This repository includes the code for lightpath length and launch power esitmation with machine learning.
The code requires at least Python 3.10 for execution
Create a virtual environment and install the requirements
python -m venv venv
source venv/bin/activate
python -m pip install -r requirements.txtNext, download the dataset (version 2.2) from dataverse and place it in data/dataverse_files.zip path.
After the environment setup finished, the code could be executed by:
python main.pyThe structure of the code is:
main.py
README.md
requirements.txt
src
├── compressor.py
├── constants.py
├── __init__.py
├── label_derivations.py
├── load_dataset.py
├── multiple_links_sc_classification.py
├── preprocessing.py
├── project_init.py
├── result_exporter.py
└── single_link_sc_regression.py
data
├── accessible_dataset
│ ├── multiple_link_scenario
│ | └── csv files ....
│ ├── Readme.txt
│ └── single_link_scenario
│ ├── degradation
│ | └── csv files ....
│ ├── optimal
│ | └── csv files ....
│ ├── sub-optimal
│ | └── csv files ....
└── dataverse_files.zip
exports
├── multiple_link_scenario.log
├── multiple_scenario.png
├── multiple_scenario_zoommed.png
├── single_link_scenario.log
├── single_scenario(degradation).png
├── single_scenario(optimal).png
├── single_scenario.png
└── single_scenario(sub-optimal).png
report
├── figures
│ ├── models.png
│ ├── multiple_scenario_zoommed.png
│ ├── single_scenario(optimal).png
│ └── single_scenario.png
├── IEEEtran.cls
├── manuscript.pdf
└── manuscript.texThe images and log files are saved in the exports directory.
Also, you can find experiments report in the report/manuscript.pdf path.
The output of the terminal while the code is being executed is shown below. The output logs are also saved in exports/*.log files.
initializing the demo...
demo project is initialized
######################################################################################################
########### single link scenario: lightpath distance prediction with constellation samples ###########
######################################################################################################
dataset is loaded and preprocessed with standard scaler and split into train-test
features are compressed with PCA and scaled again with another standard scaler
compression with PCA method is done.
compression rate: 98.78% reconstruction MAE: 0.0475 reconstruction MAPE: 3.50%
compressed data dimension: 50
single link scenario regression with PCA + LinearRegression approach is done.
test score (coefficeint of determination): 0.99916
here are some predictions (with km as unit):
index Mode prediction target |target-prediction|
593 optimal 720.4 720.0 0.4
141 optimal 158.9 160.0 1.1
1670 degradation 1146.2 1160.0 13.8
192 optimal 965.9 960.0 5.9
1684 degradation 1151.6 1160.0 8.4
1622 degradation 1069.4 1080.0 10.6
2103 sub-optimal 1335.6 1340.0 4.4
1497 degradation 1009.4 1000.0 9.4
1255 degradation 1889.2 1880.0 9.2
356 optimal 1428.0 1440.0 12.0
######################################################################################################
## multiple links scenario: launch power prediction with constellation samples and sample location ###
######################################################################################################
dataset is loaded and preprocessed with standard scaler and split into train-test
features are compressed with PCA and scaled again with another standard scaler
compression with PCA method is done.
compression rate: 99.69% reconstruction MAE: 1.1959 reconstruction MAPE: 67.22%
compressed data dimension: 50
multiple links scenario classification with PCA + SVM approach is done.
confusion matrix:
1 dBm (prediction) 2 dBm (prediction)
1 dBm (target) 132 0
2 dBm (target) 34 98
accuracy: 0.87121
here are some predictions (with dBm as unit):
index prediction target
501 1 1
141 1 1
496 1 1
578 2 2
463 1 1
56 1 1
35 1 2
771 1 1
63 2 2
285 1 2
######################################################################################################
###################################### All done in 73 seconds! #######################################
######################################################################################################
The dataset used in this repository is downloaded from [1]. The motivation of the use cases is partially credited to [2].
[1] Ruiz Ramı́rez, M., Velasco Esteban, L. & Sequeira, D. Optical Constellation Analysis (OCATA). (CORA.Repositori de Dades de Recerca,2022), https://doi.org/10.34810/data146
[2] Ruiz, M., Sequeira, D. & Velasco, L. Deep learning-based real-time analysis of lightpath optical constellations [Invited]. Journal Of Optical Communications And Networking. 14, C70-C81 (2022)
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