| 12345678910111213141516171819202122232425262728293031323334353637383940414243444546474849505152535455565758596061626364656667686970717273747576 |
- import pydicom
- import numpy as np
- import matplotlib.pyplot as plt
- import os
- import csv
- import math
- import wavelet
- import network
- import keras
- import tensorflow as tf
- import random
- actions = [ lambda img: wavelet.rotate(img, 1)
- , lambda img: wavelet.rotate(img, 2)
- , lambda img: wavelet.rotate(img, 3)
- , lambda img: wavelet.rotate(img, 4)
- , lambda img: wavelet.rotate(img, 5)
- , lambda img: wavelet.rotate(img, 6)
- , lambda img: wavelet.rotate(img, 7)
- ]
- #while len(actions) > 4:
- # p = random.randint(0, len(actions) - 1)
- # del actions[p]
- genData = []
- labels = []
- data = []
- model = network.createModelHistogram()
- pos = 0
- first = True
- with open("mimx.csv") as f:
- for row in csv.reader(f, delimiter=","):
- if first or len(row) < 9:
- first = False
- continue
- n = f"{row[2]}"
- while len(n) < 4:
- n = f"0{n}"
- fileName = f"Proband {row[0]}/SE00000{row[1]}/{row[0]}_{n}.dcm_histogram.npy"
- print(pos, end="\r")
- pos += 1
- x = np.load(fileName, allow_pickle=False)
- y = network.toOneHot([1.0,2.0,3.0,4.0,5.0], float(row[7]))
- for _ in range(10):
- noise = [float(random.randint(0,4)) for _ in range(4096)]
- labels.append(y)
- data.append(np.log(1 + x + noise))
- print()
- print("Start Train")
- data = np.array(data)
- labels = np.array(labels)
- bestLoss = None
- for epoch in range(128):
- print(f"Epoch {epoch + 1}")
- h = model.fit(data, labels, epochs=1)
- h = h.history
- loss = h['loss']
- if bestLoss is None or loss < bestLoss:
- bestLoss = loss
- print(f"Update best loss to {bestLoss} and save model")
- network.save(model, "modelHistogram.keras")
- print("done")
|
