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대한원격탐사학회> 대한원격탐사학회지> Analysis of Growth Characteristics Using Plant Height and NDVI of Four Waxy Corn Varieties Based on UAV Imagery

KCI등재

Analysis of Growth Characteristics Using Plant Height and NDVI of Four Waxy Corn Varieties Based on UAV Imagery

Chan-hee Jeong , Jong-hwa Park
  • : 대한원격탐사학회
  • : 대한원격탐사학회지 37권4호
  • : 연속간행물
  • : 2021년 08월
  • : 733-745(13pages)
대한원격탐사학회지

DOI


목차

1. Introduction
2. Materials and Methods
3. Results and Discussion
4. Conclusions
Acknowledgements
References

키워드 보기


초록 보기

Although waxy corn varieties developed after the 1980s show differences depending on development stages and conditions, studies on the characteristics of waxy corn during the growth stage are rare. The subject of this study was a field survey and unmanned aerial vehicle (UAV) image acquisition of four waxy corn varieties cultivated in Idam-ri, Gammul-myeon, Goesan-gun, Korea. The study was conducted in four stages at intervals of two weeks after planting in 2019. The growth characteristics of each of the four varieties were analyzed using growth curves obtained based on field survey and UAV imagery data. The characteristics of each growth stage of the four varieties of corn, as assessed using normalized difference vegetation index (NDVI) and plant height (P.H.) values, were as follows. The growth model was identified as a model in which three-parameter logistic (3PL) curves reflect the growth characteristics of corn well. In particular, it was found that the variations in growth rate shown by P.H. and NDVI values clearly explain the differences between corn varieties. Among the four cultivars, growth and development first occurred at the early vegetative stage in Daehakchal, followed by Mibaek 2, Miheukchal, and finally Hwanggeummatchal. The variations in P.H. and NDVI were achieved quickly and earlier in Daehakchal, followed by Mibaek 2, Hwanggeummatchal, and Miheukchal. It was confirmed that these results reflected the characteristics of the fast white-type varieties, while the black-type varieties were delayed, as in a previous study. These results reflect the resistance to lodging that affects the cultivation environment and the response characteristics to nutrients and moisture. It was confirmed that UAV accurately provides growth information that is very useful for analyzing the growth characteristics of each corn variety.

UCI(KEPA)

간행물정보

  • : 자연과학분야  > 기타(자연과학)
  • : KCI등재
  • :
  • : 격월
  • : 1225-6161
  • : 2287-9307
  • : 학술지
  • : 연속간행물
  • : 1985-2021
  • : 1692


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37권5호(2021년 10월) 수록논문
최근 권호 논문
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KCI등재

1기후변화 시나리오를 고려한 위성영상 기반 미래 탄소흡수량 분포 추정

저자 : 나상일 ( Sang-il Na ) , 안호용 ( Ho-yong Ahn ) , 류재현 ( Jae-hyun Ryu ) , 소규호 ( Kyu-ho So ) , 이경도 ( Kyung-do Lee )

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 5호 발행 연도 : 2021 페이지 : pp. 833-845 (13 pages)

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탄소흡수량 산정 및 토지이용 변화에 대한 이해는 기후변화 연구에서 매우 중요하다. 기존의 연구에서는 토지이용 변화에 따른 탄소흡수량 산정에 원격탐사 기술이 사용되고 있으나 대부분 과거의 탄소흡수량 변화에 초점을 맞추고 있다. 따라서 미래 탄소흡수량 변화 예측 연구는 부족한 실정이다. 본 연구에서 CLUE-S 모형을 사용하여 토지이용 변화를 모의하고 기후변화 시나리오를 고려하여 미래 탄소흡수량의 변화를 예측하였다. 그 결과, RCP 4.5 및 8.5 시나리오에서 탄소흡수량은 각각 7.92, 13.02% 감소되는 것으로 예측되었다. 따라서 본 연구에서 제안한 방법은 다른 기후변화 시나리오를 고려한 미래 탄소흡수량 변화에도 적용이 가능할 것으로 기대된다.


Quantification of carbon absorption and understanding the human induced land use changes forms one of the major study with respect to global climatic changes. An attempt study has been made to quantify the carbon absorption by land use changes through remote sensing technology. However, it focused on past carbon absorption changes. So prediction of future carbon absorption changes is insufficient. This study simulated land use change using the Conversion of Land Use and its Effects at Small regional extent (CLUE-S) model and predicted future changes in carbon absorption considering climate change scenarios 4.5 and 8.5 of the Representative Concentration Pathways (RCP). Results of this study, in the RCP 4.5 scenarios there predicted to be loss of 7.92% of carbon absorption, but in the RCP 8.5 scenarios was 13.02%. Therefore, the approach used in this study is expected to enable exploration of future carbon absorption change considering other climate change scenarios.

KCI등재

2SAR 영상 정합 정확도 평가를 위한 FSIM 인자 활용 가능성

저자 : 김상완 ( Sang-wan Kim ) , 이동준 ( Dongjun Lee )

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 5호 발행 연도 : 2021 페이지 : pp. 847-859 (13 pages)

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최근 고해상도 위성 SAR 영상이 늘어남에 따라, 변화탐지, 영상 융합 등 다양한 분야에서 SAR 영상에 대한 정밀 정합 요구가 커지고 있다. 영상 정합 결과에 대한 정량적 평가는 분석자에 의해 추출된 GCPs (Ground Control Points)를 이용한 RMSE (Root Mean Square Error) 값이 널리 사용되어 왔으나, 영상정합 결과의 정확도를 자동으로 측정하는 방법에 대한 연구는 미비한 실정이다. 본 연구에서는 SAR 영상 정합의 정확도 평가지표로, 단일채널 영상의 품질 평가 알고리즘으로 개발된 FSIM (Feature Similarity) 값을 적용하는 것에 대한 타당성 분석을 수행하였다. 다양한 관측각도 및 관측방향에서 수집된 TerraSAR-X staring spotlight 자료를 분석에 사용하였다. SAR 영상의 공간 해상도에 따른 FSIM 값 변화는 매우 작은 값을 보였다. 따라서, 다양한 공간해상도의 SAR 영상 간에도 동일한 척도를 가지고 FSIM 값을 사용할 수 있다. 단일 SAR 영상을 이용하여 정합 오차에 따른 FSIM값 변화를 분석하였으며, 이 값을 기준으로 서로 다른 관측조건에서 수집된 영상 간의 정합 오차에 따른 FSIM 값 변화를 분석하였다. 서로 다른 관측각 또는 관측방향 자료 조합에서, 관측기하 차이에 의해 FSIM 값은 다소 저하되었다. 토지피복별 FSIM 값 분석 결과에서, 도심지역에서 정합오차에 따른 FSIM 값의 변화가 가장 뚜렷하게 나타났다. 따라서, FSIM 값을 이용하여 영상정합의 정확도를 판별하기 위해서는 도심지역에서 산출된 FSIM 값을 이용하는 것이 바람직하다. FSIM 값은 SAR 영상 정합 정확도에 대한 지표로 사용될 수 있는 충분한 가능성이 있는 것으로 판단된다.


