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learningHouse - Teach your smart home everything

Project description

learningHouse Service

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Introduction

The LearningHouse Service provides machine learning algorithms based on the scikit-learn python library as a RESTful API. Its purpose is to offer smart home enthusiasts an easy way to teach their homes.

Contact and Feedback

If you have any questions, please contact us on Discord.

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Please share your ideas on what you want to teach your home, suggestions or problems by opening an issue. We are really looking forward to your feedback.

Installation and Configuration

Install and update using pip.

pip install -U learninghouse

Install and update using docker

docker pull ghcr.io/learninghouseservice/learninghouse:latest

Prepare configuration directory

mkdir -p brains

The brains directory holds the model configuration as a json file. The models are the brains of your learning house.

There will be one subdirectory per brain, where all files relevant for a brain will be stored. The brain subdirectory needs a config.json file holding the basic configuration. The service will store a training_data.csv file holding all data from your sensors and an object dump of the trained model to a file called trained.pkl.

Service configuration

The service is configured by environment variables. The following options can be set:

Environment Variable default (production/development) description
LEARNINGHOUSE_ENVIRONMENT production Choose the default environment settings: production or development.
LEARNINGHOUSE_HOST 127.0.0.1 Set the address that the service should bind to. (use 0.0.0.0 for all available)
LEARNINGHOUSE_PORT 5000 Set the port on which the service should listen.
LEARNINGHOUSE_BASE_URL Not set Set the base URL for external access, for example, the hostname of your Docker host.
LEARNINGHOUSE_CONFIG_DIRECTORY ./brains Define the directory where all configuration data goes.
LEARNINGHOUSE_OPENAPI_FILE /learninghouse_api.json Provide the file URL path to the OpenAPI JSON file.
LEARNINGHOUSE_DOCS_URL /docs Define the URL path for the interactive API documentation. If you leave it empty, the documentation will be disabled.
LEARNINGHOUSE_JWT_SECRET Generated on startup For administration authentication, a JWT is generated after login. This JWT is signed with a secret. By default, it is generated on startup, which will invalidate existing JWTs on each restart.
LEARNINGHOUSE_JWT_EXPIRE_MINUTES 10 The refresh token of JWTs will expire after a given amount of minutes.
LEARNINGHOUSE_LOGGING_LEVEL INFO Set logging level to DEBUG, INFO, WARNING, ERROR, CRITICAL
LEARNINGHOUSE_DEBUG (False/True) The debugger will be automatically activated in the development environment. For security reasons, it is recommended not to activate it in production.
LEARNINGHOUSE_RELOAD (False/True) The source will be automatically reloaded in the development environment. For security reasons, it is recommended not to activate it in production.

Example configuration

You can download .env.example and rename it to .env. Inside, you can modify the default configuration values to meet your needs in this file.

Run the service

In the console

Copy the .env.example file to .env and modify it according to your needs.

Then, simply run learninghouse to start the service. By default, the service will listen on http://localhost:5000/.

With docker:

docker run --name learninghouse --rm -v brains:/learninghouse/brains -p 5000:5000 -e "TZ=Europe/Berlin" ghcr.io/learninghouseservice/learninghouse:latest

UI

For configuration purposes, there is a small user interface that can be found at http://localhost:5000/ui.

Security

The service is protected by different authentication and authorization mechanisms. For administration, you can log in via the UI.

Fallback password

On the first run, the service is set to use the fallback password learninghouse for the administrator account. Until this is changed, all other endpoints will be deactivated.

You can change the password on the initial login screen of the UI.

Security notice: Unless you use a proxy setup for SSL security of your connection, only use a separate password for your learninghouse.

API Key

You can use your administration access for training and prediction endpoints, but we also recommend using an API key mechanism for application access. There are two roles for API key authorization: user for the prediction endpoint and trainer for the training and prediction endpoints.

You can add more API keys via the UI.

Your API key will only be displayed once and cannot be requested again. So save it for your usage. If you forget it, you will have to delete this API key and recreate it.

You have to provide this API key for all requests, either as a query parameter ?api_key=YOURSECRETKEY or as a header field X-LEARNINGHOUSE-API-KEY: YOURSECRETKEY.

You can also test the API key by logging in to the UI.

Brains and Sensors Configuration

Sensors Configuration

Send data from all sensors to the learningHouse Service, especially when training your brains. The service will save all data fields, even if they are not currently used as a feature. The service will choose the best feature set each time you train a brain.

In general, sensor data can be divided into two different types. Numerical data can be processed directly by your models, while Categorical data needs to be preprocessed by the service in order to be used as a feature. Categorical data can be identified using a simple rule:

  • Non-numerical values, or
  • Numerical values that can be described using terms.

Here are some examples of categorical data:

  • pressure_trend: Values of 'falling', 'rising', 'consistent'
  • month_of_year: 1 ('January'), 2 ('February'), ...
  • weather_condition: 'sunny', 'cloudy'
  • switch: 'ON', 'OFF'

To enable the service to use the data from your sensors as features for your brain, you need to provide the service with information about the data type. You can add each sensor you want to use via the UI.

For example, add the following sensors:

Name type
azimuth numerical
elevation numerical
rain_gauge numerical
pressure numerical
pressure_trend_1h categorical
temperature_outside numerical
temperature_trend_1h categorical
light_state categorical

Example brain

The brain determines whether it is dark enough to switch on the light. It utilizes a machine learning algorithm called RandomForestClassifier.

