• Korean Journal of Plant Resources
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• v.12 no.3
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• pp.209-214
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• 1999

This experiment was carried out to investigate the influence of rhizome size and planting space on some agronomic characters and rhizome yield of ginger in greenhouse cultivation. The average air temperature was 9$^{\circ}C$ higher in greenhouse cultivation than in field. The average soil temperature also was 2-4$^{\circ}C$ higher in greenhouse. Plant height, leaf area, stem number and rhizome yield were significantly increased when cultivated at greenhouse compared to field. Under greenhouse the yield of rhizome in 30$\times$30cm planting space were appeared to be increase 121-183% compared with field cultivation. At the planting space of 60$\times$30cm, harvests were increased 76-82% comparing field cultivation. The most suitable rhizome size for planting at 30$\times$30cm planting space found to be 40g in greenhouse cultivation.

• The Journal of the Korea institute of electronic communication sciences
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• v.15 no.4
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• pp.695-702
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• 2020

Recently, as research on smart farms has been actively conducted, indoor environment control, such as a green house, has reached a high level. However, In the field of forestry where cultivation is carried out in outdoor, the use of ICT is still insufficient. In this paper, we propose LPWA-based forest growth environment collection and big data analysis system using ICT technology. The proposed system collects and transmits the field cultivation environment data to the server using small solar power generation and LPWA technology based on the oneM2M architecture. The transmitted data is constructed as big data on the server and utilizes it to predict the production and quality of forest products. The proposed system is expected to contribute to the production of low-cost, high-quality crops through the fusion of renewable energy and smart farms. In addition, it can be applied to other industrial fields that utilize the oneM2M architecture and monitoring the growth environment of agricultural crops in the field.

• Research in Plant Disease
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• v.21 no.2
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• pp.89-93
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• 2015

This study was carried out to develop the economic thresholds for the control of bacterial spot of red pepper. The correlation between diseased leaf rate and yield in field was Y=-0.724X+281.58, $R^2=0.78$, $r=-0.88^{**}$. The correlation between diseased leaf rate and yield loss in field was Y=0.813X+15.95, $R^2=0.78$, $r=0.88^*$.We found that control thresholds was below 30.3% diseased leaves rate per plant in field. The economic control thresholds for bacterial spot of red pepper was below 16.3%.

• Korean Journal of Soil Science and Fertilizer
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• v.43 no.6
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• pp.844-847
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• 2010

Water is the most important factor in crop cultivation. Water requirement of red pepper can be calculated based on the lysimeter experiments carried out by the RDA for 11 years about potential evapotranspiration, crop coefficient with climate data. The mean water requirement and total water requirement of red pepper in different growth stages are evaluated for two kinds of cultivation method.

• Proceedings of the Plant Resources Society of Korea Conference
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• 2020.12a
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• pp.75-75
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• 2020

여주(Momordica charantia L.)는 인도 동부와 남중국 등 열대 아시아 지역이 원산지로, 열대 및 아열대를 비롯하여 온대 지역까지 널리 재배되며, 열매를 식용으로 하여 주로 채소로 재배되고 있는데, 쓴맛 때문에 '쓴오이' 라고도 부르지만 당뇨와 고혈압 등 성인병과 장 기능 개선 성분을 함유하고 있다고 알려지는 등 건강기능성 작물로 국내에서도 전국적으로 재배가 되고 있어서, 국내 재배현황과 재배농가의 실태를 조사하여 재배 애로사항 및 발전과제를 도출코져 하였다. 여주의 국내 재배는 2012년 재배면적이 10ha에서 빠르게 증가하여 2017년 606농가 107.9ha로 정점을 이루고, 점차 감소하여 2019년 232농가 59.9ha에서 재배 하였으며, 2019년 재배면적이 많았던 시군은 함양, 강진, 양주, 천안 등 이었다. 여주의 재배작형은 보통재배(육묘후 노지재배) 농가가 가장 많고, 노지재배(직파), 반촉성재배(조숙재배), 촉성재배 형태의 농가가 있는데, 보통재배(육묘후 노지재배)는 3월 하순~4월 상순에 파종 및 육묘한 후 5월상순 노지에 정식하여, 6월 하순부터 가을에 서리가 내리기 전까지 수확한다. 농가의 재배품종은 일본 등 외국도입종의 종자를 종자회사로 부터 구입하여 재배하고 있으며, 재식방법, 시비관리, 줄기유인 등 표준재배법이 정립되지 못하여 농가별로 다양한 방법으로 재배하고 있는 실정이다. 수확은 열매가 완전히 익기전에 생여주 상태에서 수확하고 있으며, 일반 재배농가는 생여주 판매가 10~20%, 건여주 판매가 80~90% 비율이며, 생여주로 100% 건조업체에 판매하기도 하고, 건여주로 100% 건조하여 판매하는 농가도 있다. 국내재배 안전성 향상을 위하여 필요시 되는 기술개발 과제는 용도별 품종육성 및 종자생산 보급, 고품질 여주 생산을 위한 재배관리 기술, 지역별 생산 여주과실의 성분 품질관리 및 건조 가공기술, 여주의 건강기능성 식품 지정 고시 방안 등으로 전문기관에서의 연구개발이 필요하다.