Recently, as the number of high-resolution satellite SAR images increases, the demand for precise matching of SAR images in change detection and image fusion is consistently increasing. RMSE (Root Mean Square Error) values using GCPs (Ground Control Points) selected by analysts have been widely used for quantitative evaluation of image registration results, while it is difficult to find an approach for automatically measuring the registration accuracy. In this study, a feasibility analysis was conducted on using the FSIM (Feature Similarity) index as a measure to evaluate the registration accuracy. TerraSAR-X (TSX) staring spotlight data collected from various incidence angles and orbit directions were used for the analysis. FSIM was almost independent on the spatial resolution of the SAR image. Using a single SAR image, the FSIM with respect to registration errors was analyzed, then use it to compare with the value estimated from TSX data with different imaging geometry. FSIM index slightly decreased due to the differences in imaging geometry such as different look angles, different orbit tracks. As the result of analyzing the FSIM value by land cover type, the change in the FSIM index according to the co-registration error was most evident in the urban area. Therefore, the FSIM index calculated in the urban was most suitable for determining the accuracy of image registration. It is likely that the FSIM index has sufficient potential to be used as an index for the co-registration accuracy of SAR image.

KCI등재

3GOCI와 AHI 자료를 활용한 에어로졸 광학두께 합성장 산출 연구

저자 : 강형우 ( Hyeongwoo Kang ) , 최원이 ( Wonei Choi ) , 박정현 ( Jeonghyun Park ) , 김세린 ( Serin Kim ) , 이한림 ( Hanlim Lee )

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 5호 발행 연도 : 2021 페이지 : pp. 861-870 (10 pages)

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본 연구에서는 COMS (Communication, Oceanography and Meteorology Satellite) 위성의GOCI (Geostationary Ocean Color Imager) 센서와 Himawari-8 위성의 AHI (Advanced Himawari Imager) 센서에서 산출되는 에어로졸 광학두께 (Aerosol Optical Depth; AOD)를 활용하여 단일화된 AOD 합성장을 생산하였다. 위성 간의 공간해상도와 위치좌표계가 다르기 때문에 이를 맞춰주는 전처리 작업을 선행하였다. 이후 지상관측 기반인 AERONET (AErosol RObotic NETwork)의 레벨 1.5 AOD 자료를 사용하여 각 위성과 AERONET과의 상관관계 분석 및 추세를 보간하여 기존 위성 AOD 보다 정확한 위성 AOD 자료를 생산하였다. 이후 합성과정을 진행하며 최종적으로 시공간적으로 더 완벽하고 정확한 AOD 합성장을 생산하였다. 생산된 AOD 합성장의 제곱근 평균 오차(Root Mean Square Error; RMSE)는 0.13, 평균 편향(mean bias)는 0.05로, 기존의 GOCI AOD (RMSE: 0.15, Mean bias: 0.11)와 AHI AOD (RMSE: 0.15, Mean bias: 0.05) 보다 나은 성능을 보였다. 또한 합성된 AOD는 단일위성에서 구름으로 인하여 관측되지 못한 지역에서 시공간적으로 보다 완벽하게 생산되었음을 확인하였다.


In this study, fused Aerosol Optical Depth (AOD) data were produced using AOD products from the Geostationary Ocean Color Imager (GOCI) onboard Communication, Oceanography and Meteorology Satellite (COMS) satellite and the Advanced Himawari Imager (AHI) onboard Himawari-8. Since the spatial resolution and the coordinate system between the satellite sensors are different, a preprocessing was first preceded. After that, using the level 1.5 AOD dataset of AErosol RObotic NETwork (AERONET), which is ground-based observation, correlations and trends between each satellite AOD and AERONET AOD were utilized to produce more accurate satellite AOD data than the original satellite AODs. The fused AOD were found to be more accurate than the original satellite AODs. Root Mean Square Error (RMSE) and mean bias of the fused AODs were calculated to be 0.13 and 0.05, respectively. We also compared errors of the fused AODs against those of the original GOCI AOD (RMSE: 0.15, mean bias: 0.11) and the original AHI AOD (RMSE: 0.15, mean bias: 0.05). It was confirmed that the fused AODs have better spatial coverage than the original AODs in areas where there are no observations due to the presence of cloud from a single satellite.

