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Creating a bounding model for counting cells in microscopy images.
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The final code and data for Jack Luna and Kody Politza's final project
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VERSO / GIV-Mathematics
MIT LicenseThis is a project repo for the Governor's Institute Mathematics Group in 2024
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Krystal A Maughan / phys256
MIT LicenseA set of curricular materials for Physics 256: Computational Physics, an active-learning course at the University of Vermont.
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Hannah R Ace / phys256
MIT LicenseA set of curricular materials for Physics 256: Computational Physics, an active-learning or self-directed course at the University of Vermont.
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Tim Fennell Laracy / phys256
MIT LicenseA set of curricular materials for Physics 256: Computational Physics, an active-learning or self-directed course at the University of Vermont.
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Evan Fennelly / phys256
MIT LicenseA set of curricular materials for Physics 256: Computational Physics, an active-learning course at the University of Vermont.
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Saheed Akanji Ajibade / phys256
MIT LicenseA set of curricular materials for Physics 256: Computational Physics, an active-learning or self-directed course at the University of Vermont.
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Emanuel Casiano-Diaz / phys256
MIT LicenseA set of curricular materials for Physics 256: Computational Physics, an active-learning or self-directed course at the University of Vermont.
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Robin A Rice / phys256
MIT LicenseA set of curricular materials for Physics 256: Computational Physics, an active-learning or self-directed course at the University of Vermont.
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Adrian Del Maestro / phys256
MIT LicenseA set of curricular materials for Physics 256: Computational Physics, an active-learning course at the University of Vermont.
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For cell segmentation using a Unet Architecture. Uses Tensorflow to segment microscopy image cells.
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