement with IAEA. Third, regulatory body is easily able to manage entire import and IAEA report procedure for items subject to the Nuclear Cooperation Agreement (NCA). In present, KINAC regulation on NCA is divided to Export control and Safeguards. Export control division conducts classification imported items subject to NCA and acquires prior consent or notifies to other country. And Safeguards division report inventory list for each NCA country to the ROK government once a year. Imported NCA inventory list will be generated automatically by merging database. Then, it can be easily verified without any additional process by both divisions.

With the rapid improvement of hardware and software-related IT technology, applying A.I. to the private and public sectors, such as the Food Poisoning Prevention Program in Nevada and Smart City based on big data in Boston, is steadily increasing. However, the cases of application to the regulation sector of government are still insufficient. The Korea Institute of Nonproliferation and Control (KINAC) is studying to apply A.I. technology to the regulation to improve the objectivity, consistency, and efficiency of classification and export licensing review. The KINAC developed the Nation Nuclear Technology Information Collection and Analysis System using A.I. techniques such as machine learning and deep learning techniques. KINAC and FNC Technology are developing the Export Risk Assessment System using A.I. modules and Bayesian Networks. The KINAC and Korea Atomic Energy Research Institute (KAERI) are developing an inventory history management system subject to the Nuclear Cooperation Agreements. The Nuclear Safety and Security Commission (NSSC) and KINAC operate the Nuclear Import and Export Control System (NEPS) for application and export license review according to relevant laws such as the Foreign Trade Act. Therefore, preparing an integration plan for the existing NEPS and the new systems is necessary. Since the NEPS has to be operated and accessible at all times, so the stability of the NEPS is the most important when integration and linking. So, it is suggested that the Collection and Analysis System and the Risk Assessment System, which require a lot of data traffic, are configured in a server separate from the NEPS, and the new DB and the NEPS DB are only linked. An inventory history management system is also suggested to be integrated and configured into the NEPS. Third, it is recommended that each system lists the information provided to or received from the NEPS in advance, and one-way communication should be performed basically. Two-way communication should be performed when necessary. Finally, against various cyber accidents and information leakage, it is proposed to review security vulnerabilities and apply essential security measures and guidelines. Through the integration and linkage of these systems, it is expected that the objectivity, consistency, and efficiency of classification and export licensing review of the KINAC are strengthened, and national transparency of development, production, and use of nuclear material is enhanced. It can be satisfied with the increasingly strengthened demands of the international community on duty for strategic item management.

우리나라 딸기 재배는 시설 재배로 이루어지고 있으며, 대부분 농가의 급액 관리는 재배자의 경험을 토대로 타이머 제어 방식으로 이루어지고 있다. 타이머 급액 방법은 재배 환경, 작물의 생육 단계, 배지 수분 함량 등을 고려하기 어려워 작물을 최적 수준으로 관리하지 못하고, 급액 관리의 정확성이 결여되는 문제점이 있다. 적산 일사량과 배지 수분함량을 이용한 급액 방법은 작물의 생육 상태에 따라 정밀하게 양액을 공급하는 친환경적인 방법이다. 본 연구는 코이어배지를 이용 한 딸기 수경재배에서 적산일사량과 배지 수분함량을 이용한 복합 급액 제어와 타이머 제어 급액 방법을 비교하고 복합 급액 제어 시 최적의 적산 일사량 기준을 설정하고자 수행하였다. 적산일사량 급액 방법은 외부 일사량을 기준으로 100, 150, 250J∙cm -2에 도달하면 자동으로 급액하며 배지 수분함 량이 60% 미만이면 강제 급액하고, 1회 급액량은 50mL로 공급하였다. 타이머 제어는 대조구로 설정하였다. 급액을 개시 하는 적산 일사량 기준이 작을수록 일일급액량이 많았으며 100J∙cm -2 기준 급액 시 급액량은 250J∙cm -2 처리구 대비 46% 많았다. 지상부 생체중과 건물중 모두 복합 급액 제어 방법이 타이머 제어보다 높았으며, 100, 150J∙cm -2 처리구에서 지상부 생체중이 높았고 100J∙cm -2 처리구에서 건물중이 유의하게 높은 값을 나타냈다. 수량 또한 타이머 제어 방법보다 복합 제어 방법에서 유의하게 높았으며 적산 일사량 기준이 작을수록 초기 수량이 증가하였다. 평균 과중은 타이머 제어 급액 시 가장 낮았다. 본 연구 결과 딸기의 정밀 급액 관리를 위하여 적산 일사량과 배지 수분 함량 센서를 이용한 복합 제어 활용 가능성을 확인하였다.

A smart connective control system was invented recently for coupling control of adjacent buildings. Previous studies on this topic focused on development of control algorithm for the smart connective control system and design method of control device. Usually, a smart control devices are applied to building structures after structural design. However, because structural characteristics of building structure with control devices changes, a iterative design is required for optimal design. To defeat this problem, an integrated optimal design method for a smart connective control system and connected buildings was proposed. For this purpose, an artificial seismic load was generated for control performance evaluation of the smart coupling control system. 20-story and 12-story adjacent buildings were used as example structures and an MR (magnetorheological) damper was used as a smart control device to connect adjacent two buildings. NSGA-II was used for multi-objective integrated optimization of structure-smart control device. Numerical simulation results show the integrated optimal design method proposed in this study can provide various optimal designs for smart connective control system and connected buildings presenting good control performance.

Pine tree, a dominant species in the flora of Korea is the most beloved tree in Korea. However, recent outbreak of pine wilt disease caused by the pine wood nematode (PWN) Bursaphelenchus xylophilus threatens the vegetation of Pinus species seriously. Furthermore, Pinus densiflora and P. thunbergii, the predominant species in Korea forest are highly susceptible to PWN. Therefore, there has been an urgent demand for the development of a new nematocidal compounds to control PWN, which spurred the national research for the development of new compounds. To find novel sources for nematocidal agents, we used various plant resources for the development. In addition to the foreign plant extracts themselves, we also used the extracts of endophytes composed of over 300 endophytic fungi and 1,000 endophytic bacteria from plants which was reported to contain nematocidal activity. Several extracts of endophytes and plant extracts contained strong nematocidal activity, and the resources are analyzed to identify the active nematocidal compounds. These integrated approach of finding effective nematocidal compounds from plants could be a novel way to elucidate the sources for brand-new nematocidal agents.