KCI등재

4항공 및 위성영상을 활용한 토지피복 관련 인공지능 학습 데이터 구축 및 알고리즘 적용 연구

저자 : 이성혁 ( Seong-hyeok Lee ) , 이명진 ( Moung-jin Lee )

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 5호 발행 연도 : 2021 페이지 : pp. 871-884 (14 pages)

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본 연구의 목적은 항공 및 위성영상을 활용한 토지피복 관련 인공지능 학습 데이터를 구축, 검증 및 알고리즘 적용의 효율화 방안을 연구하였다. 이를 위하여 토지피복 8개 항목에 대하여 고해상도의 항공영상 및 Sentinel-2 인공위성에서 얻은 이미지를 사용하여 0.51 m 및 10 m Multi-resolution 데이터셋을 구축하였다. 또한, 학습 데이터의 구성은 Fine data (총 17,000개) 와 Coarse data (총 33,000개)를 동시 구축 및 정밀한 변화 탐지 및 대규모 학습 데이터셋 구축이라는 2가지 목적을 달성하였다. 학습 데이터의 정확도를 위한 검수는 정제 데이터, 어노테이션 및 샘플링으로 3단계로 진행하였다. 최종적으로 검수가 완료된 학습데이터를 Semantic Segmentation 알고리즘 중 U-Net, DeeplabV3+에 적용하여, 결과를 분석하였다. 분석결과 항공영상 기반의 토지피복 평균 정확도는 U- Net 77.8%, Deeplab V3+ 76.3% 및 위성영상 기반의 토지피복에 대한 평균 정확도는 U-Net 91.4%, Deeplab V3+ 85.8%이다. 본 연구를 통하여 구축된 고해상도 항공영상 및 위성영상을 이용한 토지피복 인공지능 학습 데이터셋은 토지피복 변화 및 분류에 도움이 되는 참조자료로 활용이 가능하다. 향후 우리나라 전체를 대상으로 인공지능 학습 데이터셋 구축 시, 토지피복을 연구하는 다양한 인공지능 분야에 활용될 것으로 기대된다.


The purpose of this study was to determine ways to increase efficiency in constructing and verifying artificial intelligence learning data on land cover using aerial and satellite images, and in applying the data to AI learning algorithms. To this end, multi-resolution datasets of 0.51 m and 10 m each for 8 categories of land cover were constructed using high-resolution aerial images and satellite images obtained from Sentinel-2 satellites. Furthermore, fine data (a total of 17,000 pieces) and coarse data (a total of 33,000 pieces) were simultaneously constructed to achieve the following two goals: precise detection of land cover changes and the establishment of large-scale learning datasets. To secure the accuracy of the learning data, the verification was performed in three steps, which included data refining, annotation, and sampling. The learning data that was finally verified was applied to the semantic segmentation algorithms U-Net and DeeplabV3+, and the results were analyzed. Based on the analysis, the average accuracy for land cover based on aerial imagery was 77.8% for U-Net and 76.3% for Deeplab V3+, while for land cover based on satellite imagery it was 91.4% for U-Net and 85.8% for Deeplab V3+. The artificial intelligence learning datasets on land cover constructed using high-resolution aerial and satellite images in this study can be used as reference data to help classify land cover and identify relevant changes. Therefore, it is expected that this study's findings can be used in the future in various fields of artificial intelligence studying land cover in constructing an artificial intelligence learning dataset on land cover of the whole of Korea.

KCI등재

5천리안위성 2A호 고속 관측 영상의 시·공간 해상도가 중규모 대기운동벡터 산출에 미치는 영향 분석

저자 : 김희애 ( Hee-ae Kim ) , 정성래 ( Sung-rae Chung ) , 오수민 ( Soo Min Oh ) , 이병일 ( Byung-il Lee ) , 신인철 ( In-chul Shin )

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 5호 발행 연도 : 2021 페이지 : pp. 885-901 (17 pages)

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천리안위성 2A호의 2분 주기 고속 관측(rapid-scan) 자료를 이용하여, 가시·수증기·적외 채널의 시간 해상도와 표적의 크기가 해당 채널의 중규모 대기운동벡터 생산에 미치는 영향을 분석하였다. 중규모 대기운동벡터 산출을 위하여 2-10분의 영상 시간 간격 변화 하에서 표적의 크기를 8×8에서 40×40 화소 크기로 변환시키며, 시·공간적인 조건 변화에 따른 벡터 생산량과 평균 속력, 오차 특성의 변화 양상을 비교하였다. 그 결과, 표적의 크기가 작을수록 위성의 시간 간격 변화에 따른 벡터 개수의 변화와, 표준화된 평균 제곱근 편차(Normalized Root Mean Squared Vector Difference; NRMSVD) 값의 변화가 더욱 뚜렷해졌다. 또한 고도별 오차 특성 분석 결과에서는 평균 속력이 낮고 대기 현상의 시·공간 규모가 작은 하층(700-1000 hPa)의 경우, 짧은 시간 간격의 영상 자료와 작은 표적을 이용하는 것이 벡터 산출에 더욱 유리하게 작용하는 것을 확인할 수 있었다. 위성의 시간 간격과 표적의 크기는 대기 순환의 시·공간 규모와 밀접한 연관이 있는 요소이다. 따라서, 대기운동벡터 활용 목적에 맞게 표적 크기와 위성 시간 간격을 최적화하는 과정이 필요하며, 중규모 기상현상의 실황 분석을 위한 대기운동벡터 산출 알고리즘에서는 표적 크기와 영상 시간 간격을 각각 16×16, 4분으로 설정해주는 것이 가장 적합하다고 판단된다.


This paper illustrates the impact of the temporal gap between satellite images and target size in mesoscale atmospheric motion vector (AMV) algorithm. A test has been performed using GEO-KOMPSAT-2A (GK2A) rapid-scan data sets with a temporal gap varying between 2 and 10 minutes and a target size between 8×8 and 40×40. Results show the variation of the number of AMVs produced, mean AMV speed, and validation scores as a function of temporal gap and target size. As a results, it was confirmed that the change in the number of vectors and the normalized root-mean squared vector difference (NRMSVD) became more pronounced when smaller targets are used. In addition, it was advantageous to use shorter temporal gap and smaller target size for the AMV calculation in the lower layer, where the average speed is low and the spatio-temporal scale of atmospheric phenomena is small. The temporal gap and the target size are closely related to the spatial and temporal scale of the atmospheric circulation to be observed with AMVs. Thus, selecting the target size and temporal gap for an optimum calculation of AMVs requires considering them. This paper recommends that the optimized configuration to be used operationally for the near-real time analysis of mesoscale meteorological phenomena is 4-min temporal gap and 16×16 pixel target size, respectively.

