Performance measurement with high performance computer of HW-GA anomaly detection algorithms for streaming data

Authors

  • Jakup Fondaj Faculty of Contemporary Sciences and Technologies, South East European University , Tetovo, Macedonia
  • Zirije Hasani University "Ukshin Hoti" Prizren https://orcid.org/0000-0001-6888-9465
  • Samedin Krrabaj University Ukshin Hoti Prizren

DOI:

https://doi.org/10.7494/csci.2022.23.3.4389

Abstract

Anomaly detection is very important in every sector as health, education, business, etc. Knowing what is going wrong with data/digital system help peoples from every sector to take decision. Detection anomalies in real time Big Data is nowadays very crucial. Dealing with real time data requires speed, for this reason the aim of this paper is to measure the performance of our previously proposed HW-GA algorithm compared with other anomaly detection algorithms. Many factors will be analyzed which may affect the performance of HW-GA as visualization of result, amount of data and performance of computers. Algorithm execution time and CPU usage are the parameters which will be measured to evaluate the performance of HW-GA algorithm. Also, another aim of this paper is to test the HW-GA algorithm with large amount of data to verify if it will find the possible anomalies and the result to compare with other algorithms. The experiments will be done in R with different datasets as real data Covid-19 and e-dnevnik data and three benchmarks from Numenta datasets. The real data have not known anomalies but in the benchmark data the anomalies are known this is in order to evaluate how the algorithms work in both situations. The novelty of this paper is that the performance will be tested in three different computers which one of them is high performance computer.

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Published

2022-10-02

How to Cite

Fondaj, J., Hasani, Z., & Krrabaj, S. . (2022). Performance measurement with high performance computer of HW-GA anomaly detection algorithms for streaming data. Computer Science, 23(3). https://doi.org/10.7494/csci.2022.23.3.4389

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