binaural-generator 0.6.4

Generate binaural beat audio with background noise for brainwave entrainment

Binaural Generator

Binaural Generator is a Python tool that creates binaural beat audio (WAV or FLAC) designed to influence different brainwave states. Configure precise frequency patterns via YAML scripts to target specific mental states such as focus, relaxation, meditation, or sleep. Features include smooth frequency transitions, volume fading, and optional background noise mixing (standard types like white/pink/brown, advanced types like blue/violet/grey, and nature sounds like rain/ocean). Access via command line or interactive web interface, with a library of pre-configured scripts for common use cases.

Table of Contents

• Binaural Generator
  • Table of Contents
  • Description
  • Background
    • What Are Binaural Beats?
    • Background Noise Types
      • Standard Noise Types
      • Advanced Noise Types
      • Nature Sounds
    • Brainwave Entrainment
    • Brainwave States
  • Scientific Research
  • Installation
    • Requirements
    • From PyPi
    • From Source
  • Contributing
  • Usage
    • Web Interface
    • Command Line Interface
  • YAML Script Format
  • Script Library
    • Standard Scripts
    • Advanced Scripts with Specialized Noise
  • File Structure
  • Resources
    • Further Reading
    • References
  • License

Description

This tool reads a YAML script defining a sequence of binaural beat frequencies, durations, optional volume fades, and optional background noise settings. It then creates an audio file based on that sequence. It supports output in both WAV and FLAC formats. It allows for stable frequency segments, smooth transitions between frequencies, and gradual fade-in/fade-out for each segment.

The program uses a configurable base carrier frequency (defaulting to 100 Hz) and creates stereo audio. The frequency difference between the left and right channels creates the binaural beat effect, which is intended to influence brainwave activity. Background noise, if configured, is added equally to both channels.

Note: All duration values (i.e., duration, fade_in_duration, and fade_out_duration) in the YAML configuration are specified in seconds.

Background

What Are Binaural Beats?

Binaural beats are an auditory illusion perceived when two slightly different frequencies are presented separately to each ear. The brain detects the phase difference between these frequencies and attempts to reconcile this difference, which creates the sensation of a third "beat" frequency equal to the difference between the two tones.

For example, if a 100 Hz tone is presented to the left ear and a 110 Hz tone to the right ear, the brain perceives a 10 Hz binaural beat. This perceived frequency corresponds to specific brainwave patterns.

Background Noise Types

Standard Noise Types

• White Noise: Contains equal energy across all audible frequencies. Sounds like a hiss (e.g., static, fan).
• Pink Noise: Energy decreases with increasing frequency (specifically, 3dB per octave). Sounds deeper than white noise (e.g., steady rainfall, wind).
• Brown Noise (Brownian/Red Noise): Energy decreases more steeply than pink noise (6dB per octave). Sounds even deeper (e.g., strong waterfall, thunder rumble).

Advanced Noise Types

• Blue Noise (Azure Noise): Energy increases with frequency (specifically, 3dB per octave). Has more high-frequency content than white noise, creating a "brighter" sound.
• Violet Noise (Purple Noise): Energy increases steeply with frequency (6dB per octave). Strong emphasis on high frequencies, creating a "sharp" or "hissing" sound.
• Grey Noise: White noise filtered to match the ear's frequency response. Emphasizes frequencies where human hearing is most sensitive (2-5 kHz), creating a perceptually balanced sound.

Nature Sounds

• Rain: Natural rain sound simulation that provides a calming and consistent audio backdrop. Helps mask external distractions while creating a soothing ambience.
• Ocean: Simulates the rhythmic sound of ocean waves, combining a low-frequency rumble with periodic wave crests. Creates a dynamic yet calming natural soundscape.

Adding background noise can help mask distracting environmental sounds or provide a constant auditory backdrop. Different noise types may be beneficial for different use cases based on their frequency characteristics.

Brainwave Entrainment

Brainwave entrainment refers to the brain's electrical response to rhythmic sensory stimulation, such as pulses of sound or light. When the brain is presented with a stimulus with a frequency corresponding to a specific brainwave state, it tends to synchronize its electrical activity with that frequency—a process called "frequency following response."

Binaural beats are one method of achieving brainwave entrainment, potentially helping to induce specific mental states associated with different brainwave frequencies.

