379 lines
16 KiB
Markdown
379 lines
16 KiB
Markdown
# Freqai
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!!! Note
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Freqai is still experimental, and should be used at the user's own discretion.
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Freqai is a module designed to automate a variety of tasks associated with
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training a predictive model to provide signals based on input features.
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Among the the features included:
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* Easy large feature set construction based on simple user input
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* Sweep model training and backtesting to simulate consistent model retraining through time
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* Smart outlier removal of data points from prediction sets using a Dissimilarity Index.
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* Data dimensionality reduction with Principal Component Analysis
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* Automatic file management for storage of models to be reused during live
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* Smart and safe data standardization
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* Cleaning of NaNs from the data set before training and prediction.
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* Automated live retraining (still VERY experimental. Proceed with caution.)
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## General approach
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The user provides FreqAI with a set of custom indicators (created inside the strategy the same way
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a typical Freqtrade strategy is created) as well as a target value (typically some price change into
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the future). FreqAI trains a model to predict the target value based on the input of custom indicators.
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FreqAI will train and save a new model for each pair in the config whitelist.
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Users employ FreqAI to backtest a strategy (emulate reality with retraining a model as new data is
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introduced) and run the model live to generate buy and sell signals.
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## Background and vocabulary
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**Features** are the quantities with which a model is trained. $X_i$ represents the
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vector of all features for a single candle. In Freqai, the user
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builds the features from anything they can construct in the strategy.
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**Labels** are the target values with which the weights inside a model are trained
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toward. Each set of features is associated with a single label, which is also
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defined within the strategy by the user. These labels look forward into the
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future, and are not available to the model during dryrun/live/backtesting.
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**Training** refers to the process of feeding individual feature sets into the
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model with associated labels with the goal of matching input feature sets to
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associated labels.
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**Train data** is a subset of the historic data which is fed to the model during
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training to adjust weights. This data directly influences weight connections
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in the model.
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**Test data** is a subset of the historic data which is used to evaluate the
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intermediate performance of the model during training. This data does not
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directly influence nodal weights within the model.
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## Install prerequisites
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Use `pip` to install the prerequisites with:
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`pip install -r requirements-freqai.txt`
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## Running from the example files
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An example strategy, an example prediction model, and example config can all be found in
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`freqtrade/templates/ExampleFreqaiStrategy.py`,
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`freqtrade/freqai/prediction_models/CatboostPredictionModel.py`,
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`config_examples/config_freqai.example.json`, respectively. Assuming the user has downloaded
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the necessary data, Freqai can be executed from these templates with:
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```bash
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freqtrade backtesting --config config_examples/config_freqai.example.json --strategy FreqaiExampleStrategy --freqaimodel CatboostPredictionModel --strategy-path freqtrade/templates --timerange 20220101-20220201
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```
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## Configuring the bot
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### Example config file
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The user interface is isolated to the typical config file. A typical Freqai
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config setup includes:
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```json
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"freqai": {
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"timeframes" : ["5m","15m","4h"],
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"train_period" : 30,
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"backtest_period" : 7,
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"identifier" : "unique-id",
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"corr_pairlist": [
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"ETH/USD",
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"LINK/USD",
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"BNB/USD"
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],
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"feature_parameters" : {
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"period": 24,
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"shift": 2,
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"weight_factor": 0,
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},
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"data_split_parameters" : {
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"test_size": 0.25,
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"random_state": 42
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},
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"model_training_parameters" : {
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"n_estimators": 100,
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"random_state": 42,
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"learning_rate": 0.02,
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"task_type": "CPU",
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},
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}
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```
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### Building the feature set
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Most of these parameters are controlling the feature data set. Features are added by the user
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inside the `populate_any_indicators()` method of the strategy by prepending indicators with `%`:
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```python
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def populate_any_indicators(self, pair, df, tf, informative=None, coin=""):
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informative['%-''%-' + coin + "rsi"] = ta.RSI(informative, timeperiod=14)
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informative['%-' + coin + "mfi"] = ta.MFI(informative, timeperiod=25)
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informative['%-' + coin + "adx"] = ta.ADX(informative, window=20)
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bollinger = qtpylib.bollinger_bands(qtpylib.typical_price(informative), window=14, stds=2.2)
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informative[coin + "bb_lowerband"] = bollinger["lower"]
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informative[coin + "bb_middleband"] = bollinger["mid"]
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informative[coin + "bb_upperband"] = bollinger["upper"]
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informative['%-' + coin + "bb_width"] = (
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informative[coin + "bb_upperband"] - informative[coin + "bb_lowerband"]
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) / informative[coin + "bb_middleband"]
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```
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The user of the present example does not want to pass the `bb_lowerband` as a feature to the model,
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and has therefore not prepended it with `%`. The user does, however, wish to pass `bb_width` to the
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model for training/prediction and has therfore prepended it with `%`._
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(Please see the example script located in `freqtrade/templates/FreqaiExampleStrategy.py` for a full example of `populate_any_indicators()`)
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The `timeframes` from the example config above are the timeframes of each `populate_any_indicator()`
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included metric for inclusion in the feature set. In the present case, the user is asking for the
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`5m`, `15m`, and `4h` timeframes of the `rsi`, `mfi`, `roc`, and `bb_width` to be included
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in the feature set.
