Remote Sensing of Chlorophyll‐A in Case II Waters: A Novel Approach With Improved Accuracy Over Widely Implemented Turbid Water Indices

Menon, Harilal B.; Adhikari, Arjun

doi:10.1029/2018jc014052

Cited by 19 publications

(8 citation statements)

References 90 publications

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“…In the range 350-500 nm, all the leaf samples under study are manifesting some low reflectance coefficient (RC) of approximately 5 %. This is not surprising, since the chlorophyll-a and chlorophyll-b absorption peaks are respectively appearing at wavelengths of 440 and 460 nm [9,11,12,[19][20][21][22]. Rapid increase in reflectivity of the leaf samples under study is observed in the range of 490-520 nm values [11].…”

Section: Spectroscopy Diffused Reflection Vegetation Indices Leavementioning

confidence: 70%

Studying Optical Characteristics of Diffused Light Reflecting from Naturally Senescing Leaves of Deciduous Trees

2020

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Study object included leaves of deciduous trees in the Krasnodar Territory at different stages of senescing visually manifested in their color alteration. Study subject was the optical characteristics of light diffused reflection from green, yellow-green and yellow leaves of deciduous trees in the Krasnodar Territory during the autumn season. Work objective lies in identifying the possibility to establish differences between green leaves of deciduous trees, and yellow-green and yellow leaves of deciduous trees using the terrain multispectral and hyperspectral sounding methods, as well as collecting information on spectral characteristics of the diffused light being reflected from various biological objects. Results of quantitative and qualitative analysis of data obtained through the diffused light reflectance spectroscopy from leaves of deciduous trees are presented. Narrow-band vegetation indices mNDVI705, mSR705, CRI1, SIPI and PSRI were used in quantitative analysis of data on the diffused light reflection spectra obtained from green, yellow-green and yellow leaves of deciduous trees. It was revealed that the use of narrow-band vegetation indices in the remote sensing algorithms using multi- and hyperspectral cameras makes it possible to rather accurately distinguish leaves at different stages of senescing. Optical characteristics of diffused light reflection from green, yellow-green and yellow leaves of deciduous trees, which are typical species of trees in urban and rural plantings in the Krasnodar Territory, are described for the first time

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Section: Spectroscopy Diffused Reflection Vegetation Indices Leavementioning

confidence: 70%

Studying Optical Characteristics of Diffused Light Reflecting from Naturally Senescing Leaves of Deciduous Trees

2020

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“…In addition, a bimodal variability of chlorophyll-a concentration during summer monsoon occurs in this region. A new algorithm, Goa University Case II (GUC2), was developed to retrieve chl-a in optically complex waters and its validation with in situ observations from the eastern coastal Arabian Sea is useful for the chlorophyll estimations from this region [79]. GUC2 could identify two appropriate wavelengths for deriving chl-a and it could eliminate the effects of total suspended matter and coloured dissolved organic matter.…”

Section: Primary Productivity Of Mudbanksmentioning

confidence: 99%

Characteristics of Mudbanks along the Southwest Coast of India

2021

EESRR

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Mudbank is a unique phenomenon observed along the south-west coast of India among all the Indian coastal regions during the Southwest Monsoon Season. The scientific reasons behind the formation and its persistence are vague. Mudbank is considered as a boon to the fishermen of Kerala, as they are getting reasonable catches during the occurrence of mudbanks using indigenous boats from the calm sea, which otherwise is in a fury during the rough Southwest Monsoon Season. Since the region, the Arabian Sea, is significant as a carbon sink due to its very high productivity because of different coastal ocean features, variations in the smaller and highly restricted coastal processes due to climate change can have a significant impact on the rates of global warming. Here, we consolidate the previous publications on various aspects of mudbanks with the reports of the occurrence of mudbanks on the south-west coast of India. A model for the prediction of the formation and location of mudbanks, inclusive of all the intrinsic and extrinsic parameters involved, through an extensive study is much relevant as far as the socio-economic and food security significance is concerned. Here, we discuss the most conducive factors for the formation of mudbank and its characteristics with special reference to Alappuzha, where the frequency of occurrence of mudbanks is maximum among the Indian coastal regions.

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“…Band expansion phase. In line with the works of [5,49,50], who utilized band combinations as feature candidates in Chl-a concentration modeling, this phase aims to enrich the spectral information using band combination. The filter's kernel size used in this phase is 1 × 1 × 3, indicating that the convolution is performed in the spectral domain and that spectral enrichment is achieved using linear band combination.…”

Section: Network Structure Of Waternetmentioning

confidence: 99%

“…To obtain fair comparisons, we set the numbers of unknown parameters in WaterNet and the feedforward neural networks to be almost the same. The number of neurons in the input, hidden, and output layers of the three feedforward networks are (16,264,1), (16,70,50,1), and (16,44,44,44,1), respectively; whereas the numbers of unknowns are 4753, 4791, and 4753, respectively, as shown in Table 6. The proposed two-stage training is applied to WaterNet and the feedforward neural networks for a fair comparison.…”

Section: Comparison Between Waternet and Feedforward Neural Networkmentioning

confidence: 99%

WaterNet: A Convolutional Neural Network for Chlorophyll-a Concentration Retrieval

et al. 2020

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The retrieval of chlorophyll-a (Chl-a) concentrations relies on empirical or analytical analyses, which generally experience difficulties from the diversity of inland waters in statistical analyses and the complexity of radiative transfer equations in analytical analyses, respectively. Previous studies proposed the utilization of artificial neural networks (ANNs) to alleviate these problems. However, ANNs do not consider the problem of insufficient in situ samples during model training, and they do not fully utilize the spatial and spectral information of remote sensing images in neural networks. In this study, a two-stage training is introduced to address the problem regarding sample insufficiency. The neural network is pretrained using the samples derived from an existing Chl-a concentration model in the first stage, and the pretrained model is refined with in situ samples in the second stage. A novel convolutional neural network for Chl-a concentration retrieval called WaterNet is proposed which utilizes both spectral and spatial information of remote sensing images. In addition, an end-to-end structure that integrates feature extraction, band expansion, and Chl-a estimation into the neural network leads to an efficient and effective Chl-a concentration retrieval. In experiments, Sentinel-3 images with the same acquisition days of in situ measurements over Laguna Lake in the Philippines were used to train and evaluate WaterNet. The quantitative analyses show that the two-stage training is more likely than the one-stage training to reach the global optimum in the optimization, and WaterNet with two-stage training outperforms, in terms of estimation accuracy, related ANN-based and band-combination-based Chl-a concentration models.

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Remote Sensing of Chlorophyll‐A in Case II Waters: A Novel Approach With Improved Accuracy Over Widely Implemented Turbid Water Indices

Cited by 19 publications

References 90 publications

Studying Optical Characteristics of Diffused Light Reflecting from Naturally Senescing Leaves of Deciduous Trees

Studying Optical Characteristics of Diffused Light Reflecting from Naturally Senescing Leaves of Deciduous Trees

Characteristics of Mudbanks along the Southwest Coast of India

WaterNet: A Convolutional Neural Network for Chlorophyll-a Concentration Retrieval

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