Brainwave States

• Gamma Waves (30-100 Hz): The fastest brainwaves, linked to high-level cognitive functions such as sensory integration, focused attention, and advanced mental processing. Gamma activity plays a key role in binding together information from different brain regions and is often enhanced during peak concentration and certain meditative states.
• Beta Waves (13-30 Hz): Alertness, concentration, active thinking, problem-solving. Note: Higher Beta (e.g., 18-30 Hz) may correlate with stress or anxiety, while lower Beta (12-15 Hz) is linked to relaxed focus.
• Alpha Waves (8-12 Hz): Relaxation, calmness, light meditation, daydreaming, and passive attention (e.g., closing your eyes or mindfulness practices). Acts as a bridge between conscious (Beta) and subconscious (Theta) states.
• Theta Waves (4-7 Hz): Deep meditation, creativity, intuition, drowsiness (stage 1 NREM sleep), and light sleep (stage 2 NREM).
• Delta Waves (0.5-4 Hz): Deep, dreamless sleep (NREM stages 3-4, "slow-wave sleep"), physical healing, and regeneration. Dominant in restorative sleep, critical for immune function and memory consolidation.

Note: While Theta waves are present in REM sleep, they are not the dominant pattern. REM is characterized by mixed-frequency activity (including Beta-like waves) due to heightened brain activity during dreaming. Theta is more prominent during pre-sleep relaxation and early sleep stages.

Scientific Research

Research on binaural beats has shown mixed results, but several studies suggest potential benefits:

• Stress Reduction: Some studies indicate that binaural beats in the alpha frequency range may help reduce anxiety and stress (Wahbeh et al., 2007)
• Cognitive Enhancement: Research suggests potential improvements in attention, working memory, and other cognitive functions (Kraus & Porubanová, 2015)
• Sleep Quality: Delta frequency binaural beats may improve sleep quality in some individuals (Jirakittayakorn & Wongsawat, 2018)

Installation

Requirements

• Python 3.10+
• Dependencies listed in pyproject.toml (numpy, PyYAML, soundfile, scipy).

From PyPi

pip install binaural-generator

From Source

1. Clone the repository:

   git clone https://github.com/ksylvan/binaural-generator.git
   

2. Automatic setup with the provided script:

   ./bin/setup.sh
   source .venv/bin/activate
   

   This installs uv if it's not already installed, and uses it to create the .venv/ virtual environment and installs the required packages.

   Note: If using VS Code, the workspace is configured to run the setup script automatically when opening the folder.

Contributing

• Fork the repository.

• Create a feature branch (git checkout -b feature/awesome-feature).

• Write clear, concise code with type hints and docstrings.

• Ensure new features are tested and add appropriate unit tests.

• Run tests:

  pytest
  

  You can also use the --run-performance flag to run normally skipped tests marked as performance in the tests. These are usually skipped.

• Run linters:

  pylint .
  

• Submit a pull request with a clear description of your changes.

Usage

Web Interface

For a more interactive experience, run the web-based user interface:

Once you installed the Python package (via pip install or from source), simply run:

binaural-webapp

This launches a Streamlit-based web interface that allows you to:

• Create and edit audio sequences through a visual interface
• Load example configurations
• Preview audio before generating the full file
• Customize background noise settings
• Download generated audio and configuration files

Once launched, open your web browser and navigate to http://localhost:8501 to access the interface.

Command Line Interface

Similarly, to run the CLI script:

binaural-generate [options] <path_to_script.yaml>

Arguments:

• <path_to_script.yaml>: YAML file defining the binaural beat sequence and settings.
• -o <output_file>, --output <output_file> (Optional): Specify the output audio file path. The file extension determines the format (.wav or .flac) and overrides the output_filename in the YAML.
• -v or --verbose (Optional): Enable verbose logging output.
• -p, or --parallel (Optional): Use parallel processing for faster audio generation.
• --threads NUMBER: Number of threads to use for parallel processing (defaults to CPU count)
• --version: Print the version and exit.
• -l, or --list: List the available builtin scripts.

Example:

To use the example script provided (which defaults to FLAC output):

binaural-generate example_script.yaml

This will generate audio/example_fade_noise.flac (or the filename specified in example_script.yaml) in the audio/ directory.

To use one of the pre-defined scripts from the library and output as WAV:

binaural-generate scripts/relaxation_alpha.yaml -o audio/relaxation_alpha.wav

This will generate relaxation_alpha.wav in the audio/ directory, overriding the default name in the script.

