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Application of Enhanced CPC for Load Identification, Preventive Maintenance and Grid Interpretation

Author

Listed:
  • Netzah Calamaro

    (School of Electrical and Electronics Engineering, Tel-Aviv University, Tel-Aviv 39040, Israel)

  • Avihai Ofir

    (School of Electrical and Electronics Engineering, Tel-Aviv University, Tel-Aviv 39040, Israel)

  • Doron Shmilovitz

    (School of Electrical and Electronics Engineering, Tel-Aviv University, Tel-Aviv 39040, Israel)

Abstract

Currents’ Physical Components (CPC) theory with spectral component representation is proposed as a generic grid interpretation method for detecting variations and structures. It is shown theoretically and validated experimentally that scattered and reactive CPC currents are highly suited for anomaly detection. CPC are enhanced by recursively disassembling the currents into 6 scattered subcomponents and 22 subcomponents overall, where additional anomalies dominate the subcurrents. Further disassembly is useful for anomaly detection and for grid deciphering. It is shown that the newly introduced syntax is highly effective for identifying variations even when the detected signals are in the order of 10 −3 compared to conventional methods. The admittance physical components’ transfer functions, Y i (ω), have been shown to improve the physical sensory function. The approach is exemplified in two scenarios demonstrating much higher sensitivity than classical electrical measurements. The proposed module may be located at a data center remote from the sensor. The CPC preprocessor, by means of a deep learning CNN, is compared to the current FFT and the current input raw data, which demonstrates 18% improved accuracy over FFT and 45% improved accuracy over raw current i ( t ). It is shown that the new preprocessor/detector enables highly accurate anomaly detection with the CNN classification core.

Suggested Citation

  • Netzah Calamaro & Avihai Ofir & Doron Shmilovitz, 2021. "Application of Enhanced CPC for Load Identification, Preventive Maintenance and Grid Interpretation," Energies, MDPI, vol. 14(11), pages 1-41, June.
  • Handle: RePEc:gam:jeners:v:14:y:2021:i:11:p:3275-:d:568411
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    References listed on IDEAS

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    1. Yuval Beck & Ram Machlev, 2019. "Harmonic Loads Classification by Means of Currents’ Physical Components," Energies, MDPI, vol. 12(21), pages 1-18, October.
    2. Calamaro, N. & Beck, Y. & Shmilovitz, D., 2015. "A review and insights on Poynting vector theory and periodic averaged electric energy transport theories," Renewable and Sustainable Energy Reviews, Elsevier, vol. 42(C), pages 1279-1289.
    3. Koponen, Kati & Le Net, Elisabeth, 2021. "Towards robust renewable energy investment decisions at the territorial level," Applied Energy, Elsevier, vol. 287(C).
    4. Beck, Y. & Calamaro, N. & Shmilovitz, D., 2016. "A review study of instantaneous electric energy transport theories and their novel implementations," Renewable and Sustainable Energy Reviews, Elsevier, vol. 57(C), pages 1428-1439.
    5. Kati Koponen & Elisabeth Le Net, 2021. "Towards robust renewable energy investment decisions at the territorial level," Post-Print cea-03216464, HAL.
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    Cited by:

    1. Netzah Calamaro & Yuval Beck & Ran Ben Melech & Doron Shmilovitz, 2021. "An Energy-Fraud Detection-System Capable of Distinguishing Frauds from Other Energy Flow Anomalies in an Urban Environment," Sustainability, MDPI, vol. 13(19), pages 1-38, September.

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