• KOREAN JOURNAL OF CROP SCIENCE
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• v.67 no.1
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• pp.27-40
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• 2022

Building self-sustainable rural infrastructure and environment through smart digital agriculture technology innovation is one of the major goals of the Korean agricultural administration as a part of the nation's 4^th industry revolution. To identify areas for improving and effectively investing in the acceleration of rural development, 207 experts in the areas of crop science and smart digital agriculture technology were interviewed for their opinions and suggestions on 22 questions designed to recognize fundamental agricultural issues to be addressed and solutions to advance technology innovation and rural development. Majority of the participants expected smart digital agriculture technologies to resolve major agricultural issues and help build a better rural environment. To overcome technology gaps and resolve issues more effectively, further investment in training new technology experts and building stronger agricultural technology infrastructure is urgent, and persistent and systematic support from agricultural administration appears to be the key for accelerating the process. While the leading global groups of both public and private sectors have advanced their technologies beyond the field application stage, most of the Korean technologies remain at the early pilot stage. Aging population and lack of labor in rural areas, unknown future climate change, and challenges in sustainable rural development are expected to be resolved by smart digital agriculture technologies. Technological innovations by research institutes should be promptly deployed in the crop production field, and farm training systemically organized by local technology centers can accelerate farming revolution. Standardization of equipment and data systems is another key to the success of digitalization of food crop production and food supply chains nationwide.

• Proceedings of the Korean Society of Crop Science Conference
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• 2023.04a
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• pp.7-7
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• 2023

Currently, the main technologies of various fourth industries are big data, the Internet of Things, artificial intelligence, blockchain, mixed reality (MR), and drones. In particular, "digital twin," which has recently become a global technological trend, is a concept of a virtual model that is expressed equally in physical objects and computers. By creating and simulating a Digital twin of software-virtualized assets instead of real physical assets, accurate information about the characteristics of real farming (current state, agricultural productivity, agricultural work scenarios, etc.) can be obtained. This study aims to streamline agricultural work through automatic water management, remote growth forecasting, drone control, and pest forecasting through the operation of an integrated control system by constructing digital twin data on the main production area of the nojinot industry and designing and building a smart farm complex. In addition, it aims to distribute digital environmental control agriculture in Korea that can reduce labor and improve crop productivity by minimizing environmental load through the use of appropriate amounts of fertilizers and pesticides through big data analysis. These open-field agricultural technologies can reduce labor through digital farming and cultivation management, optimize water use and prevent soil pollution in preparation for climate change, and quantitative growth management of open-field crops by securing digital data for the national cultivation environment. It is also a way to directly implement carbon-neutral RED++ activities by improving agricultural productivity. The analysis and prediction of growth status through the acquisition of the acquired high-precision and high-definition image-based crop growth data are very effective in digital farming work management. The Southern Crop Department of the National Institute of Food Science conducted research and development on various types of open-field agricultural smart farms such as underground point and underground drainage. In particular, from this year, commercialization is underway in earnest through the establishment of smart farm facilities and technology distribution for agricultural technology complexes across the country. In this study, we would like to describe the case of establishing the agricultural field that combines digital twin technology and open-field agricultural smart farm technology and future utilization plans.