To generate a FLAC file with a custom name:

binaural-generate scripts/focus_beta.yaml -o my_focus_session.flac

You can also reference the builtin scripts without using the full path. Simply list the available scripts:

$ binaural-generate -l
Available scripts: in /Users/kayvan/src/TMP/.venv/lib/python3.12/site-packages/binaural_generator/scripts

  Creativity (Blue Noise): creativity_blue.yaml
  Creativity (Theta): creativity_theta.yaml
  Focus (Beta): focus_beta.yaml
  Focus (Gamma): focus_gamma.yaml
  Focus (Violet Noise): focus_violet.yaml
  Lucid Dreaming (Pink Noise): lucid_dream_pink_noise.yaml
  Lucid Dreaming: lucid_dreaming.yaml
  Meditation (Theta): meditation_theta.yaml
  Migraine Relief (Alpha/Theta/Delta): migraine_relief.yaml
  Relaxation (Alpha): relaxation_alpha.yaml
  Relaxation (Grey Noise): relaxation_grey.yaml
  Relaxation (Ocean): relaxation_ocean.yaml
  Relaxation (Rain): relaxation_rain.yaml
  Sleep (Delta): sleep_delta.yaml

usage: generate [-h] [-o OUTPUT] [-v] [-p] [--threads THREADS] [--version | -l] [script]

And then:

$ binaural-generate -p meditation_theta.yaml
2025-04-12 07:39:40,375 - INFO - Using script from scripts directory: /Users/kayvan/src/TMP/.venv/lib/python3.12/site-packages/binaural_generator/scripts/meditation_theta.yaml
2025-04-12 07:39:40,376 - INFO - Processing Audio for: Meditation (Theta)
2025-04-12 07:39:40,376 - INFO - Sample Rate: 44100 Hz
2025-04-12 07:39:40,376 - INFO - Base Frequency: 100.00 Hz
2025-04-12 07:39:40,376 - INFO - Using parallel processing for audio generation...
2025-04-12 07:39:40,376 - INFO - Preparing audio steps for parallel generation...
2025-04-12 07:39:40,376 - INFO - Starting parallel generation of beats and noise...
2025-04-12 07:39:40,879 - INFO - Beat segments generated and collected.
2025-04-12 07:39:40,968 - INFO - Beat segments combined (Duration from segments: 1800.00 seconds).
2025-04-12 07:39:40,969 - INFO - Skipping noise mixing (not generated or zero amplitude).
2025-04-12 07:39:41,105 - INFO - Audio sequence generated successfully in 0.73 seconds.
2025-04-12 07:39:41,287 - INFO - Writing audio file to: audio/meditation_theta.flac
2025-04-12 07:39:42,884 - INFO - Audio file 'meditation_theta.flac' (.flac format, 44100 Hz) created. Duration: 30m 0.00s.
2025-04-12 07:39:42,907 - INFO - Audio file saved successfully to 'audio/meditation_theta.flac'.

YAML Script Format

The YAML script defines the parameters and sequence for audio generation.

Global Settings (Optional):

• title: Short title (also displayed in the Web UI)
• base_frequency: The carrier frequency in Hz (e.g., 100). Default: 100.
• sample_rate: The audio sample rate in Hz (e.g., 44100). Default: 44100.
• output_filename: The default name for the output audio file (e.g., "audio/my_session.flac" or "audio/my_session.wav"). The extension (.wav or .flac) determines the output format. Default: "output.flac".
• background_noise (Optional): Settings for adding background noise.
  • type: The type of noise. Options:
    • Standard: "white", "pink", "brown"
    • Advanced: "blue", "violet", "grey"
    • Nature: "rain", "ocean"
    • No noise: "none"
    • Default: "none".
  • amplitude: The relative amplitude (volume) of the noise, from 0.0 (silent) to 1.0 (maximum relative level). Default: 0.0. The binaural beat signal is scaled down by (1 - amplitude) before mixing to prevent clipping.

Steps (Required):

A list under the steps: key, where each item defines an audio segment. Each step can be one of the following types:

• type: stable: Holds a constant binaural beat frequency.
• frequency: The binaural beat frequency in Hz.
• duration: The duration of this segment in seconds.
• fade_in_duration (Optional): Duration of a linear volume fade-in at the beginning of the step, in seconds. Default: 0.0.
• fade_out_duration (Optional): Duration of a linear volume fade-out at the end of the step, in seconds. Default: 0.0.

