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Fish-Finder: A robust small target detection method for aquaculture fish in low-quality underwater images.
J Fish Biol
November 2024
College of Information Engineering, Dalian Ocean University, Dalian, China.
Underwater fish object detection serves as a pivotal research direction in marine biology, aquaculture management, and computer vision, yet it poses substantial challenges due to the complexity of underwater environments, occultations, and the small-sized and frequently moving fish in aquaculture. Addressing these challenges, we propose a novel underwater fish object detection algorithm named Fish-Finder. First, we engendered a structure titled "C2fBF," utilizing the dual-path routing attention protocol of BiFormer.
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Antonie Van Leeuwenhoek
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Marine College, Shandong University, Weihai, 264209, China.
A Gram-staining-negative, dark pink, rod-shaped, amastigote and cellulose-degrading strain, designated H9, was isolated from intestinal contents of Nipponacmea schrenckii. The isolate was able to grow at 4-42 °C (optimum, 25 °C), at pH 6.5-9.
View Article and Find Full Text PDFThe Rarest and Purest Form of Generosity: Simone Weil's Attention and Medical Practice.
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Department of Medicine, Division of Hospital Medicine, University of Colorado School of Medicine, CU Anschutz Leprino Building, 12401 E. 17th Ave. 4th Floor, Aurora, CO, 80045, USA.
Attention is essential to the practice of medicine. It is required for expert and timely diagnoses and treatments, is implicated in the techniques and practices oriented toward healing, and enlivens the interpersonal dimensions of care. Attention enables witnessing, presence, compassion, and discernment.
View Article and Find Full Text PDFBioinspired Surfaces Derived from Acoustic Waves for On-Demand Droplet Manipulations.
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Department of Rheumatology and Immunology, Nanjing Drum Tower Hospital, School of Biological Science and Medical Engineering, Southeast University, Nanjing 210096, China.
The controllable manipulation and transfer of droplets are fundamental in a wide range of chemical reactions and even life processes. Herein, we present a novel, universal, and straightforward acoustic approach to fabricating biomimetic surfaces for on-demand droplet manipulations like many natural creatures. Based on the capillary waves induced by surface acoustic waves, various polymer films could be deformed into pre-designed structures, such as parallel grooves and grid-like patterns.
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