KCI등재

6오픈소스 GIS 프로그램의 지형인자 계산 비교: 도서지역 경사도와 지형습윤지수 중심으로

저자 : 이보라 ( Bora Lee ) , 이호상 ( Ho-sang Lee ) , 이광수 ( Gwang-soo Lee )

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 5호 발행 연도 : 2021 페이지 : pp. 903-916 (14 pages)

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지형은 고도, 경사, 측면으로 설명되는 지표면의 물리적인 모양을 나타내는 것으로 지형적 조건에 따라 에너지의 이동이 결정된다. 이것은 태양 에너지를 얼마나 많이 받을지, 바람이나 비가 얼마나 많은 영향을 미칠지 등에 대한 중요한 결정 요인들로 지표면 상에 존재하는 모든 생물, 특히 산림 식생의 입지 환경에 큰 영향을 준다. 도서지역 산림과 같이 자연적으로 형성된 지형 인자가 산림 식생의 생태환경을 결정하는 요인이 될 때 보다 정확한 지형 인자들의 계산은 도서산림의 입지환경을 이해하는데 매우 중요하다. 최근에는 연구자, 학교, 산업 및 정부를 위해 수많은 무료오픈소스 소프트웨어 지리정보시스템 프로그램(Free Open Source Software Geographic Information Systems, FOSS GIS)들이 이러한 지형인자들을 보다 정확하게 계산하기 위해 다양한 알고리즘을 적용하고 있다. FOSS GIS 프로그램은 사용자 요구에 맞게 수정이 가능한 유연한 알고리즘을 제공한다. 이와 같은 수요에 맞춰 이 연구에서는 지형 분석이 특히 중요한 도서지역 산림을 대상으로 하여 FOSS GIS 프로그램들의 지형인자 계산 결과값을 비교해 보고 향후 지역 생태 연구에 있어 지형 인자 계산 방법을 결정할 때 그 기준을 마련하고자 한다. 연구 지역은 전라남도 도서 지역을 대상으로 하였고 FOSS GIS 프로그램 중 가장 널리 사용되는 GRASS GIS와 SAGA GIS로 처리하였다. 입지환경에 있어 가장 널리 사용되는 설명인자인 경사도와 TWI(Topographical Wetness Index) 지도를 각 FOSS GIS 프로그램으로 생성하고 그 차이를 분석하여 각 FOSS GIS 프로그램의 장단점을 토의하였다.


An area's topography refers to the shape of the earth's surface, described by its elevation, slope, and aspect, among other features. The topographical conditions determine energy flows that move water and energy from higher to lower elevations, such as how much solar energy will be received and how much wind or rain will affect it. Another common factor, the topographic wetness index (TWI), is a calculation in digital elevation models of the tendency to accumulate water per slope and unit area, and is one of the most widely referenced hydrologic topographic factors, which helps explain the location of forest vegetation. Analyses of topographical factors can be calculated using a geographic information system (GIS) program based on digital elevation model (DEM) data. Recently, a large number of free open source software (FOSS) GIS programs are available and developed for researchers, industries, and governments. FOSS GIS programs provide opportunities for flexible algorithms customized for specific user needs. The majority of biodiversity in island areas exists at about 20% higher elevations than in land ecosystems, playing an important role in ecological processes and therefore of high ecological value. However, island areas are vulnerable to disturbances and damage, such as through climate change, environmental pollution, development, and human intervention, and lacks systematic investigation due to geographical limitations (e.g. remoteness; difficulty to access). More than 4,000 of Korea's islands are within a few hours of its coast, and 88% are uninhabited, with 52% of them forested. The forest ecosystems of islands have fewer encounters with human interaction than on land, and therefore most of the topographical conditions are formed naturally and affected more directly by weather conditions or the environment. Therefore, the analysis of forest topography in island areas can be done more precisely than on its land counterparts, and therefore has become a major focus of attention in Korea. This study is focused on calculating the performance of different topographical factors using FOSS GIS programs. The test area is the island forests in Korea's south and the DEM of the target area was processed with GRASS GIS and SAGA GIS. The final slopes and TWI maps were produced as comparisons of the differences between topographic factor calculations of each respective FOSS GIS program. Finally, the merits of each FOSS GIS program used to calculate the topographic factors is discussed.

KCI등재

7무인기 기반 다중분광 영상을 이용한 벼 쓰러짐 영역의 특성 분석

저자 : 문현동 ( Hyun-dong Moon ) , 류재현 ( Jae-hyun Ryu ) , 나상일 ( Sang-il Na ) , 장선웅 ( Seon Woong Jang ) , 신서호 ( Seo-ho Sin ) , 조재일 ( Jaeil Cho )

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 5호 발행 연도 : 2021 페이지 : pp. 917-926 (10 pages)

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벼 쓰러짐은 벼농사의 대표적인 기상재해 피해로써 강한 바람과 강우로 발생한다. 원격탐사 기법은 넓은 지역의 벼 쓰러짐을 효과적으로 탐지하기에 적절한 방법이다. 실제로 벼 쓰러짐은 벼 키가 최대인 생육 시기에 주로 발생하여 군락의 큰 구조적 변화를 불러오기 때문에 분광 반사도 차이를 야기한다. 따라서, 본고에서는 나주에 위치한 전남농업기술원의 2020년 태풍에 의한 논벼 피해를 444 nm부터 842 nm까지 10개 밴드로 구성된 카메라 영상으로 분석하였다. 드론 영상마다 벼 쓰러짐 피해를 받은 영역과 벼 쓰러짐 피해가 없는 영역으로 구분하여 벼 쓰러짐 영역의 분광 반사도 특성 차이와 식생 탐지에 주로 사용되는 식생지수인 NDVI (Normalized Difference Vegetation Index), NDRE (Normalized Difference Red Edge), CCI (Chlorophyll Carotenoid Index)의 변화를 살펴보았다. 반사도 값의 변화는 밴드6(668 nm)에서 가장 적었으며, 이를 중심으로 밴드 파장이 감소와 증가할수록 일반 논벼 보다 쓰러짐 영역 반사도가 커졌다. 또한, 쓰러진 벼를 묶어 세운 복구 지역은 대부분의 밴드에 걸쳐 반사도가 크게 감소함을 볼 수 있었다. NDVI와 NDRE는 벼 쓰러짐 영역에 대해 민감하게 반응하였으나, 그 반응 대상 및 정도는 서로 달랐다. 본 연구의 결과는 향후 드론과 위성을 이용한 벼 쓰러짐 피해 조사 알고리즘에 기여될 것으로 기대한다.


