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  - detection
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- This model is designed for detecting throw capture moments in Tekken 8 gameplay.
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- It is based on the VGG16 architecture, modified by removing the top layer to serve as a feature extractor.
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  The model was trained using Keras on a dataset comprising video compilations from Tekken 8 fights, resulting in a total of 701,990 images at a resolution of 640x360. Approximately 5,000 of these images feature throw captures. Training involved augmentation techniques such as slight color shifting and the addition of mild color or black-and-white noise to enhance model robustness.
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- The model underwent 65 training cycles, each consisting of 13 epochs.
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- In each cycle, a batch of 250 randomly selected images from the dataset was used, with at least 40 images depicting throw captures. The batch size was set to 20.
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  The custom top layer added for this task includes a Flatten layer followed by a Dense layer with 128 units and 'relu' activation, a Dropout layer with a rate of 0.4, and a final Dense layer with 1 unit and 'sigmoid' activation to predict throw captures.
 
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  - detection
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  ---
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+ This model is designed for detecting throw capture moments in Tekken 8 gameplay.\
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+ It is based on the VGG16 architecture, modified by removing the top layer to serve as a feature extractor.\
 
 
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  The model was trained using Keras on a dataset comprising video compilations from Tekken 8 fights, resulting in a total of 701,990 images at a resolution of 640x360. Approximately 5,000 of these images feature throw captures. Training involved augmentation techniques such as slight color shifting and the addition of mild color or black-and-white noise to enhance model robustness.
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+ The model underwent 65 training cycles, each consisting of 13 epochs.\
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+ In each cycle, a batch of 250 randomly selected images from the dataset was used, with at least 40 images depicting throw captures. The batch size was set to 20.\
 
 
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  The custom top layer added for this task includes a Flatten layer followed by a Dense layer with 128 units and 'relu' activation, a Dropout layer with a rate of 0.4, and a final Dense layer with 1 unit and 'sigmoid' activation to predict throw captures.