pytorchでの機械学習用のコードを実装し,次に予測するコードを実装しています.
pytorchで学習したモデルを呼び出そうとしたら,モデルの呼び出しではなく,なぜか,呼び出したプログラムが開始してしまします.どなたか,正しい学習済みのモデルとクラス及び変数の呼び出し方を教えてください.2つのプログラムファイルは同じディレクトリにあり,学習プログラムはRECurrentSNN.py,予測プログラムはpredicted.pyです.
モデルのコードとクラス
import torch
import torch.nn as nn
import numpy as np
from bindsnet.network import Network
from bindsnet.network.nodes import Input, LIFNodes
from bindsnet.network.topology import Connection
from bindsnet.network.monitors import Monitor
from sklearn.model_selection import train_test_split
from bindsnet.encoding.loaders import poisson_loader
# モデルの定義
class LogisticRegression(nn.Module):
def __init__(self, input_size, num_classes):
super(LogisticRegression, self).__init__()
self.linear = nn.Linear(input_size, num_classes)
def forward(self, x):
output = self.linear(x)
_, predicted = torch.max(output,1) #定義しなおしました
return output
network = Network(dt=1.0)
input_size = 64
num_classes = 6
time = 32
_BATCH_SIZE = 300
num_epochs = 100
inpt = Input(64, shape=(1,64))
output = LIFNodes(64, thresh=-52 + torch.randn(64)) # m1のb
network.add_layer(inpt, name='A')
network.add_layer(output, name='E')
network.add_connection(Connection(inpt, output, w=torch.randn(inpt.n, output.n)), 'A', 'E')
network.add_connection(Connection(output, output, w=0.5*torch.randn(output.n, output.n)), 'E', 'E')
spikes = {}
for l in network.layers:
spikes[l] = Monitor(network.layers[l], state_vars=["s"], time=time)
network.add_monitor(spikes[l], name="%s_spikes" % l)
voltages = {"E": Monitor(network.layers["E"], ["v"], time=time)}
network.add_monitor(voltages["E"], name="E_voltages")
npzfile = np.load("C:/Users/nama/Desktop/myo-python-1.0.4/myo-armband-nn-master/data/train_set.npz")
x = npzfile['x']
y = npzfile['y']
x_train, x_test, y_train, y_test = train_test_split(x, y, test_size=0.33, random_state=42)
# tensor型に変換
x_train = torch.from_numpy(x_train).float()
y_train = torch.from_numpy(y_train).float()
x_train = torch.clamp(x_train, min=0, max=1000)
x_test = torch.from_numpy(x_test).float()
y_test = torch.from_numpy(y_test).long()
x_test = torch.clamp(x_test, min=0, max=1000)
loader = zip(poisson_loader(x_train * 0.64, time=64), iter(y_train))
training_pairs = []
for i, (datum, y_train) in enumerate(loader):
network.run(inputs={"A": datum}, time=time, input_time_dim=1)
training_pairs.append([spikes['E'].get('s').sum(0), y_train])
network.reset_state_variables()
if (i + 1) % 10 == 0: print('Train progress: (%d / 40)' % (i + 1))
if (i + 1) == 40: print(); break
model = LogisticRegression(input_size, num_classes); criterion = nn.CrossEntropyLoss() # m2に相当
optimizer = torch.optim.SGD(model.parameters(), lr=0.005)
# スパイクとラベルのトレーニング
correct, total = 0, 0
for epoch in range(num_epochs):
for i, (s, y_train) in enumerate(training_pairs):
optimizer.zero_grad()
output = model(s.float())
y_train = torch.reshape(y_train, (-1,)) # y_trainのサイズを[1], output=[1.6]
y_train = y_train.view(-1, 6)
y_train = torch.argmax(y_train, dim=-1)
loss = criterion(output, y_train.long())
loss.backward(); optimizer.step()
_, predicted = torch.max(output, 1)
total += 1
correct += int(predicted == y_train.long())
print('Accuracy of logistic regression on train examples: %2f %%\n ' % (100 * correct / total))
loader = zip(poisson_loader(x_test * 0.64, time=64), iter(y_test))
test_pairs = []
model.eval()
for i, (datum, y_test) in enumerate(loader):