Lodging rice is one of critical agro-meteorological disasters. In this study, the UAV-based multispectral imageries before and after rice lodging in rice paddy field of Jeollanamdo agricultural research and extension services in 2020 was analyzed. The UAV imagery on 14th Aug. includes the paddy rice without any damage. However, 4th and 19th Sep. showed the area of rice lodging. Multispectral camera of 10 bands from 444 nm to 842 nm was used. At the area of restoration work against lodging rice, the reflectance from 531 nm to 842 nm were decreased in comparison to un-lodging rice. At the area of lodging rice, the reflectance of around 668 nm had small increases. Further, the blue and NIR (Near-Infrared) wavelength had larger. However, according to the types of lodging, the change of reflectance was different. The NDVI (Normalized Difference Vegetation Index) and NDRE (Normalized Difference Red Edge) shows dome sensitivities to lodging rice, but they were different to types of lodging. These results will be useful to make algorithm to detect the area of lodging rice using a UAV.

KCI등재

8신경망 모델을 사용한 편대비행 저궤도위성 가속도계 데이터 예측 기법

저자 : 김민규 ( Mingyu Kim ) , 김정래 ( Jeongrae Kim )

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 5호 발행 연도 : 2021 페이지 : pp. 927-938 (12 pages)

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편대 비행하는 저궤도위성에는 비슷한 크기의 비중력 섭동이 일정한 시간 차이를 두고 가해진다. 이러한 시간상관관계를 이용하면 한 개 위성의 가속도계에서 측정된 가속도 값으로 다른 편대비행 저궤도위성의 비중력가속도를 추정할 수 있다. 편대비행 저궤도위성인 GRACE 및 GRACE-FO 위성에서 한 개 위성의 가속도계 데이터를 사용할 수 없는 기간이 존재하는데, 앞서 기술된 시간 이식 기법이 JPL (Jet Propulsion Laboratory)에서 공식적으로 가속도계 데이터 복원 시 사용되고 있다. 본 논문에서는 기존의 시간 이식 기법의 가속도계 추정 정확도를 개선하기 위하여 신경망 (neural network; NN) 모델 기반 편대비행 저궤도위성 가속도계 데이터 추정 방법을 제안하였다. 시간 이식 기법은 위성의 위치 및 우주환경요소 등을 반영할 수 없지만, NN 모델은 이를 모델 입력으로 사용할 수 있으므로 예측 정확도를 높일 수 있다. 1개월간 NN 모델을 사용하여 가속도계 예측 시험을 수행하고 시간 이식 기법과 예측 정확도를 비교하였다. 그 결과 along-track 및 radial 방향에서 NN 모델의 가속도계 데이터의 예측 오차는 시간 이식 기법에 비해 각각 55.0%, 40.1% 감소하였다.


A similar magnitude of non-gravitational perturbations are act on the formation flying low earth orbit satellites with a certain time difference. Using this temporal correlation, the non-gravity acceleration of the low earth orbiting satellites can be transferred for the other satellites. There is a period in which the accelerometer data of one satellite is unavailable for GRACE and GRACE-FO satellites. In this case, the accelerometer data transplant method described above is officially used to recover the accelerometer data at the Jet Propulsion Laboratory (JPL). In this paper, we proposed a model for predicting accelerometer data of formation flying low earth orbit satellites using a neural network (NN) model to improve the estimation accuracy of the transplant method. Although the transplant method cannot reflect the satellite's position and space environmental factors, the NN model can use them as model inputs to increase the prediction accuracy. A prediction test of an accelerometer data using NN model was performed for one month, and the prediction accuracy was compared with the transplant method. The NN model outperforms the transplant method with 55.0% and 40.1% error reduction in the along-track and radial directions, respectively.

KCI등재

9산불 후 식생 회복 모니터링을 위한 Sentinel-2 위성영상의 RGB 합성기술

저자 : 김상일 ( Sang-il Kim ) , 안도섭 ( Do-seob Ahn ) , 김승철 ( Seung-chul Kim )

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 5호 발행 연도 : 2021 페이지 : pp. 939-946 (8 pages)

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산불로 인한 피해지역의 산림 변화를 모니터링하는 것은 식생복원에 중요한 정보를 제공하며, 자연 재해를 완화하고 복구하기 위해 공간정보를 가지는 원격탐사 자료는 모니터링에 필요한 유용한 정보를 제공하는 것으로 알려져 있다. 하지만 원격탐사자료를 활용한 복구 측면에 초점 두어 연구된 사례가 미비한 상황이다. 본 연구는 화재 후 식생회복을 모니터링하기 위한 것으로, Sentinel-2 위성 데이터를 사용하여 산불 피해 지역을 모니터링하는 방법을 제시하는 것을 목적으로 한다. 산불피해지역의 식생회복 모니터링을 위해 Tasseled Cap 선형회귀 추세를 기반으로 RGB 합성기술을 제안하였다. 이러한 위성영상을 활용한 원격탐사 시각화 기법을 통해 효과적인 모니터링 가능성을 확인할 수 있었다.


Monitoring of post wildfire provides important information for vegetation restoration. In particular, remote sensing data are known to provide useful information necessary for monitoring. However, there are insufficient research results which is monitoring the vegetation recovery using remote sensing data. This study is directed to monitoring post-wildfire vegetation restoration. It proposes a method for monitoring vegetation restoration using Sentinel-2 satellite data by compositing Tasseled Cap linear regression trend in a post wildfire study sites. Although it is a simple visualization technique using satellite images, it was able to confirm the possibility of effective monitoring.