For the transition step type, we have the following:

• type: transition: Linearly changes the binaural beat frequency over time.
• start_frequency: The starting binaural beat frequency in Hz. If omitted, it uses the end frequency of the previous step for a smooth transition (cannot be omitted for the first step).
• end_frequency: The ending binaural beat frequency in Hz.
• duration: The duration of this transition in seconds.
• fade_in_duration (Optional): Duration of a linear volume fade-in at the beginning of the step, in seconds. Default: 0.0.
• fade_out_duration (Optional): Duration of a linear volume fade-out at the end of the step, in seconds. Default: 0.0.

Important Notes on Fades:

• Fades are applied within the specified duration of the step.
• The sum of fade_in_duration and fade_out_duration for a single step cannot exceed the step's duration.

Example YAML (example_script.yaml):

# Example Binaural Beat Generation Script with Fades and Background Noise

# Global settings
title: Example Binaural Beat Script
base_frequency: 100 # Hz (carrier frequency)
sample_rate: 44100 # Hz (audio sample rate)
output_filename: "audio/example_fade_noise.flac" # Default output file name

# Background noise settings (optional)
background_noise:
  type: "pink" # Type of noise: "white", "pink", "brown", "blue", "violet", "grey", "rain", "ocean", or "none"
  amplitude: 0.15 # Relative amplitude (0.0 to 1.0)

# Sequence of audio generation steps (Total Duration: 1500 seconds = 25 minutes)
steps:
  # 1. Beta phase (stable 18 Hz beat) with fade-in
  - type: stable
    frequency: 18 # Hz (binaural beat frequency)
    duration: 180 # seconds (3 minutes)
    fade_in_duration: 6 # seconds

  # 2. Transition from Beta (18 Hz) to Alpha (10 Hz)
  - type: transition
    start_frequency: 18 # Hz (explicit, could be implied)
    end_frequency: 10 # Hz
    duration: 300 # seconds (5 minutes)

  # 3. Transition from Alpha (10 Hz) to Theta (6 Hz) with fades
  - type: transition
    # start_frequency: 10 (implied from previous step)
    end_frequency: 6 # Hz
    duration: 300 # seconds (5 minutes)
    fade_in_duration: 3 # seconds
    fade_out_duration: 3 # seconds

  # 4. Transition from Theta (6 Hz) to Delta (2 Hz) with fade-out
  - type: transition
    # start_frequency: 6 (implied)
    end_frequency: 2 # Hz
    duration: 420 # seconds (7 minutes)
    fade_out_duration: 12 # seconds

  # 5. Transition from Delta (2 Hz) to Gamma (40 Hz) with fades
  - type: transition
    # start_frequency: 2 (implied)
    end_frequency: 40 # Hz
    duration: 300 # seconds (5 minutes)
    fade_in_duration: 6 # seconds
    fade_out_duration: 15 # seconds

Script Library

A collection of pre-defined YAML scripts for common use-cases is available in the binaural_generator/scripts/ directory. Most scripts default to .flac output. Some include background noise as noted below.

Standard Scripts

• binaural_generator/scripts/focus_beta.yaml: Designed to enhance concentration and alertness using Beta waves (14-18 Hz).
• binaural_generator/scripts/focus_gamma.yaml: Targets peak concentration and problem-solving with Gamma waves (40 Hz).
• binaural_generator/scripts/meditation_theta.yaml: Facilitates deep meditation and introspection using Theta waves (6 Hz).
• binaural_generator/scripts/relaxation_alpha.yaml: Aims to reduce stress and promote calmness using Alpha waves (8-10 Hz).
• binaural_generator/scripts/sleep_delta.yaml: Guides the brain towards deep sleep states using Delta waves (2 Hz).

