def train_batch(aug, trainX, trainY, load_weight=True): print("[INFO] compiling model...") model = SRCNN() if load_weight and os.path.exists('my_model_weights.h5'): print("[INFO] import model weights...") model.load_weights('my_model_weights.h5') try: opt = Adam(lr=INIT_LR, decay=INIT_LR / EPOCHS) # opt = Adam(lr=INIT_LR) model.compile(loss="mean_squared_error", optimizer=opt, metrics=[psnr1]) current_time = datetime.now().strftime("%Y%m%d-%H:%M") filepath = 'train_model/model-ep{epoch:03d}-loss{loss:.3f}-psnr{psnr1:.3f}-' + current_time + '.h5' checkpoint = ModelCheckpoint(filepath, monitor='psnr1', verbose=1, save_best_only=True, mode='max', period=2) print("[INFO] training network...") H = model.fit_generator(aug.flow(trainX, trainY, batch_size=BS), steps_per_epoch=len(trainX) // BS, epochs=EPOCHS, callbacks=[checkpoint]) print("[INFO] training finish") except KeyboardInterrupt: print("[INFO] KeyboardInterrupted...") except Exception as e: print(e) else: plt.figure() N = EPOCHS # plt.plot(np.arange(0, N), H.history["loss"], label="train_loss") # plt.plot(np.arange(0, N), H.history["acc"], label="train_acc") plt.plot(np.arange(0, N), H.history["psnr1"], label="psnr") plt.xlabel("Epoch #") plt.ylabel("psnr") plt.legend(loc="upper left") plt.savefig("plot.png") finally: print("[INFO] serializing network...") model.save("./model.h5") model.save_weights('my_model_weights.h5')
#Saving trained model_weights in the current workspace . #make a folder named srcnn in your current workspace you are working in.In that folder your weights will be stored. json_string = srcnn.to_json() open(os.path.join('./srcnn/','srcnn_model.json'),'w').write(json_string) srcnn.save_weights(os.path.join('./srcnn/','srcnn_weight.hdf5')) else: dir_list = os.listdir(dirname_test) for img in dir_list: image = cv2.cvtColor(cv2.imread(os.path.join(dirname_test,img)),cv2.COLOR_BGR2GRAY) image = image[0:image.shape[0]-np.remainder(image.shape[0],scale),0:image.shape[1]-np.remainder(image.shape[1],scale)] Y_test = image.copy() X_test = cv2.resize(image, None, fx=1/scale, fy=1/scale) X_test = cv2.resize(X_test, None, fx= scale/1, fy= scale/1, interpolation=cv2.INTER_CUBIC) X_test = X_test.reshape(1,X_test.shape[0],X_test.shape[1],1) weight_filename = 'srcnn_weight.hdf5' model = SRCNN() model.compile(optimizer = optimizer,loss = 'mean_squared_error') model.load_weights(os.path.join('./srcnn/',weight_filename)) Y_pred = model.predict(X_test) X_test = X_test.reshape(X_test.shape[1],X_test.shape[2]) Y_pred = Y_pred.reshape(Y_pred.shape[1],Y_pred.shape[2]) cv2.imshow(X_test) cv2.imshow(Y_test) cv2.imshow(Y_pred)