• Proceedings of the Korean Society of Organic Agriculture Conference
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• 2008.12a
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• pp.111-118
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• 2008

1. 고추 무농약재배 비가림 시설재배 효과 무농약 고추 노지 터널재배와 비가림 재배의 수량성을 검토하고, 관행 비가림 시설에 측고와 동고를 높이고 가로대를 보강하여 최소한의 투입으로 작물재배 환경을 개선으로 농작업에 편리성을 도모하고자 시험을 수행한 결과 비가림 시설재배가 노지 터널재배에 비하여 생육이 양호하고. 수량이 2배정도 많았다. 노지재배 고추는 강우로 인하여 탄저병이 40% 정도 발생되었으나, 비가림 시설재배는 탄저병과 역병이 전혀 발생되지 않았다. 2. 고추 비가림 시설 환경 개선 효과 구명 비가림 시설의 측과와 동고를 높이는 간단한 환경개선으로 여름철은 시설내 온도가 관행 비가림 시설보다 낮아지는 효과가 있었다. 또한 비가림 시설환경 개선에 의해서 "녹광" 풋고추의 생육은 증가되었으며, 홍고추 "조양" 품종도 같은 경향이었다. 고추의 수량은 풋고추 "녹광" 품종이 홍고추 "조양" 품종보다 수확량이 현저하게 많았고 처리간에는 비가림 시설의 환경을 개선한 시설이 관행 비가림 시설에 비하여 증수되었다. 그리고 비닐온실의 측고를 높인 결과 비닐 온실 내 측면으로 사람의 통행이 자유로워 작업환경 도도 개선되었다.

• Journal of Internet Computing and Services
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• v.20 no.1
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• pp.11-16
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• 2019

Wireless sensor network is important for precision farming to monitor the growth environment of crops in open field, but radio signals are susceptible to different types of interference such as weather and physical objects. This paper designs and implements an environmental monitoring and weather forecast acquisition systems for smart field irrigation based on LoRa(Long Range) and then applies it to a test bed. And we evaluate the network reliability in terms of packet transmission success rate by comparing its condition on two criteria; the existence of obstacle or rain. The results show that much rain falls can affect on packet loss in LoRa field networks with obstacles.

• Proceedings of the Plant Resources Society of Korea Conference
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• 2020.08a
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• pp.5-5
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• 2020

일반적으로 식물의 공급방법은 채집과 재배로 나눌 수 있으며, 자원식물은 상용화를 위해는 안정적 공급이 선행되어야 하므로 재배를 선호하고 있다. 재배방식은 다시 노지재배, 시설재배, Indoor Farm(식물공장)으로 나눌 수 있으며, 우리나라는 시설재배 중 비닐하우스 활용이 활발한 나라로 평가된다. 노지재배에 비해서는 시설재배가 온/습도 관리에 대해 장점을 가지고 있으며, Indoor Farm(식물공장)은 광량, 광질 및 일조시간까지 전체 생육조건의 조절이 가능하지만 초기투자비용 및 운영비용 등으로 인해 경제성이 낮아 아직까지는 상용되고 있지 않다. 자원식물의 경우 부가가치가 높아지는 후방사업으로 발달할 수 있으나, 화장품, 기능식품 또는 의약품으로 개발하기 위해서는 일정한 품질을 확보하여야 한다. 자원식물 재배 시 특정 성분의 함량을 일정하게 유지하기 위해서는 온/습도, 광량, 광질 등 생육환경을 관리할 수 있는 시설재배가 노지재배에 비해 적합하다. 하지만, 일부 자원식물의 경우에는 위도, 일조량 등으로 인해 국내에서는 시설재배로도 적절한 생육조건을 제공할 수 없어서 상업화하지 못한 경우가 많았다. 이에, (주)넥스트온은 Indoor Farm(식물공장) 전문기업으로서, 기존 자원식물 중 국내에서 시설재배로는 적절한 품질 확보가 불가했던 자원식물 및 특수 생육환경에서만 자생하는 희귀 자원식물의 양산화에 노력하고 있다.