An adblocker for live radio streams and podcasts. Machine learning meets Shazam.
A library to block ads on live radio streams and podcasts. Machine learning meets Shazam.
Engine of AdblockRadio.com.
Demo standalone player available here.
A technical discussion is available here.
Radio streams are downloaded in predictor.js
with the module adblockradio/stream-tireless-baler. Podcasts are downloaded in predictor-file.js
.
In both cases, audio is then decoded to single-channel, 22050 Hz
PCM with ffmpeg
.
Chunks of about one second of PCM audio are piped into two sub-modules:
predictor-ml/ml.js
), that analyses spectral content with a neural network.predictor-db/hotlist.js
), that searches for exact occurrences of known ads, musics or jingles.In post-processing.js
, results are gathered for each audio segment and cleaned.
A Readable interface, Analyser
, is exposed to the end user. It streams objects containing the audio itself and all analysis results.
On a regular laptop CPU and with the Python time-frequency analyser, computations run at 5-10X for files and at 10-20% usage for live stream.
You need Node.js (>= v10.12.x, but < 11) and NPM. Download it here. Pro-tip: to manage several node versions on your platform, use NVM.
On Debian Stretch:
apt-get install -y git ssh tar gzip ca-certificates build-essential sqlite3 ffmpeg
Note: works on Jessie, but installing ffmpeg is a bit painful. See here and there.
For best performance (~2x speedup) you should choose to do part of the computations with Python. Additional prerequisites are the following: Python (tested with v2.7.9), Keras (tested with v2.0.8) and Tensorflow (tested with CPU v1.4.0 and GPU v1.3.0).
On Debian:
apt-get install python-dev portaudio19-dev
pip install python_speech_features h5py numpy scipy keras tensorflow zerorpc sounddevice psutil
Note: if you do not have pip follow these instructions to install it.
git clone https://github.com/adblockradio/adblockradio.git
cd adblockradio
npm install
Validate your installation with the test suite:
npm test
At startup and periodically during runtime, filter configuration files are automatically updated from adblockradio.com/models/:
model.keras
or model.json
+ group1-shard1of1
), for the time-frequency analyser.hotlist.sqlite
), for the fingerprint matcher.Run the demo on French RTL live radio stream:
node demo.js
Here is a sample output of the demo script, showing an ad detected:
{
"gain": 74.63,
"ml": {
"class": "0-ads",
"softmaxraw": [
0.996,
0.004,
0
],
"softmax": [
0.941,
0.02,
0.039
],
"slotsFuture": 4,
"slotsPast": 5
},
"hotlist": {
"class": "9-unsure",
"file": null,
"matches": 1,
"total": 7
},
"class": "0-ads",
"metadata": {
"artist": "Laurent Ruquier",
"title": "L'été des Grosses Têtes",
"cover": "https://cdn-media.rtl.fr/cache/wQofzw9SfgHNHF1rqJA3lQ/60v73-2/online/image/2014/0807/7773631957_laurent-ruquier.jpg"
},
"streamInfo": {
"url": "http://streaming.radio.rtl.fr/rtl-1-44-128",
"favicon": "https://cdn-static.rtl.fr/versions/www/6.0.637/img/apple-touch-icon.png",
"homepage": "http://www.rtl.fr/",
"audioExt": "mp3"
},
"predictorStartTime": 1531150137583,
"playTime": 1531150155250,
"tBuffer": 15.98,
"audio": ...
}
It is also possible to analyse radio recordings.
Run the demo on a recording of French RTL radio, including ads, talk and music:
node demo-file.js
Gradual outputs are similar to those of live stream analysis. An additional post-processing specific to recordings hides the uncertainties in predictions and shows big chunks for each class, with time stamps in milliseconds, making it ready for slicing.
[
{
"class": "1-speech",
"tStart": 0,
"tEnd": 58500
},
{
"class": "0-ads",
"tStart": 58500,
"tEnd": 125500
},
{
"class": "1-speech",
"tStart": 125500,
"tEnd": 218000
},
{
"class": "2-music",
"tStart": 218000,
"tEnd": 250500
},
{
"class": "1-speech",
"tStart": 250500,
"tEnd": 472949
}
]
Note that when analyzing audio files, you still need to provide the name of a radio stream, because the algorithm has to load acoustic parameters and DB of known samples. Analysis of podcasts not tied to a radio is not yet supported, but may possibly be in the future.
Below is a simple usage example. More thorough usage examples are available in the tests:
test/file.js
test/online.js
test/offline.js
const { Analyser } = require("adblockradio");
const abr = new Analyser({
country: "France",
name: "RTL",
config: {
...