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10무인비행체 탑재 다중분광 센서별 반사율 및 식생지수 변화 비교

저자 : 이경도 ( Kyung-do Lee ) , 안호용 ( Ho-yong Ahn ) , 류재현 ( Jae-hyun Ryu ) , 소규호 ( Kyu-ho So ) , 나상일 ( Sang-il Na )

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 5호 발행 연도 : 2021 페이지 : pp. 947-958 (12 pages)

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본 연구는 무인비행체에 탑재해서 활용되고 있는 다중분광 센서의 센서별 반사율 및 식생지수를 산정하여 시계열 작황분석을 위한 센서별, 센서간 활용 가능성을 평가하기 위해 수행하였다. RedEdge-MX, S110 NIR, Sequioa, P4M 등 4종의 무인비행체 탑재 다중분광센서에 대하여 2020년 9월 14일과 9월 15일에 걸쳐 오전, 오후 각 1회, 총 4회씩 항공영상을 촬영하고 반사율 및NDVI를 산정하여 비교하였다. 반사율의 경우 모든 센서에서 시계열 변동계수가 평균 약 10% 이상의 값을 보여 활용에는 한계가 있는 것으로 나타났다. 작물 시험구에 대한 센서별NDVI 변동계수는 식생이 우거져 활력도가 높은 시험구에서 평균 1.2~3.6%의 값을 보여 5% 이내의 변동성을 보였다. 그러나 이는 청천일의 변동계수에 비해서는 높은 값을 보인 것으로서 실험 기간 동안 오전, 오후에 구름 등 기상환경이 달랐기 때문으로 판단되며 시계열 작황 분석을 위한 정밀NDVI 산정 시에는 일정한 광 환경을 유지할 수 있는 촬영 계획 수립과 이행이 필요할 것으로 판단된다. 무인비행체 다중분광센서 간NDVI를 상호 비교한 결과 본 실험에서는 RedEdeg-MX 센서의 경우 안정적인 광 환경 내에서 동종의 센서를 여러 대 사용하더라도NDVI 값의 특별한 보정 없이 함께 활용할 수 있을 것으로 판단된다. RedEdge-MX, P4M, Sequioa 센서는 상호 선형적인 관계를 보였으나NDVI 간의 off-set 보정을 통한 공동 활용 가능성 평가를 위해서는 보완 실험이 필요할 것으로 생각된다.


This study was conducted to provide basic data for crop monitoring by comparing and analyzing changes in reflectance and vegetation index by sensor of multi-spectral sensors mounted on unmanned aerial vehicles. For four types of unmanned aerial vehicle-mounted multispectral sensors, such as RedEdge-MX, S110 NIR, Sequioa, and P4M, on September 14 and September 15, 2020, aerial images were taken, once in the morning and in the afternoon, a total of 4 times, and reflectance and vegetation index were calculated and compared. In the case of reflectance, the time-series coefficient of variation of all sensors showed an average value of about 10% or more, indicating that there is a limit to its use. The coefficient of variation of the vegetation index by sensor for the crop test group showed an average value of 1.2 to 3.6% in the crop experimental sites with high vitality due to thick vegetation, showing variability within 5%. However, this was a higher value than the coefficient of variation on a clear day, and it is estimated that the weather conditions such as clouds were different in the morning and afternoon during the experiment period. It is thought that it is necessary to establish and implement a UAV flight plan. As a result of comparing the NDVI between the multi-spectral sensors of the unmanned aerial vehicle, in this experiment, it is thought that the RedEdeg-MX sensor can be used together without special correction of the NDVI value even if several sensors of the same type are used in a stable light environment. RedEdge-MX, P4M, and Sequioa sensors showed a linear relationship with each other, but supplementary experiments are needed to evaluate joint utilization through off-set correction between vegetation indices.

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1Analyzing the Evolution of Summer Thermal Anomalies in Busan Using Remote Sensing and Spatial Statistical Tool

저자 : Nkwain Wilfred Njungwi , Daeun Lee , Minji Kim , Cheonggil Jin , Chuluong Choi

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 4호 발행 연도 : 2021 페이지 : pp. 665-685 (21 pages)

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This study focused on the a 20-year evaluation of the dynamism of critical thermal anomalies in Busan metropolitan area prompted by unusual infrastructural development and demographic growth rate. Archived Landsat thermal data derived-LST was the major input for UTFVI and hot spot analysis (Getis-Ord Gi). Results revealed that the surface urban heat island-affected area has gradually expanded overtime from 23.32% to 32.36%; while the critical positive thermal anomalies (level-3 hotspots) have also spatially increased from 19.88% in 2000 to 23.56% in 2020, recording a net LST difference of > 5°C between the maximum level-3 hotspot and minimum level-3 coldspot each year. It is been observed that thermal conditions of Busan have gradually deteriorated with time, which is potentially inherent in the rate of urban expansion. Thus, this work serves as an eye-opener to powers that be, to think and act constructively towards a sustainable thermal conform for city dwellers.

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2Application of High-spatial-resolution Satellite Images to Monitoring Coral Reef Habitat Changes at Weno Island Chuuk, Micronesia

저자 : Jong-kuk Choi , Joo-hyung Ryu , Jee-eun Min

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 4호 발행 연도 : 2021 페이지 : pp. 687-698 (12 pages)

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We present quantitative estimations of changes in the areal extent of coral reef habitats at Weno Island, Micronesia, using high-spatial-resolution remote sensing images and field observations. Coral reef habitat maps were generated from Kompsat-2 satellite images for September 2008 and September 2010, yielding classifications with 78.6% and 72.4% accuracy, respectively, which is a relatively high level of agreement. The difference between the number of pixels occupied by each seabed type was calculated, revealing that the areal extent of living corals decreased by 8.2 percentage points between 2008 and 2010. This result is consistent with a comparison of the seabed types determined by field observations. This study can be used as a basis for remediation planning to diminish the impact of changes in coral reefs.