Advanced Scripts with Specialized Noise

• binaural_generator/scripts/creativity_blue.yaml: Creative flow enhancement with Theta waves (6-7.83 Hz) and blue noise for clarity.
• binaural_generator/scripts/creativity_theta.yaml: Intended to foster an intuitive and creative mental state using Theta waves (7 Hz).
• binaural_generator/scripts/focus_violet.yaml: Concentration enhancement with Gamma waves (40 Hz) and violet noise for heightened alertness.
• binaural_generator/scripts/lucid_dream_pink_noise.yaml: 85-minute script to induce REM sleep and enhance lucid dreaming potential with pink noise.
• binaural_generator/scripts/lucid_dreaming.yaml: 60-minute script transitioning from Alpha to Theta to Gamma to promote lucid dream states.
• binaural_generator/scripts/migraine_relief.yaml: Progressive relaxation from Alpha to Theta to Delta to reduce migraine pain.
• binaural_generator/scripts/relaxation_grey.yaml: Alpha wave relaxation with perceptually balanced grey noise for a natural ambient sound.
• binaural_generator/scripts/relaxation_ocean.yaml: 25-minute deep relaxation with Alpha waves and simulated ocean wave sounds.
• binaural_generator/scripts/relaxation_rain.yaml: 20-minute relaxation sequence with Alpha waves and rain ambient sounds.

You can use these scripts directly, modify them (e.g., add background_noise), or use the -o command-line option to change the output format/name.

Example usage for WAV output with added noise (assuming you modify the script):

# (First, edit binaural_generator/scripts/sleep_delta.yaml to add background_noise section)
binaural-generate binaural_generator/scripts/sleep_delta.yaml -o audio/sleep_delta_with_noise.wav

File Structure

.github
└── workflows
    └── pypi-publish.yml: GitHub Actions workflow for building and publishing the package to PyPI on master branch pushes.

.vscode
└── tasks.json: VS Code task definitions for environment setup, running tests, and linting.

bin
└── setup.sh: Shell script to set up the development environment using `uv` and a virtual environment.

binaural_generator
├── cli.py: Command-line interface with argument parsing and audio generation functions for the generator tool.
├── core
│   ├── __init__.py
│   ├── constants.py: Defines default values and constant parameters used throughout the package.
│   ├── data_types.py: Defines dataclasses for configuration objects (e.g., AudioStep, NoiseConfig)
|   |                  and validates their parameters.
│   ├── exceptions.py: Defines custom exception classes specific to the binaural generator package.
│   ├── fade.py: Implements linear audio fade-in and fade-out logic for audio segments.
│   ├── noise.py: Contains strategies for generating various types of background noise (white, pink, brown, blue,
|   |             violet, grey, rain, ocean).
│   ├── parallel.py: Provides utilities for generating audio steps in parallel using threads to speed up processing.
│   ├── tone_generator.py: Core logic for generating binaural beat tones, handling frequency transitions,
|   |                      applying fades, mixing noise, and saving audio files.
│   └── utils.py: Contains utility functions for loading, validating, and parsing YAML configuration files.
├── scripts
│   ├── creativity_blue.yaml: Creative flow enhancement with Theta waves (6-7.83 Hz) and blue noise.
│   ├── creativity_theta.yaml: Foster intuitive and creative mental state using Theta waves (7 Hz).
│   ├── focus_beta.yaml: Enhance concentration and alertness using Beta waves (14-18 Hz).
│   ├── focus_gamma.yaml: Target peak concentration and problem-solving with Gamma waves (40 Hz).
│   ├── focus_violet.yaml: Concentration enhancement with Gamma waves (40 Hz) and violet noise for heightened alertness.
│   ├── lucid_dream_pink_noise.yaml: 85-minute script to induce REM sleep and enhance lucid dreaming potential with pink noise.
│   ├── lucid_dreaming.yaml: 60-minute script transitioning from Alpha to Theta to Gamma to promote lucid dream states.
│   ├── meditation_theta.yaml: 30-minute deep meditation sequence transitioning from Alpha (10 Hz) to Theta (6 Hz).
│   ├── migraine_relief.yaml: Progressive relaxation from Alpha to Theta to Delta to reduce migraine pain.
│   ├── relaxation_alpha.yaml: 20-minute stress reduction sequence using Alpha waves (8-10 Hz).
│   ├── relaxation_grey.yaml: Alpha wave relaxation with perceptually balanced grey noise for a natural ambient sound.
│   ├── relaxation_ocean.yaml: 25-minute deep relaxation with Alpha waves and simulated ocean wave sounds.
│   ├── relaxation_rain.yaml: 20-minute relaxation sequence with Alpha waves and rain ambient sounds.
│   └── sleep_delta.yaml: 45-minute sleep induction transitioning from Alpha through Theta to Delta (2 Hz).
├── webapp.py: Web application launcher script that configures and runs the Streamlit-based interface.
└── webui
    ├── __init__.py
    ├── components
    │   ├── __init__.py
    │   ├── audio_handlers.py: Audio generation and playback utilities for the web interface, managing preview and full audio generation.
    │   ├── config_utils.py: YAML configuration loading, validation and handling utilities for the web interface.
    │   ├── sidebar.py: Sidebar component rendering with settings controls for the web interface.
    │   ├── step_editor.py: UI components for editing and visualizing individual audio sequence steps.
    │   └── ui_utils.py: General UI utility functions for session state management and interface rendering.
    ├── constants.py: UI-specific constants including brainwave presets and frequency ranges.
    └── main.py: Main entry point for the web application, orchestrating components and layout.