}
});
abr.on("data", function(obj) {
...
});
Property | Description | Default |
---|---|---|
country |
Country of the radio stream according to radio-browser.info | None |
name |
Name of the radio stream according to radio-browser.info | None |
file |
File to analyse (optional, analyse the live stream otherwise) | None |
Acoustic model and hotlist files are refreshed automatically on startup. If you plan to continuously run the algo for a long time, you can trigger manual updates. Note those methods are only available in live stream analysis mode.
Method | Parameters | Description |
---|---|---|
refreshPredictorMl |
None | Manually refresh the ML model (live stream only) |
refreshPredictorHotlist |
None | Manually refresh the hotlist DB (live stream only) |
refreshMetadata |
None | Manually refresh the metadata scraper (live stream only) |
stopDl |
None | Stop Adblock Radio (live stream only) |
Properties marked with a *
are meant to be used only with live radio stream analysis, not file analysis where they are ignored.
Property | Description | Default |
---|---|---|
predInterval |
Send stream status to listener every N seconds | 1 |
saveDuration* |
If enabled, save audio file and metadata every N predInterval times |
10 |
modelUpdatesInterval |
If enabled, update model files every N minutes | 60 |
Property | Description | Periodicity | Default |
---|---|---|---|
enablePredictorMl |
Perform machine learning inference | predInterval |
true |
JSPredictorMl |
Use tfjs instead of Python for ML inference (slower) | false |
|
enablePredictorHotlist |
Compute audio fingerprints and search them in a DB | predInterval |
true |
saveAudio* |
Save stream audio data in segments on hard drive | saveDuration |
true |
saveMetadata |
Save a JSON with predictions | saveDuration |
true |
fetchMetadata* |
Gather metadata from radio websites | saveDuration |
true |
modelUpdates |
Keep ML and hotlist files up to date | modelUpdatesInterval |
true |
Property | Description | Default |
---|---|---|
modelPath |
Directory where ML models and hotlist DBs are stored | process.cwd() + '/model' |
modelFile |
Path of ML file relative to modelPath |
country + '_' + name + '/model.keras' |
hotlistFile |
Path of the hotlist DB relative to modelPath |
country + '_' + name + '/hotlist.sqlite' |
saveAudioPath* |
Root folder where audio and metadata are saved | process.cwd() + '/records' |
Readable streams constructed with Analyser
emit objects with the following properties. Some properties are only available when doing live radio analysis. They are marked with a *
. Other specific to file analysis are marked with **
.
audio*
: Buffer containing a chunk of original (compressed) audio data.
ml
: null
if not available, otherwise an object containing the results of the time-frequency analyser
softmaxraw
: an array of three numbers representing the softmax between ads, speech and music.softmax
: same as softmaxraw, but smoothed in time with slotsFuture
data points in the future and slotsPast
data points in the past. Smoothing weights are defined by consts.MOV_AVG_WEIGHTS
in post-processing.js
.class
: either 0-ads
, 1-speech
, 2-music
or 9-unsure
. The classification according to softmax
.hotlist
: null if not available, otherwise an object containing the results of the fingerprint matcher.
file
: if class is not “9-unsure”, the reference of the file recognized.total
: number of fingerprints computed for the given audio segment.matches
: number of matching fingerprints between the audio segment and the fingerprint database.class
: either 0-ads
, 1-speech
, 2-music
, 3-jingles
or 9-unsure
if not enough matches have been found.class
: final prediction of the algorithm. Either 0-ads
, 1-speech
, 2-music
, 3-jingles
or 9-unsure
.
metadata*
: live metadata, fetched and parsed by the module adblockradio/webradio-metadata.
streamInfo*
: static metadata about the stream. Contains stream url
, favicon
, bitrate
in bytes / s, audio files extension audioExt
(mp3
or aac
) and homepage
URL.
gain
: a dB value representing the average volume of the stream. Useful if you wish to normalize the playback volume. Calculated by mlpredict.py
.
tBuffer*
: seconds of audio buffer. Calculated by adblockradio/stream-tireless-baler.
predictorStartTime*
: timestamp of the algorithm startup. Useful to get the uptime.
playTime*
: approximate timestamp of when the given audio is to be played. TODO check this.
tStart**
: lower boundary of the time interval linked with the prediction (in milliseconds)
tEnd**
: upper boundary of the time interval linked with the prediction (in milliseconds)
The list of supported radios is available here.
Integrations of this module are welcome. Suggestions are available here.
A standalone demo player for web browsers is available here.
See LICENSE file.
Your contribution to this project is welcome, but might be subject to a contributor’s license agreement.