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home:technologies:topology [2025/01/07 06:58] – [Anomaly detection] rahulhome:technologies:topology [2025/01/07 08:05] (current) – [Anomaly detection] rahul
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 https://github.com/LLNL/gridds https://github.com/LLNL/gridds
  
 +<note>MIT License
 +
 +Copyright (c) 2022 Alexander Ladd
 +</note>
 Recent research on distributed energy resources (DER) has been focused on aggregating data and feedback control to enhance the reliability and performance of energy grid. The ability to forecast load factor at transformers and substations can greatly improve demand and supply side load management. Similarly, detecting incipient failures for key devices in the system can reduce the entire grid failure, which effectively enhances the reliability of the energy grid. Machine learning models, such as fault detection and time series forecasting models, present new and innovative approaches to solving these aforementioned challenges [7, 10, 45]. Recent research on distributed energy resources (DER) has been focused on aggregating data and feedback control to enhance the reliability and performance of energy grid. The ability to forecast load factor at transformers and substations can greatly improve demand and supply side load management. Similarly, detecting incipient failures for key devices in the system can reduce the entire grid failure, which effectively enhances the reliability of the energy grid. Machine learning models, such as fault detection and time series forecasting models, present new and innovative approaches to solving these aforementioned challenges [7, 10, 45].
  
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 https://colab.research.google.com/github/LLNL/gridds/blob/master/docs/source/autoregression.ipynb https://colab.research.google.com/github/LLNL/gridds/blob/master/docs/source/autoregression.ipynb
 +
 +https://colab.research.google.com/github/LLNL/gridds/blob/master/docs/source/autoregression_visualization.ipynb
 +
 +Touched up requirements.txt:
  
 <csv hdr_rows=0 file=:home:technologies:requirements.csv maxlines=10>requirements.txt</csv> <csv hdr_rows=0 file=:home:technologies:requirements.csv maxlines=10>requirements.txt</csv>
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 ''!pip install -r requirements.txt'' ''!pip install -r requirements.txt''
  
 +At least one dependency unmet: Our proposed method uses a data-driven deep learning method called Latent Ordinary Differential Equations (LatentODE) for data imputation, followed by a Bayesian non-parametric method called **distance-dependent Chinese Restaurant Franchise** (dd-CRF) for unsupervised discovery of latent states of the energy grid.
 +
 +<note warning>/content/gridds/experimenter.py in <module>
 +     17 from abc import ABCMeta, abstractmethod
 +     18 import numpy as np
 +---> 19 from ddcrf.run_ddcrf import run_ddcrf
 +     20 import gridds.tools.utils as utils
 +     21 from sklearn import preprocessing
 +
 +ModuleNotFoundError: No module named 'ddcrf'</note>