To add a new brain via the UI, use your administration account and provide the following parameters.

Field Value
Name darkness
Typed Classifier
Dependent encode True
Test size 0.2
Estimators 100
Max depth 5

Configuration Parameters

Estimator

The LearningHouse Service can predict values using an estimator. An estimator can be of type classifier, which is best suited for categorical outputs, such as true and false. If you want to predict a numerical value, such as the setpoint of a heating equipment, use the type regressor instead.

For both types, the LearningHouse Service uses a machine learning algorithm called random forest estimation. This algorithm builds a "forest" of decision trees with your features and takes the mean of the predictions of all of them to give you the best result. For more details, see the API description of scikit-learn.

Estimator type API Reference
RandomForestRegressor https://scikit-learn.org/stable/modules/generated/sklearn.ensemble.RandomForestRegressor.html#sklearn.ensemble.RandomForestRegressor
RandomForestClassifier https://scikit-learn.org/stable/modules/generated/sklearn.ensemble.RandomForestClassifier.html#sklearn.ensemble.RandomForestClassifier

You can adjust the number of decision trees by using the estimators (default: 100) option. You can also adjust the maximum depth of each tree by using the max depth (default: 5) option. Both options are optional. Try resizing these values to optimize the accuracy of your model.

Dependent variable

The dependent variable is the one that must be included in the training data and is predicted by the trained brain. It is the same as the name variable.

The dependent variable must be a number. If it is not a number, but a string or boolean (true/false) as shown in the example, set dependent encode to yes.

Test size

The LearningHouse service only uses a portion of your training data to train the brain. The remaining portion, specified by test size, is used to score the accuracy of your brain.

You can specify the test size as a percentage using floating point numbers between 0.01 and 0.99, or as an absolute number of data points using integer numbers.

For example, a test size of 20% (0.2) should be sufficient to start with.

An accuracy score between 80% and 90% is considered good. Scores below 80% indicate that the brain is underfitted, while scores above 90% indicate that the brain is overfitted. Both cases can result in poor predictions for new data points. You can try adjusting the estimator configuration to improve the score.

Training of the brain will start when there are at least 10 data points.

Changing configuration via RESTful API

You can also change the configuration of sensors and brains using the API. Please refer to the interactive API documentation when the service is running.

API Documentation

When the service is running, you can access an interactive API documentation by calling the URL http://localhost:5000/docs.

Train the brain

To train, send a PUT request to the service:

You need administration JWT or API key role trainer for this request (see Security)

# URL is http://<host>:5000/api/brain/:name/training
curl --location --request PUT 'http://localhost:5000/api/brain/darkness/training' \
    --header 'Content-Type: application/json' \
    --header 'X-LEARNINGHOUSE-API-KEY: YOURSECRETKEY' \
    --data-raw '{
        "azimuth": 321.4441223144531,
        "elevation": -19.691608428955078,
        "rain_gauge": 0.0,
        "pressure": 971.0,
        "pressure_trend_1h": "falling",
        "temperature_outside": 23.0,
        "temperature_trend_1h": "rising",
        "light_state": false,
        "darkness": true
}'

You can send either a field timestamp with your dataset containing a UNIX-Timestamp or the service will add this information with its current time. The service generates some further time-relevant fields inside the training dataset that you can also use as features. These are month_of_year, day_of_month, day_of_week, hour_of_day, and minute_of_hour.

If one of your sensors is not working at the moment and therefore not sending a value, the service will add a value using the following rules. For categorical data, all categorical columns will be set to zero. For numerical data, the mean of all known training set values (see Test size) for this feature will be assumed.

To train the brain with existing data, for example after a service update, use a POST request without data:

You need an administrator JWT or API key with the role trainer for this request (see Security).

# URL is http://host:5000/api/brain/:name/training
curl --location \
    --header 'X-LEARNINGHOUSE-API-KEY: YOURSECRETKEY' \
    --request POST 'http://localhost:5000/api/brain/darkness/training'

To obtain information about a trained brain, use a GET request:

You will need an administrator JWT or API key with the role of trainer or user for this request (see Security).

# URL is http://host:5000/api/brain/:name/info
curl --location \
    --header 'X-LEARNINGHOUSE-API-KEY: YOURSECRETKEY' \ 
    --request GET 'http://localhost:5000/brain/darkness/info'

Prediction

To predict a new data set with your brain, send a POST request:

You need an administrator JWT or API key with the role trainer or user for this request (see Security).

# URL is http://host:5000/api/brain/:name/prediction
curl --location --request POST 'http://localhost:5000/api/brain/darkness/prediction' \
    --header 'Content-Type: application/json' \
    --header 'X-LEARNINGHOUSE-API-KEY: YOURSECRETKEY' \
    --data-raw '{    
        "azimuth": 321.4441223144531,
        "elevation": -19.691608428955078,
        "rain_gauge": 0.0,
        "pressure_trend_1h": "falling"
    }'

If one of your sensors used as a feature in the brain is not working at the moment and is not sending a value, the service will handle this by using the following rules. For categorical data, all categorical columns will be set to zero. For numerical data, the mean of all known training set values (see Test size) for this feature will be assumed.

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