• 농업과학연구
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• 제51권1호
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• pp.63-77
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• 2024

Yield monitoring systems have become integral to precision agriculture, providing insights into the spatial variability of crop yield and playing an important role in modern harvesting technology. This paper aims to review current research trends in yield monitoring systems, specifically designed for non-grain crops, including cabbages, radishes, potatoes, and tomatoes. A systematic literature survey was conducted to evaluate the performance of various monitoring methods for non-grain crop yields. This study also assesses both mass- and volume-based yield monitoring systems to provide precise evaluations of agricultural productivity. Integrating load cell technology enables precise mass flow rate measurements and cumulative weighing, offering an accurate representation of crop yields, and the incorporation of image-based analysis enhances the overall system accuracy by facilitating volumetric flow rate calculations and refined volume estimations. Mass flow methods, including weighing, force impact, and radiometric approaches, have demonstrated impressive results, with some measurement error levels below 5%. Volume flow methods, including paddle wheel and optical methodologies, yielded error levels below 3%. Signal processing and correction measures also play a crucial role in achieving accurate yield estimations. Moreover, the selection of sensing approach, sensor layout, and mounting significantly influence the performance of monitoring systems for specific crops.

• Journal of Biosystems Engineering
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• 제43권2호
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• pp.103-109
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• 2018

Purpose: This study has been conducted to develop a potato yield monitoring system, consisting of a segmentation algorithm to detect potatoes scattered on a soil surface and a counting system to count the number of potatoes and convert the data from two-dimensional images to masses. Methods: First, a segmentation algorithm was developed using top-hat filtering and processing a series of images, and its performance was evaluated in a stationary condition. Second, a counting system was developed to count the number of potatoes in a moving condition and calculate the mass of each using a mass estimation equation, where the volume of a potato was obtained from its two-dimensional image, and the potato density and a correction factor were obtained experimentally. Experiments were conducted to segment potatoes on a soil surface for different potato sizes. The counting system was tested 10 times for 20 randomly selected potatoes in a simulated field condition. Furthermore, the estimated total mass of the potatoes was compared with their actual mass. Results: For a $640{\times}480$ image size, it took 0.04 s for the segmentation algorithm to process one frame. The root mean squared deviation (RMSD) and average percentage error for the measured mass of potatoes using this counting system were 12.65 g and 7.13%, respectively, when the camera was stationary. The system performance while moving was the best in L1 (0.313 m/s), where the RMSD and percentage error were 6.92 g and 7.79%, respectively. For 20 newly prepared potatoes and 10 replication measurements, the counting system exhibited a percentage error in the mass estimation ranging from 10.17-13.24%. Conclusions: At a travel speed of 0.313 m/s, the average percentage error and standard deviation of the mass measurement using the counting system were 12.03% and 1.04%, respectively.

• 한국멀티미디어학회논문지
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• 제22권11호
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• pp.1324-1337
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• 2019

This study set out to investigate an energy harvesting device to ensure stable energy supply to batteries and data collection devices and a monitoring system for acer pictum sap to check collected data. Acer pictum sap farmers have written down weather information and yield of acer pictum sap manually for data storage. Since the job is done manually, there are many missing values in their data. In addition, it is not easy to manage batteries due to the characteristics of the areas where acer pictum sap is collected. The present study thus decided to build an energy harvesting device based on new renewable energy to ensure stable energy supply by taking into consideration power load, daily power consumption, and number of days with no sunshine for various devices. For a monitoring system, the investigator proposed a JSP-based web page to monitor temperature, humidity, volume of collected water, and battery state in real time. The proposed energy harvesting device was applied to reduce missing values in data. It promoted stable energy supply to the batteries and data collection devices, reducing the percentage of missing values in data from 30.55% to 0%.

• 분석과학
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• 제11권1호
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• pp.36-41
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• 1998

GC-MS를 이용한 사람의 혈중 5-fluorouracil(5-FU)의 정량법이 연구되었다. 5-FU은 isopropanol-ether(20:80) 혼합용매 10ml로서 추출하였고 pentafluoro-benzylation에 의해 유도체화 하였다. 시료주입은 자동으로 수행하였으며 분리에 사용한 칼럼은 비극성 capillary column이었고 검출은 MSD로 하였다. 위의 조건하에서 내인성 물질들의 방해현상은 없었고 검출한계는 0.5 ml의 혈액시료를 사용하였을 때 3 ng/ml이었으며 추출효율은 80%이상을 나타냈다. 5-FU로 항암치료를 받는 환자의 시료 500개중에 혈중 5-FU의 농도 측정에 적용하였으며 이 방법이 우수한 monitoring법임을 알 수 있었다.

• 융합신호처리학회논문지
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• 제2권2호
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• pp.28-38
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• 2001

교통정보는 크게 지점정보와 공간정보로 나눌 수 있다. 지점정보는 한 지점에서의 차량의 유무 판정을 통해 얻을 수 있는 정보이며, 공간정보는 일정 공간을 관찰해야만 얻을 수 있는 고급 교통정보이다. 영상처리를 이용해 공간정보를 측정하기 위해서는 차량의 전역 추적을 필요로 하는데 전역 추적에 기반한 영상검지기는 비디오 입력, 차량 탐지, 차량 추적, 교통정보 측정의 네 부분으로 나눌 수 있다. 기존의 연구들은 비디오 입력시 자동 아이리스를 사용하여 급격한 밝기변화에 대응치 못하는 단점이 있고 차량 탐지시 기존의 배경생성 방법들은 정체가 심한 교차로에서 매우 좋지 않은 결과를 보인다. 또한 대부분의 연구에서 교통정보 측정을 지점 정보로만 국한하였다. 본 연구에서는 자동 아이리스의 단점 개선을 위해 사용자 제어 아이리스 방법을 제안하였고, 복잡한 교차로에서도 배경생성을 견고히 할 수 있는 장면차이 기반 배경생성 방법을 제안하였다. 또한 통행량/시간/속도는 물론 대기행렬 길이, 회전/직진 교통류의 공간 교통정보를 측정하는 방법을 제안하였고 실제 실험을 해 본 결과 95%∼100%의 정확도를 보였다.