Employing the Empirical Mode Decomposition to Denoise the Random Telegraph Noise

A. Moshrefi; H. Aghababa; O. Shoaei

Employing the Empirical Mode Decomposition to Denoise the Random Telegraph Noise

Publish place: International Journal of Engineering (IJE)، Vol: 34، Issue: 1

Publish Year: 1400

نوع سند: مقاله ژورنالی

زبان: English

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https://civilica.com/doc/1185360

شناسه ملی سند علمی:

JR_IJE-34-1_011

تاریخ نمایه سازی: 6 اردیبهشت 1400

Abstract:

Random Telegraph Noise (RTN) is a stochastic phenomenon which leads to characteristic variations in electronic devices. Finding features of this signal may result in its modeling and eventually removing the noise in the device. Measuring this signal is accompanied by some noise and therefore we require a method to improve the Signal to Noise Ratio (SNR). As a result, the extraction of an accurate RTN is a remarkable challenge. Empirical Mode Decomposition (EMD) as a fully adaptive and signal dependent method, with no dependency to the specific function, can be an appropriate solution. In this paper, we evaluate the most recent methods and compare them with our proposed approach for the artificial and actual RTN signals. The results show the higher accuracy and efficiency by about ۵۴%, ۶۱% and ۳۹% improvement in SNR, Mean Square Error (MSE) and Percent Root mean square Difference (PRD) respectively for the optimized wited method. Finally, an indicator to evaluate the reliability in digital circuits is introduced.

Keywords:

Electronic devices , Empirical Mode Decompositio , Noise , Random Telegraph Noise

Authors

A. Moshrefi

School of Electrical and Computer Engineering, University of Tehran, Tehran, Iran

H. Aghababa

School of Electrical and Computer Engineering, University of Tehran, Tehran, Iran

O. Shoaei

School of Electrical and Computer Engineering, University of Tehran, Tehran, Iran

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1. Connelly, J. A., Low-Noise Electronic System Design, Guide Books, ...
2. Li, Z., Sui, N., and Wang, G., "Experimental study ...
3. Roshanian, J., Khaksari, H., Khoshnood, A. M., and Hasani, ...
4. Grasser, T., Rott, K., Reisinger, H., Waltl, M., Franco, ...
5. Valinataj, M., "Reliability and Performance Evaluation of Fault-aware Routing ...
6. Karatsori, T. A., Pastorek, M., Theodorou, C. G., Fadjie, ...
7. Stampfer, B., Zhang, F., Illarionov, Y. Y., Knobloch, T., ...
8. Waltl, M., Wagner, P. J., