Predict Stock Trend Using Deep Learning
Predict Stock Trend Using Deep Learning

Predict Stock Trend Using Deep Learning

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Predicting the upcoming stock using Deep learning Model(Recurrent Neural Network)
Predict the Stock Trend Using Deep Learning
Predict the Stock Trend Using Deep Learning

In this article, we will build a model that predict stock trend using deep learning(specifically the RNN Model) . Remember, we are not interested in predicting the actual values as that will be far more complex compared to the prediction of the trend.

If you are new to deep learning, don’t worry I will try my best to givea simple and easy explanation of the whole tutorial. Also, I consider this particular project as an entry-level project. It is one of the simplest project that one must do with the recurrent neural networks.

So, the first question that comes in mind is What is Recurrent Neural Network?

To understand this, we have to understand the neural network first. Here, I assume that you are already familiar with machine learning. The neural network, also known as Artificial Neural Network (ANN), is made up of three stages. Those are input layer, the number of hidden layers, and the output layer. As the name suggests, the input layer is used to take input and feed it into the model. The output layer is used to gives the predicted outcome whereas the hidden layers are responsible for all mathematical computations(every unit or cell is responsible for doing small operations ). Know more about ANN here.

Artificial Neural Network
Artificial Neural Network

Recurrent Neural Networks(RNN) are one of the types of neural networks in which the output of one step in time act as the input for the next step in time. For example, in the sentence “I am hungry, I need food”, it is very important to remember the word hungry to predict food. Hence to predict the upcoming word, it is important to remember the previous words. And to resolve this kind of problem, RNN comes to rescue. The main feature of RNN is a hidden state that remembers the sequence information. RNN performs very well when it comes to sequence data like weather, stock market, text, etc. I will not go in great detail about the working of the RNN considering that the article is beginners friendly, but you can always google things 😄

Recurrent Neural Network
Recurrent Neural Network

Prerequisites:-

I assume that you are familiar with python and already have installed the python 3 in your systems. I have used a jupyter notebook for this tutorial. You can use the IDE of your like.

Dataset Used:-

The dataset that we have used for this tutorial is of NSE Tata Global stock and is available on GitHub.

Installing Required Libraries

For this project, you need to have the following packages installed in your python. If they are not installed, you can simply use pip install PackageName .

  • NumPy — This library provides fast computing n-dimensional array objects.
  • pandas — It provides a dataframe and series to perform manipulation and analysis on data.
  • matplotlib — This library helps in the visualization of data using various plots.
  • scikit-learn — It is a machine learning library that provides various tools and algorithms for predictive analysis. We will use its tools or functions for the preprocessing of the data.
  • Keras — It is a high level deep learning library built over TensorFlow to provide a simple implementation of neural networks. We have used it because it is beginners friendly and easy to implement.
  • TensorFlow — This library is required by the Keras as Keras runs over the TensorFlow itself.

LETS START CODING

So, lets start building our model that predict stock trend using deep learning. And for that firstly, we need to import the libraries that we will use in the project. Here, numpy is used to create NumPy arrays for training and testing data. pandas for making the data frame of the dataset and retrieving values easily. matplotlib.pyplot to plot the data like overall stock prices and predicted prices. MinMaxScaler from sklearn’s(scikit-learn) preprocessing package to normalize the data. We have imported Sequential  dense  LSTM  Dropout from Keras that will help to create a deep learning model. We will discuss these modules later on.

import numpy as np
import pandas as pd
import matplotlib.pyplot as plt
from sklearn.preprocessing import MinMaxScaler
#for deep learning model
from keras import Sequential
from keras.layers import Dense
from keras.layers import LSTM
from keras.layers import Dropout

Now, we have loaded our dataset as a data frame in a variable named df. Then, we have checked the shape of the dataset that comes out to be (2035,8). It  means there are 2035 rows and 8 columns in the dataset. After that, we have reversed the dataset upside-down so that the date starts from the oldest and goes to the most recent. In doing so we also have to reset our indexes as well. Then we have just printed some starting rows of the dataset with head() .

df = pd.read_csv('NSE-TATAGLOBAL.csv')
df.shape
df = df[::-1]
df = df.reset_index(drop=True)
df.head()
Dataset’s first 5 entries
Dataset’s first 5 entries

We have chosen only one feature that is Open to train our model. But you are free to choose more than one feature but then the code will be changed accordingly. In the training set, we have 2000 values while in testing we decided to have only 35. Then we simply printed the shape of both train_set test_set that comes out to be (2000,1) and (35,1) respectively.

open_price = df.iloc[:,1:2]
train_set = open_price[:2000].values
test_set = open_price[2000:].values
print("Train size: ",train_set.shape)
print("Test size:",test_set.shape)

Here, we have converted the Date column into DateTime format to plot it conveniently. Then simply used plot_date to plot the figure of the open price of stock throughout the timeline and saved the figure using savefig .

dates = pd.to_datetime(df['Date'])
plt.plot_date(dates, open_price,fmt='-')
plt.savefig("test1final.png")
Open price of NSE Tata Global (2010–2019)
Open price of NSE Tata Global (2010–2019)