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In addition, the user can ask for each of these features to be included from
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informative pairs using the `corr_pairlist`. This means that the present feature
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set will include all the `base_features` on all the `timeframes` for each of
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`ETH/USD`, `LINK/USD`, and `BNB/USD`.
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`shift` is another user controlled parameter which indicates the number of previous
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candles to include in the present feature set. In other words, `shift: 2`, tells
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Freqai to include the the past 2 candles for each of the features included
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in the dataset.
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In total, the number of features the present user has created is:_
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no. `timeframes` * no. `base_features` * no. `corr_pairlist` * no. `shift`_
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3 * 3 * 3 * 2 = 54._
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### Deciding the sliding training window and backtesting duration
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Users define the backtesting timerange with the typical `--timerange` parameter in the user
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configuration file. `train_period` is the duration of the sliding training window, while
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`backtest_period` is the sliding backtesting window, both in number of days (backtest_period can be
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a float to indicate sub daily retraining in live/dry mode). In the present example,
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the user is asking Freqai to use a training period of 30 days and backtest the subsequent 7 days.
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This means that if the user sets `--timerange 20210501-20210701`,
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Freqai will train 8 separate models (because the full range comprises 8 weeks),
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and then backtest the subsequent week associated with each of the 8 training
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data set timerange months. Users can think of this as a "sliding window" which
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emulates Freqai retraining itself once per week in live using the previous
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month of data.
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## Running Freqai
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### Training and backtesting
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The freqai training/backtesting module can be executed with the following command:
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```bash
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freqtrade backtesting --strategy FreqaiExampleStrategy --config config_freqai.example.json --freqaimodel CatboostPredictionModel --timerange 20210501-20210701
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```
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If this command has never been executed with the existing config file, then it will train a new model
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for each pair, for each backtesting window within the bigger `--timerange`._
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---
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**NOTE**
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Once the training is completed, the user can execute this again with the same config file and
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FreqAI will find the trained models and load them instead of spending time training. This is useful
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if the user wants to tweak (or even hyperopt) buy and sell criteria inside the strategy. IF the user
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*wants* to retrain a new model with the same config file, then he/she should simply change the `identifier`.
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This way, the user can return to using any model they wish by simply changing the `identifier`.
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---
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### Building a freqai strategy
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The Freqai strategy requires the user to include the following lines of code in `populate_ any _indicators()`
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```python
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from freqtrade.freqai.strategy_bridge import CustomModel
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def populate_indicators(self, dataframe: DataFrame, metadata: dict) -> DataFrame:
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# the configuration file parameters are stored here
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self.freqai_info = self.config['freqai']
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# the model is instantiated here
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self.model = CustomModel(self.config)
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print('Populating indicators...')
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# the following loops are necessary for building the features
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# indicated by the user in the configuration file.
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for tf in self.freqai_info['timeframes']:
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for i in self.freqai_info['corr_pairlist']:
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dataframe = self.populate_any_indicators(i,
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dataframe.copy(), tf, coin=i.split("/")[0]+'-')
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# the model will return 4 values, its prediction, an indication of whether or not the prediction
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# should be accepted, the target mean/std values from the labels used during each training period.
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(dataframe['prediction'], dataframe['do_predict'],
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dataframe['target_mean'], dataframe['target_std']) = self.model.bridge.start(dataframe, metadata)
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return dataframe
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```
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The user should also include `populate_any_indicators()` from `templates/FreqaiExampleStrategy.py` which builds
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the feature set with a proper naming convention for the IFreqaiModel to use later.
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### Building an IFreqaiModel
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Freqai has an example prediction model based on the popular `Catboost` regression (`freqai/prediction_models/CatboostPredictionModel.py`). However, users can customize and create
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their own prediction models using the `IFreqaiModel` class. Users are encouraged to inherit `train()`, `predict()`,
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and `make_labels()` to let them customize various aspects of their training procedures.
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### Running the model live
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Freqai can be run dry/live using the following command
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```bash
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freqtrade trade --strategy FreqaiExampleStrategy --config config_freqai.example.json --freqaimodel ExamplePredictionModel
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```
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By default, Freqai will not find find any existing models and will start by training a new one
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given the user configuration settings. Following training, it will use that model to predict for the
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duration of `backtest_period`. After a full `backtest_period` has elapsed, Freqai will auto retrain
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a new model, and begin making predictions with the updated model.