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3Analysis of Spectral Reflectance Characteristics Using Hyperspectral Sensor at Diverse Phenological Stages of Soybeans

저자 : Seung-hwan Go , Jin-ki Park , Jong-hwa Park

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 4호 발행 연도 : 2021 페이지 : pp. 699-717 (19 pages)

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South Korea is pushing for the advancement of crop production technology to achieve food self-sufficiency and meet the demand for safe food. A medium-sized satellite for agriculture is being launched in 2023 with the aim of collecting and providing information on agriculture, not only in Korea but also in neighboring countries. The satellite is to be equipped with various sensors, though reference data for ground information are lacking. Hyperspectral remote sensing combined with 1st derivative is an efficient tool for the identification of agricultural crops. In our study, we develop a system for hyperspectral analysis of the ground-based reflectance spectrum, which is monitored seven times during the cultivation period of three soybean crops using a PSR-2500 hyperspectral sensor. In the reflection spectrum of soybean canopy, wavelength variations correspond with stages of soybean growths. The spectral reflection characteristics of soybeans can be divided according to growth into the vegetative (V) stage and the reproductive (R) stage. As a result of the first derivative analysis of the spectral reflection characteristics, it is possible to identify the characteristics of each wavelength band. Using our developed monitoring system, we observed that the near-infrared (NIR) variation was largest during the vegetative (V1-V3) stage, followed by a similar variation pattern in the order of red-edge and visible. In the reproductive stage (R1-R8), the effect of the shape and color of the soybean leaf was reflected, and the pattern is different from that in the vegetative (V) stage. At the R1 to R6 stages, the variation in NIR was the largest, and red-edge and green showed similar variation patterns, but red showed little change. In particular, the reflectance characteristics of the R1 stage provides information that could help us distinguish between the three varieties of soybean that were studied. In the R7-R8 stage, close to the harvest period, the red-edge and NIR variation patterns and the visible variation patterns changed. These results are interpreted as a result of the large effects of pigments such as chlorophyll for each of the three soybean varieties, as well as from the formation and color of the leaf and stem. The results obtained in this study provide useful information that helps us to determine the wavelength width and range of the optimal band for monitoring and acquiring vegetation information on crops using satellites and unmanned aerial vehicles (UAVs)

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4Two-stage Deep Learning Model with LSTM-based Autoencoder and CNN for Crop Classification Using Multi-temporal Remote Sensing Images

저자 : Geun-ho Kwak , No-wook Park

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 4호 발행 연도 : 2021 페이지 : pp. 719-731 (13 pages)

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This study proposes a two-stage hybrid classification model for crop classification using multi-temporal remote sensing images; the model combines feature embedding by using an autoencoder (AE) with a convolutional neural network (CNN) classifier to fully utilize features including informative temporal and spatial signatures. Long short-term memory (LSTM)-based AE (LAE) is fine-tuned using class label information to extract latent features that contain less noise and useful temporal signatures. The CNN classifier is then applied to effectively account for the spatial characteristics of the extracted latent features. A crop classification experiment with multi-temporal unmanned aerial vehicle images is conducted to illustrate the potential application of the proposed hybrid model. The classification performance of the proposed model is compared with various combinations of conventional deep learning models (CNN, LSTM, and convolutional LSTM) and different inputs (original multi-temporal images and features from stacked AE). From the crop classification experiment, the best classification accuracy was achieved by the proposed model that utilized the latent features by fine-tuned LAE as input for the CNN classifier. The latent features that contain useful temporal signatures and are less noisy could increase the class separability between crops with similar spectral signatures, thereby leading to superior classification accuracy. The experimental results demonstrate the importance of effective feature extraction and the potential of the proposed classification model for crop classification using multi-temporal remote sensing images.

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5Analysis of Growth Characteristics Using Plant Height and NDVI of Four Waxy Corn Varieties Based on UAV Imagery

저자 : Chan-hee Jeong , Jong-hwa Park

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 4호 발행 연도 : 2021 페이지 : pp. 733-745 (13 pages)

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Although waxy corn varieties developed after the 1980s show differences depending on development stages and conditions, studies on the characteristics of waxy corn during the growth stage are rare. The subject of this study was a field survey and unmanned aerial vehicle (UAV) image acquisition of four waxy corn varieties cultivated in Idam-ri, Gammul-myeon, Goesan-gun, Korea. The study was conducted in four stages at intervals of two weeks after planting in 2019. The growth characteristics of each of the four varieties were analyzed using growth curves obtained based on field survey and UAV imagery data. The characteristics of each growth stage of the four varieties of corn, as assessed using normalized difference vegetation index (NDVI) and plant height (P.H.) values, were as follows. The growth model was identified as a model in which three-parameter logistic (3PL) curves reflect the growth characteristics of corn well. In particular, it was found that the variations in growth rate shown by P.H. and NDVI values clearly explain the differences between corn varieties. Among the four cultivars, growth and development first occurred at the early vegetative stage in Daehakchal, followed by Mibaek 2, Miheukchal, and finally Hwanggeummatchal. The variations in P.H. and NDVI were achieved quickly and earlier in Daehakchal, followed by Mibaek 2, Hwanggeummatchal, and Miheukchal. It was confirmed that these results reflected the characteristics of the fast white-type varieties, while the black-type varieties were delayed, as in a previous study. These results reflect the resistance to lodging that affects the cultivation environment and the response characteristics to nutrients and moisture. It was confirmed that UAV accurately provides growth information that is very useful for analyzing the growth characteristics of each corn variety.

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6Aerial Dataset Integration For Vehicle Detection Based on YOLOv4

저자 : Wael Omar , Youngon Oh , Jinwoo Chung , Impyeong Lee

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 4호 발행 연도 : 2021 페이지 : pp. 747-761 (15 pages)

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With the increasing application of UAVs in intelligent transportation systems, vehicle detection for aerial images has become an essential engineering technology and has academic research significance. In this paper, a vehicle detection method for aerial images based on the YOLOv4 deep learning algorithm is presented. At present, the most known datasets are VOC (The PASCAL Visual Object Classes Challenge), ImageNet, and COCO (Microsoft Common Objects in Context), which comply with the vehicle detection from UAV. An integrated dataset not only reflects its quantity and photo quality but also its diversity which affects the detection accuracy.
The method integrates three public aerial image datasets VAID, UAVD, DOTA suitable for YOLOv4. The training model presents good test results especially for small objects, rotating objects, as well as compact and dense objects, and meets the real-time detection requirements. For future work, we will integrate one more aerial image dataset acquired by our lab to increase the number and diversity of training samples, at the same time, while meeting the real-time requirements.

