Created
July 15, 2020 11:49
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| import tensorflow.keras | |
| from PIL import Image, ImageOps | |
| import numpy as np | |
| # Disable scientific notation for clarity | |
| np.set_printoptions(suppress=True) | |
| # Load the model | |
| model = tensorflow.keras.models.load_model('keras_model.h5') | |
| # Create the array of the right shape to feed into the keras model | |
| # The 'length' or number of images you can put into the array is | |
| # determined by the first position in the shape tuple, in this case 1. | |
| data = np.ndarray(shape=(1, 224, 224, 3), dtype=np.float32) | |
| # Replace this with the path to your image | |
| image = Image.open('test_photo.jpg') | |
| #resize the image to a 224x224 with the same strategy as in TM2: | |
| #resizing the image to be at least 224x224 and then cropping from the center | |
| size = (224, 224) | |
| image = ImageOps.fit(image, size, Image.ANTIALIAS) | |
| #turn the image into a numpy array | |
| image_array = np.asarray(image) | |
| # display the resized image | |
| image.show() | |
| # Normalize the image | |
| normalized_image_array = (image_array.astype(np.float32) / 127.0) - 1 | |
| # Load the image into the array | |
| data[0] = normalized_image_array | |
| # run the inference | |
| prediction = model.predict(data) | |
| print(prediction) |
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