Estimation of Nitrogen Concentration in Walnut Canopies in Southern Xinjiang Based on UAV Multispectral Images

Wang, Yu; Feng, Chunhui; Ma, Yiru; Chen, Xiangyu; Liu, Bin; Yan, Shuicheng; Zhang, Ze; Zhang, Rui

doi:10.3390/agronomy13061604

Cited by 5 publications

(2 citation statements)

References 47 publications

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“…These features make drones increasingly applicable to agriculture. Assessing the field germination of soybean plants [71]; determining the nutritional status of spring wheat after the earing stage [72]; and monitoring nitrogen concentrations in walnut [73], cotton [74], or phenotyping in corn breeding [75] are just a few examples of what can be achieved using UAVs and spectral cameras in modern agriculture.…”

Section: Data and Sourcesmentioning

confidence: 99%

New Trends and Challenges in Precision and Digital Agriculture

Niedbała

Piekutowska

2023

Agronomy

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Section: Data and Sourcesmentioning

confidence: 99%

New Trends and Challenges in Precision and Digital Agriculture

Niedbała

Piekutowska

2023

Agronomy

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“…The traditional way to obtain orchard crown information was through manual field measurements, this method was usually high-cost, low-efficiency, and involved great uncertainty [9]. Therefore, it is crucial to explore a more cost-effective and efficient method to obtain accurate tree crown information in this context [10,11].…”

Section: Introductionmentioning

confidence: 99%

Remote Sensing Extraction of Crown Planar Area and Plant Number of Papayas Using UAV Images with Very High Spatial Resolution

Lai,

Ming,

Huang

et al. 2024

Agronomy

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The efficient management of commercial orchards strongly requires accurate information on plant growing status for the implementation of necessary farming activities such as irrigation, fertilization, and pest control. Crown planar area and plant number are two very important parameters directly relating to fruit growth conditions and the final productivity of an orchard. In this study, in order to propose a novel and effective method to extract the crown planar area and number of mature and young papayas based on visible light images obtained from a DJ Phantom 4 RTK, we compared different vegetation indices (NGRDI, RGBVI, and VDVI), filter types (high- and low-pass filters), and filter convolution kernel sizes (3–51 pixels). Then, Otsu’s method was used to segment the crown planar area of the papayas, and the mean–standard deviation threshold (MSDT) method was used to identify the number of plants. Finally, the extraction accuracy of the crown planar area and number of mature and young papayas was validated. The results show that VDVI had the highest capability to separate the papayas from other ground objects. The best filter convolution kernel size was 23 pixels for the low-pass filter extraction of crown planar areas in mature and young plants. As to the plant number identification, segmentation could be set to the threshold with the highest F-score, i.e., the deviation coefficient n = 0 for single young papaya plants, n = 1 for single mature ones, and n = 1.4 for crown-connecting mature ones. Verification indicated that the average accuracy of crown planar area extraction was 93.71% for both young and mature papaya orchards and 95.54% for extracting the number of papaya plants. This set of methods can provide a reference for information extraction regarding papaya and other fruit trees with a similar crown morphology.

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