conftest.py: Pytest configuration file with custom markers and command-line options.
cspell.json: Configuration for code spell-checking with custom dictionary of specialized terms.
example_script.yaml: Example YAML configuration demonstrating various binaural beat features.
LICENSE: MIT license file with copyright information and terms of use.
pyproject.toml: Project configuration with dependencies, scripts, and development tools settings.
README.md: Project documentation with detailed usage instructions and background information.

tests
├── test_common.py: Common test utilities and helper functions shared across test modules.
├── test_data_types.py: Unit tests for the data type classes validating constraints and behavior.
├── test_fade.py: Tests for audio volume fading implementation and edge cases.
├── test_new_noise_types.py: Tests for advanced noise types like blue, violet, and grey noise.
├── test_noise.py: Core tests for the standard noise generation algorithms.
├── test_ocean_noise.py: Tests for the ocean wave sound simulation.
├── test_parallel.py: Tests for parallel processing implementation with thread management.
├── test_property_based.py: Property-based tests using hypothesis for robust test coverage.
├── test_rain_noise.py: Tests for the rain sound simulation algorithm.
├── test_tone_generator.py: Tests for binaural beat generation and frequency transitions.
└── test_utils.py: Tests for configuration loading and utility functions.

uv.lock: Dependency lock file for the uv package manager with exact versions.

Resources

Further Reading

• The Discovery of Binaural Beats
• Healthline - Binaural Beats: Do They Really Affect Your Brain? - Discusses the potential cognitive and mood benefits of binaural beats
• Sleep Foundation - Binaural Beats and Sleep - Examines the impact of binaural beats on sleep quality
• Binaural beats to entrain the brain? A systematic review of the effects of binaural beat stimulation - Published in 2023.

References

• Oster, G. (1973). Auditory beats in the brain. Scientific American, 229(4), 94-102.
• Huang, T. L., & Charyton, C. (2008). A comprehensive review of the psychological effects of brainwave entrainment. Alternative Therapies in Health and Medicine, 14(5), 38-50.
• Le Scouarnec, R. P., Poirier, R. M., Owens, J. E., Gauthier, J., Taylor, A. G., & Foresman, P. A. (2001). Use of binaural beat tapes for treatment of anxiety: A pilot study. Alternative Therapies in Health and Medicine, 7(1), 58-63.
• Chaieb, L., Wilpert, E. C., Reber, T. P., & Fell, J. (2015). Auditory beat stimulation and its effects on cognition and mood states. Frontiers in Psychiatry, 6, 70.
• Wahbeh, H., Calabrese, C., & Zwickey, H. (2007). Binaural beat technology in humans: a pilot study to assess psychologic and physiologic effects. Journal of Alternative and Complementary Medicine, 13(1), 25-32.
• Kraus, J., & Porubanová, M. (2015). The effect of binaural beats on working memory capacity. Studia Psychologica, 57(2), 135-145.
• Jirakittayakorn, N., & Wongsawat, Y. (2018). A novel insight of effects of a 3-Hz binaural beat on sleep stages during sleep. Frontiers in Human Neuroscience, 12, 387.
• Stumbrys, T., Erlacher, D., & Schredl, M. (2014). Testing the potential of binaural beats to induce lucid dreams. Dreaming, 24(3), 208–217.
• Prinsloo, S., Lyle, R., & Sewell, D. (2018). Alpha-Theta Neurofeedback for Chronic Pain: A Pilot Study. Journal of Neurotherapy, 22(3), 193-211.

License

This project is licensed under the MIT License - see the LICENSE file for details.

Copyright (c) 2025 Kayvan Sylvan