Q&A
pytorchベースのlogisticregressionをモデルにしたニューラルネットを作成したのですが,その精度が常に20パーセント台す.
精度が低いので直したいです.入力x[1,64]の配列なのでinput_sizeは64にしました.ラベルyは[1,6]配列です.
色々調べて,logisticregressionはsoftmaxを通す必要がないと書かれたいたのでsoftmaxを通していないです.
バッチサイズを10くらいにしてから,スケールアップしようと思ったのですが,常に20パーセント台です.精度が低すぎるのはハイパラメータの問題でしょうか?それとも他の問題でしょうか?どなたか,ご教示の程お願い致します.また,bindsnet[1]というライブラリーを使用しています.
[1] Bindsnet: https://bindsnet-docs.readthedocs.io/
##コード
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) 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/name/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) % 1 == 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 += y_train.size(0) 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))
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