network.run(inputs={"A": datum}, time=time, input_time_dim=1)
test_pairs.append([spikes['E'].get('s').sum(0), y_test])
network.reset_state_variables()
if (i + 1) % 100 == 0: print('Test progress: (%d / 500)' % (i + 1))
if (i + 1) == 500: print(); break
correct, total = 0, 0
for s, y_test in test_pairs:
output = model(s.float()); _, predicted = torch.max(output, 1)
y_test = torch.argmax(y_test)
total += 1
correct += int(predicted == y_test)
print('Accuracy of logistic regression on test examples: %2f %%\n ' % (100 * correct / total))
torch.save({
'epoch': epoch,
'model_state_dict': model.state_dict(),
'optimizer_state_dict': optimizer.state_dict(),
'loss': loss,
}, "C:/Users/name/Desktop/myo-python-1.0.4/bindsnet-master/bindsnet/pytorchsession/snn.pth")
checkpoint = torch.load("C:/Users/name/Desktop/myo-python-1.0.4/bindsnet-
master/bindsnet/pytorchsession/snn.pth")
model.load_state_dict(checkpoint["model_state_dict"])
optimizer.load_state_dict(checkpoint["optimizer_state_dict"])
epoch = checkpoint["epoch"]
optimizer = torch.optim.SGD(model.parameters(), lr=0.1)
torch.save(optimizer.state_dict(), "C:/Users/name/Desktop/myo-python-1.0.4/bindsnet-
master/bindsnet/pytorchsession/optimizer.pth" )
optimizer2 = torch.optim.SGD(model.parameters(), lr=0.1)
optimizer2.load_state_dict(torch.load("C:/Users/name/Desktop/myo-python-1.0.4/bindsnet-
master/bindsnet/pytorchsession/optimizer.pth"))
"""
予測プログラム
"""
from collections import deque
from threading import Lock
import myo
import time
import numpy as np
from time import sleep
import torch
import torch.nn as nn
from bindsnet.RECurrentSNN import LogistiRegression
model_path = "C:/Users/name/Desktop/myo-python-1.0.4/bindsnet-
master/bindsnet/pytorchsession/snn.pth"
class MyListener(myo.DeviceListener):
def __init__(self, queue_size=8):
self.lock = Lock()
self.emg_data_queue = deque(maxlen=queue_size)
self.orientation_data_queue = deque(maxlen=queue_size)
self.acceleration_data_queue = deque(maxlen=queue_size)
self.gyroscope_data_queue = deque(maxlen=queue_size)
self.rssi_data_queue = deque(maxlen=100)
self.pose = myo.Pose.rest
self.connected = False
self.battery_level = 100
self.emg_enabled = False
self.locked = False
self.rssi = None
self.emg = None
self.device_name = None
self.device = None
self.myo_firmware = None
self.arm = None
self.x_direction = None
self.sync = None
def get_emg_data(self):
with self.lock:
return list(self.emg_data_queue)
def get_orientation_data(self):
with self.lock:
return list(self.orientation_data_queue)
def get_gyroscope_data(self):
with self.lock:
return list(self.gyroscope_data_queue)
def get_accelerometor_data(self):
with self.lock:
return list(self.acceleration_data_queue)
if __name__ == '__main__':
myo.init(bin_path=r'C:\Users\name\Desktop\myo-sdk-win-0.9.0\bin')
HUB = myo.Hub()
listener = MyListener()
start = time.time()
temp = []
with HUB.run_in_background(listener.on_event):
while True:
data = listener.get_emg_data()
if time.time() - start >= 1:
response = np.argmax(np.bincount(temp))
print("Predicted gesture: {0}".format(response))
temp = []
start = time.time()
if len(data) > 0:
tmp = []
for v in listener.get_emg_data():
tmp.append(v[1])
tmp = list(np.stack(tmp).flatten())
if len(tmp) >= 64:
pred = torch.mean(predicted, feed_dict={x: np.array([tmp])})
#pred = sess.run(y_pred_cls, feed_dict={x: np.array([tmp])})
temp.append(pred[0])
sleep(0.01)
