我正在尝试编码一个神经网络,可以预测一些数据。所以我用PyBrain来描述python。我发现Superviseddataset
很适合这个任务。我取了一些股票数据,把其中的5个值作为输入,把六分之一作为目标。然后我用buildNetwork
函数建立一个前馈网络,并用BackpropTrainer
对其进行训练。在
不管怎样,错误不会减少。它停留在~0.6,似乎在那里振荡。我试着调整动力和学习速度,但没用。我做错什么了?在
from pybrain.datasets import SupervisedDataSet
DS = SupervisedDataSet(5, 1)
DS.addSample((44.055, 44.54, 44.04, 43.975, 43.49), (42.04,))
DS.addSample((44.54, 44.04, 43.975, 43.49, 42.04), (42.6,))
DS.addSample((44.04, 43.975, 43.49, 42.04, 42.6), (42.46,))
DS.addSample((43.975, 43.49, 42.04, 42.6, 42.46), (41.405,))
DS.addSample((43.49, 42.04, 42.6, 42.46, 41.405), (42.385,))
DS.addSample((42.04, 42.6, 42.46, 41.405, 42.385), (42.655,))
DS.addSample((42.6, 42.46, 41.405, 42.385, 42.655), (41.53,))
DS.addSample((42.46, 41.405, 42.385, 42.655, 41.53), (40.09,))
DS.addSample((41.405, 42.385, 42.655, 41.53, 40.09), (39.8,))
DS.addSample((42.385, 42.655, 41.53, 40.09, 39.8), (40.2,))
DS.addSample((42.655, 41.53, 40.09, 39.8, 40.2), (39.915,))
DS.addSample((41.53, 40.09, 39.8, 40.2, 39.915), (40.21,))
DS.addSample((40.09, 39.8, 40.2, 39.915, 40.21), (40.34,))
DS.addSample((39.8, 40.2, 39.915, 40.21, 40.34), (41.195,))
DS.addSample((40.2, 39.915, 40.21, 40.34, 41.195), (41.595,))
DS.addSample((39.915, 40.21, 40.34, 41.195, 41.595), (41.975,))
DS.addSample((40.21, 40.34, 41.195, 41.595, 41.975), (42.045,))
DS.addSample((40.34, 41.195, 41.595, 41.975, 42.045), (40.13,))
DS.addSample((41.195, 41.595, 41.975, 42.045, 40.13), (38.99,))
DS.addSample((41.595, 41.975, 42.045, 40.13, 38.99), (39.81,))
DS.addSample((41.975, 42.045, 40.13, 38.99, 39.81), (40.23,))
DS.addSample((42.045, 40.13, 38.99, 39.81, 40.23), (40.47,))
DS.addSample((40.13, 38.99, 39.81, 40.23, 40.47), (40.45,))
DS.addSample((38.99, 39.81, 40.23, 40.47, 40.45), (40.01,))
DS.addSample((39.81, 40.23, 40.47, 40.45, 40.01), (40.23,))
DS.addSample((40.23, 40.47, 40.45, 40.01, 40.23), (40.2,))
DS.addSample((40.47, 40.45, 40.01, 40.23, 40.2), (41.605,))
DS.addSample((40.45, 40.01, 40.23, 40.2, 41.605), (42.1,))
DS.addSample((40.01, 40.23, 40.2, 41.605, 42.1), (42.135,))
DS.addSample((40.23, 40.2, 41.605, 42.1, 42.135), (41.95,))
DS.addSample((40.2, 41.605, 42.1, 42.135, 41.95), (41.145,))
DS.addSample((41.605, 42.1, 42.135, 41.95, 41.145), (40.635,))
DS.addSample((42.1, 42.135, 41.95, 41.145, 40.635), (41.25,))
DS.addSample((42.135, 41.95, 41.145, 40.635, 41.25), (41.19,))
DS.addSample((41.95, 41.145, 40.635, 41.25, 41.19), (42.065,))
DS.addSample((41.145, 40.635, 41.25, 41.19, 42.065), (42.025,))
DS.addSample((40.635, 41.25, 41.19, 42.065, 42.025), (42.09,))
DS.addSample((41.25, 41.19, 42.065, 42.025, 42.09), (41.79,))
DS.addSample((41.19, 42.065, 42.025, 42.09, 41.79), (43.11,))
from pybrain.tools.shortcuts import buildNetwork
FNN = buildNetwork(DS.indim, 15, DS.outdim, bias=True)
from pybrain.supervised.trainers import BackpropTrainer
TRAINER = BackpropTrainer(FNN, dataset=DS, learningrate = 0.005, \
momentum=0.1, verbose=True)
for i in range(1000):
TRAINER.train()
编辑:一些评论怀疑这些数据是否适合神经网络。因此,我在MATLAB中做了同样的网络,它工作得很好。11个训练周期后,误差小于0.002。在
此外,我试图使用PyBrain中的SupervisedDataset
,但这并不起作用。我现在没主意了。在
我找到了解决办法。结果是股票数据必须先标准化。所以我写了这个函数:
我将数据缩放到0和1之间,然后看-网络最终会学会的。在
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