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7Establishment of Priority Update Area for Land Coverage Classification Using Orthoimages and Serial Cadastral Maps

저자 : Junyoung Song , Taeyeon Won , Su Min Jo , Yang Dam Eo , Jin Sue Park

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 4호 발행 연도 : 2021 페이지 : pp. 763-776 (14 pages)

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This paper introduces a method of selecting priority update areas for subdivided land cover maps by training orthoimages and serial cadastral maps in a deep learning model. For the experiment, orthoimages and serial cadastral maps were obtained from the National Spatial Data Infrastructure Portal. Based on the VGG-16 model, 51,470 images were trained on 33 subdivided classifications within the experimental area and an accuracy evaluation was conducted. The overall accuracy was 61.42%. In addition, using the differences in the classification prediction probability of the misclassified polygon and the cosine similarity that numerically expresses the similarity of the land category features with the original subdivided land cover class, the cases were classified and the areas in which the boundary setting was incorrect and in which the image itself was determined to have a problem were identified as the priority update polygons that should be checked by operators.

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8Spatial Gap-Filling of Hourly AOD Data from Himawari-8 Satellite Using DCT (Discrete Cosine Transform) and FMM (Fast Marching Method)

저자 : Youjeong Youn , Seoyeon Kim , Yemin Jeong , Subin Cho , Jonggu Kang , Geunah Kim , Yangwon Lee

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 4호 발행 연도 : 2021 페이지 : pp. 777-788 (12 pages)

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Since aerosol has a relatively short duration and significant spatial variation, satellite observations become more important for the spatially and temporally continuous quantification of aerosol. However, optical remote sensing has the disadvantage that it cannot detect AOD (Aerosol Optical Depth) for the regions covered by clouds or the regions with extremely high concentrations. Such missing values can increase the data uncertainty in the analyses of the Earth's environment. This paper presents a spatial gap-filling framework using a univariate statistical method such as DCT-PLS (Discrete Cosine Transform-based Penalized Least Square Regression) and FMM (Fast Matching Method) inpainting. We conducted a feasibility test for the hourly AOD product from AHI (Advanced Himawari Imager) between January 1 and December 31, 2019, and compared the accuracy statistics of the two spatial gap-filling methods. When the null-pixel area is not very large (null-pixel ratio < 0.6), the validation statistics of DCT-PLS and FMM techniques showed high accuracy of CC=0.988 (MAE=0.020) and CC=0.980 (MAE=0.028), respectively. Together with the AI-based gap-filling method using extra explanatory variables, the DCT-PLS and FMM techniques can be tested for the low-resolution images from the AMI (Advanced Meteorological Imager) of GK2A (Geostationary Korea Multi-purpose Satellite 2A), GEMS (Geostationary Environment Monitoring Spectrometer) and GOCI2 (Geostationary Ocean Color Imager) of GK2B (Geostationary Korea Multi-purpose Satellite 2B) and the high-resolution images from the CAS500 (Compact Advanced Satellite) series soon.

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9The Potential of Sentinel-1 SAR Parameters in Monitoring Rice Paddy Phenological Stages in Gimhae, South Korea

저자 : Nawally Umutoniwase , Seung-kuk Lee

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 4호 발행 연도 : 2021 페이지 : pp. 789-802 (14 pages)

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Synthetic Aperture Radar (SAR) at C-band is an ideal remote sensing system for crop monitoring owing to its short wavelength, which interacts with the upper parts of the crop canopy. This study evaluated the potential of dual polarimetric Sentinel-1 at C-band for monitoring rice phenology. Rice phenological variations occur in a short period. Hence, the short revisit time of Sentinel-1 SAR system can facilitate the tracking of short-term temporal morphological variations in rice crop growth. The sensitivity of SAR backscattering coefficients, backscattering ratio, and polarimetric decomposition parameters on rice phenological stages were investigated through a time-series analysis of 33 Sentinel-1 Single Look Complex images collected from 10th April to 25th October 2020 in Gimhae, South Korea. Based on the observed temporal variations in SAR parameters, we could identify and distinguish the phenological stages of the Gimhae rice growth cycle. The backscattering coefficient in VH polarisation and polarimetric decomposition parameters showed high sensitivity to rice growth. However, amongst SAR parameters estimated in this study, the VH backscattering coefficient realistically identifies all phenological stages, and its temporal variation patterns are preserved in both Sentinel-1A (S1A) and Sentinel-1B (S1B). Polarimetric decomposition parameters exhibited some offsets in successive acquisitions from S1A and S1B. Further studies with data collected from various incidence angles are crucial to determine the impact of different incidence angles on polarimetric decomposition parameters in rice paddy fields.

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10Shoreline Changes and Erosion Protection Effects in Cotonou of Benin in the Gulf of Guinea

저자 : Chan-su Yang , Dae-woon Shin , Min-jeong Kim , Won-jun Choi , Ho-kun Jeon

발행기관 : 대한원격탐사학회 간행물 : 대한원격탐사학회지 37권 4호 발행 연도 : 2021 페이지 : pp. 803-813 (11 pages)

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Coastal erosion has been a threat to coastal communities and emerged as an urgent problem. Among the coastal communities that are under perceived threat, Cotonou located in Benin, West Africa, is considered as one of the most dangerous area due to its high vulnerability. To address this problem, in 2013, the Benin authorities established seven groynes at east of Cotonou port, and two additional intermediate groynes have recently been integrated in April 2018. However, there is no quantitative analysis of groynes so far, so it is hard to know how effective they have been. To analyze effectiveness, we used optical satellite images from different time periods, especially 2004 and 2020, and then compared changes in length, width and area of shoreline in Cotonou. The study area is divided into two sectors based on the location of Cotonou port. The difference of two areas is that Sector 2 has groynes installed while Sector 1 hasn't. As result of this study, shoreline in Sector 1 showed accretion by recovering 1.20 ㎢ of area. In contrast, 3.67 ㎢ of Sector 2 disappeared due to coastal erosion, although it has groynes. This may imply that groynes helped to lessen the rate of average erosion, however, still could not perfectly stop the coastal erosion in the area. Therefore, for the next step, we assume it is recommended to study how to maximize effectiveness of groynes.

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