Adaptive hoeffding tree with transfer learning for streaming synchrophasor data sets

Z El Mrabet, DF Selvaraj… - 2019 IEEE International …, 2019 - ieeexplore.ieee.org
2019 IEEE International Conference on Big Data (Big Data), 2019ieeexplore.ieee.org
Synchrophasor technology or phasor measurement units (PMUs) are known to detect
multiple type of oscillations or faults better than Supervisory Control and Data Acquisition
(SCADA) systems, but the volume of Bigdata (eg, 30-120 samples per second on a single
PMU) generated by these sensors at the aggregator level (eg, several PMUs) requires
special handling. Conventional machine learning or data mining methods are not suitable to
handle such larger streaming real-time data. This is primarily due to latencies associated …
Synchrophasor technology or phasor measurement units (PMUs) are known to detect multiple type of oscillations or faults better than Supervisory Control and Data Acquisition (SCADA) systems, but the volume of Bigdata (e.g., 30-120 samples per second on a single PMU) generated by these sensors at the aggregator level (e.g., several PMUs) requires special handling. Conventional machine learning or data mining methods are not suitable to handle such larger streaming real-time data. This is primarily due to latencies associated with cloud environments (e.g., at an aggregator or PDC level), and thus necessitates the need for local computing to move the data on the edge (or locally at the PMU level) for processing. This requires faster real-time streaming algorithms to be processed at the local level (e.g., typically by a Field Programmable Gate Array (FPGA) based controllers). This paper proposes a transfer learning-based hoeffding tree with ADWIN (THAT) method to detect anomalous synchrophasor signatures. The proposed algorithm is trained and tested with the OzaBag method. The preliminary results with transfer learning indicate that a computational time saving of 0. 7ms is achieved with THAT algorithm (0.34ms) over Ozabag (1.04ms), while the accuracy of both methods in detecting fault events remains at 94% for four signatures.
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