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If the user wishes to start dry/live from a saved model, the following configuration
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parameters need to be set:
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```json
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"freqai": {
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"identifier": "example",
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"live_trained_timerange": "20220330-20220429",
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"live_full_backtestrange": "20220302-20220501"
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}
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```
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Where the `identifier` is the same identifier which was set during the backtesting/training. Meanwhile,
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the `live_trained_timerange` is the sub-trained timerange (the training window) which was set
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during backtesting/training. These are available to the user inside `user_data/models/*/sub-train-*`.
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`live_full_backtestrange` was the full data range associated with the backtest/training (the full time
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window that the training window and backtesting windows slide through). These values can be located
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inside the `user_data/models/` directory. In this case, although Freqai will initiate with a
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pre-trained model, if a full `backtest_period` has elapsed since the end of the user set
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`live_trained_timerange`, it will self retrain.
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## Data anylsis techniques
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### Controlling the model learning process
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The user can define model settings for the data split `data_split_parameters` and learning parameters
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`model_training_parameters`. Users are encouraged to visit the Catboost documentation
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for more information on how to select these values. `n_estimators` increases the
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computational effort and the fit to the training data. If a user has a GPU
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installed in their system, they may benefit from changing `task_type` to `GPU`.
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The `weight_factor` allows the user to weight more recent data more strongly
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than past data via an exponential function:
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$$ W_i = \exp(\frac{-i}{\alpha*n}) $$
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where $W_i$ is the weight of data point $i$ in a total set of $n$ data points._
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Finally, `period` defines the offset used for the `labels`. In the present example,
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the user is asking for `labels` that are 24 candles in the future.
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### Removing outliers with the Dissimilarity Index
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The Dissimilarity Index (DI) aims to quantify the uncertainty associated with each
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prediction by the model. To do so, Freqai measures the distance between each training
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data point and all other training data points:
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$$ d_{ab} = \sqrt{\sum_{j=1}^p(X_{a,j}-X_{b,j})^2} $$
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where $d_{ab}$ is the distance between the standardized points $a$ and $b$. $p$
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is the number of features i.e. the length of the vector $X$. The
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characteristic distance, $\overline{d}$ for a set of training data points is simply the mean
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of the average distances:
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$$ \overline{d} = \sum_{a=1}^n(\sum_{b=1}^n(d_{ab}/n)/n) $$
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$\overline{d}$ quantifies the spread of the training data, which is compared to
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the distance between the new prediction feature vectors, $X_k$ and all the training
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data:
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$$ d_k = \argmin_i d_{k,i} $$
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which enables the estimation of a Dissimilarity Index:
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$$ DI_k = d_k/\overline{d} $$
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Equity and crypto markets suffer from a high level of non-patterned noise in the
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form of outlier data points. The dissimilarity index allows predictions which
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are outliers and not existent in the model feature space, to be thrown out due
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to low levels of certainty. Activating the Dissimilarity Index can be achieved with:
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```json
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"freqai": {
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"feature_parameters" : {
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"DI_threshold": 1
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}
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}
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```
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The user can tweak the DI with `DI_threshold` to increase or decrease the extrapolation of the
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trained model.
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### Reducing data dimensionality with Principal Component Analysis
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Users can reduce the dimensionality of their features by activating the `principal_component_analysis`:
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```json
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"freqai": {
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"feature_parameters" : {
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"principal_component_analysis": true
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}
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}
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```
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Which will perform PCA on the features and reduce the dimensionality of the data so that the explained
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variance of the data set is >= 0.999.
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### Removing outliers using a Support Vector Machine (SVM)
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The user can tell Freqai to remove outlier data points from the training/test data sets by setting:
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```json
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"freqai": {
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"feature_parameters" : {
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"use_SVM_to_remove_outliers: true
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}
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}
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```
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Freqai will train an SVM on the training data (or components if the user activated
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`principal_component_analysis`) and remove any data point that it deems to be sit beyond the
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feature space.
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## Stratifying the data
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The user can stratify the training/testing data using:
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```json
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"freqai": {
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"feature_parameters" : {
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"stratify": 3
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}
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}
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```
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which will split the data chronolocially so that every X data points is a testing data point. In the
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present example, the user is asking for every third data point in the dataframe to be used for
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testing, the other points are used for training.
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## Additional information
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### Feature standardization
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The feature set created by the user is automatically standardized to the training
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data only. This includes all test data and unseen prediction data (dry/live/backtest).
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### File structure
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`user_data_dir/models/` contains all the data associated with the trainings and
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backtests. This file structure is heavily controlled and read by the `FreqaiDataKitchen()`
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and should thus not be modified.
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