Sediment particle size curve. by Hui Zhang (7197)

“…The average relative flow of water-fertilizer-integrated irrigation under muddy-water conditions decreased with the increasing of irrigation frequency, and accelerate the clogging of dripper. …”

Variance analysis of average relative flow. by Hui Zhang (7197)

“…The average relative flow of water-fertilizer-integrated irrigation under muddy-water conditions decreased with the increasing of irrigation frequency, and accelerate the clogging of dripper. …”

S1 Graphical abstract - by Hui Zhang (7197)

“…The average relative flow of water-fertilizer-integrated irrigation under muddy-water conditions decreased with the increasing of irrigation frequency, and accelerate the clogging of dripper. …”

Photograph of drip irrigation tape. by Hui Zhang (7197)

“…The average relative flow of water-fertilizer-integrated irrigation under muddy-water conditions decreased with the increasing of irrigation frequency, and accelerate the clogging of dripper. …”

Position of each slice of anthracite. by Danan Zhao (20861666)

“…The results showed that the adsorption capacities of anthracite for these three gases are in the order of CO₂ > CH₄ > N₂, and that the adsorption capacity increases with increasing gas injection pressure. The CO₂/CH₄/N₂ gas molecule adsorption capacity of the anthracite macromolecular structure model decreases with increasing temperature. …”

Minimal data set. by Danan Zhao (20861666)

“…The results showed that the adsorption capacities of anthracite for these three gases are in the order of CO₂ > CH₄ > N₂, and that the adsorption capacity increases with increasing gas injection pressure. The CO₂/CH₄/N₂ gas molecule adsorption capacity of the anthracite macromolecular structure model decreases with increasing temperature. …”

Schematic of the experiment apparatus. by Danan Zhao (20861666)

“…The results showed that the adsorption capacities of anthracite for these three gases are in the order of CO₂ > CH₄ > N₂, and that the adsorption capacity increases with increasing gas injection pressure. The CO₂/CH₄/N₂ gas molecule adsorption capacity of the anthracite macromolecular structure model decreases with increasing temperature. …”

Physicochemical properties of CO₂, CH₄ and N₂. by Danan Zhao (20861666)

“…The results showed that the adsorption capacities of anthracite for these three gases are in the order of CO₂ > CH₄ > N₂, and that the adsorption capacity increases with increasing gas injection pressure. The CO₂/CH₄/N₂ gas molecule adsorption capacity of the anthracite macromolecular structure model decreases with increasing temperature. …”

Differences in mean number of papers (top) and co-authors (bottom) depending on (1) NI membership and (2) time joined NI. by William C. Barley (8915282)

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Regression estimates and incidence rate ratios from GLMER for number of papers (top) and coauthors (bottom). by William C. Barley (8915282)

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Summary of previous work. by Junyan Wang (4738518)

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Comparison of MAP@0.5 results from experiments. by Junyan Wang (4738518)

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YOLO11. by Junyan Wang (4738518)

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Structure of the SCI-YOLO11 network. by Junyan Wang (4738518)

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Comparative experimental results. by Junyan Wang (4738518)

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Algorithm operation steps. by Junyan Wang (4738518)

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SCI-YOLO11. by Junyan Wang (4738518)

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Dataset for insulator defect detection. by Junyan Wang (4738518)

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YOLOV8. by Junyan Wang (4738518)

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Faster-RCNN. by Junyan Wang (4738518)

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