Now, we have initialized the MinMaxScalar that is used to scale every value in the range of 0 and 1. It is a very important step because Neural Networks and other algorithms converge faster when features are on a relatively similar scale.

sc = MinMaxScaler()
train_set_scaled = sc.fit_transform(train_set)

Here comes the tricky part. Now, we have to make the data suitable for our RNN model i.e. making sequences of data with the target final value. Let me explain with the example. Suppose we have a dataset that has values from 1–10, and we have a sequence length of 3. In that case, our training data will look like this-

Example of sequence training data of Predict Stock Trend Using Deep Learning
Example of sequence training data

Here in the code, the length of the sequence is 60 that means only the previous 60 values will decide the next value, not the whole dataset. After that, we have created NumPy arrays of both x_train and y_train for fast computation and reshaped the training set according to the requirement of our model. The final shape of x_train comes out to be (1940, 60, 1).

x_train = []
y_train = []
for i in range(60,2000):
x_train.append(train_set_scaled[i-60:i,0])
y_train.append(train_set_scaled[i,0])
x_train = np.array(x_train)
y_train = np.array(y_train)x_train = np.reshape(x_train,(x_train.shape[0],x_train.shape[1],1))
x_train.shape

Now, we will create our model’s architecture. We have used Keras because it is quite easy to make a deep learning model with Keras compared to other available libraries. Here, we have initialized our Sequential object that acts as the bundler for all the layers inside the model. Our model in total has 4 LSTM layers and one dense layer.

LSTM(Long Short Term Memory) is a type of recurrent neural network that has some contextual state cells that act as long-term or short-term memory cells and these cells modulate the output. It is important when we need to predict the output based on the historical context rather than just the last input. For example, we have to predict the next number in the sequence 3,4,5,? then output is simply 6(x+1) but in the sequence 0,2,4,? the output is also but it also depends on contextual information.

Dropout is used to prevent the overfitting of the data by simply deactivating some of the units(neurons) at a time, In our case, 20% of units are deactivated at a time. In the end, we have a Dense layer with 1 unit that gives the predicted value. Then, we simply compiled our model with adam optimizer and fit our model on the data and run for 20 iterations i.e. epochs .

reg = Sequential()reg.add(LSTM(units = 50,return_sequences=True,input_shape=(x_train.shape[1],1)))
reg.add(Dropout(0.2))reg.add(LSTM(units = 50,return_sequences=True))
reg.add(Dropout(0.2))reg.add(LSTM(units = 50,return_sequences=True))
reg.add(Dropout(0.2))reg.add(LSTM(units=50))
reg.add(Dropout(0.2))reg.add(Dense(units=1))
reg.compile(optimizer = 'adam',loss='mean_squared_error')
reg.fit(x_train,y_train, epochs=20, batch_size =1,verbose=2)
Loss of every iteration (Predict Stock Trend Using Deep Learning)
Loss of every iteration

As you can see our model converges at 15 epochs and it took me around 90 mins to run 20 epochs in total. Yes RNN model takes time to train.

RNN Model takes time
RNN Model takes time

Now, its time to create input for the testing. The shape of input is (95, 1) and we scale this data as well.

input = open_price[len(open_price)-len(test_set)-60:].values
input.shape
input = sc.transform(input)

Here’s the final part, in which we simply make sequences of data to predict the stock value of the last 35 days. The first sequence contains data from 1–60 to predict 61st value, second sequence 2–61 to predict 62nd value, and so on. The shape of x_test is (35, 60, 1) that justifies the explanation.

x_test = []
for i in range(60,95):
x_test.append(input[i-60:i,0])
x_test = np.array(x_test)
x_test = np.reshape(x_test,(x_test.shape[0],x_test.shape[1],1))
x_test.shape

In the end, we simply predict the values using predict the function of our defined model and plot the last 35 actual and predicted values of a given stock.

pred = reg.predict(x_test)
pred = sc.inverse_transform(pred)
plt.plot(test_set,color='green')
plt.plot(pred,color='red')
plt.title('Stock_prediction')
plt.show()
Final Result of Predict Stock trend usisng Deep Learning
Final Result

Note: Both of the lines in the graph are independent i.e. actual values are not used to predict the trend. It seems like our predicted graph is lagging but trust me, it is only using its predicted values to predict the next value in the sequence. The code works well with this dataset, might not work this good with other datasets. The code for the same is open source, feel free to make changes.

Yes!! We have built a model that predict stock trend using deep learning. As you can see from the figure itself, our model was quite accurate in predicting the upcoming trend of the given stock.😎 Now you can become a great advisor in the share market. 😆

The model can further be improved by incorporating more featuresincreasing the dataset, and tuning the model itself.

The source code is available on GitHub. Please feel free to make improvements.

Thank you for your precious time.😊And I hope you like this tutorial.

Also, check my tutorial on Simple Text Summarizer Using Extractive Method

Pushkara

Woring in the field of I.T. for past 3 years and have expertise in the areas of Machine Learning, App Development(Flutter) and Automation. He loves to write about new technologies and simple projects that can help beginners to start with.

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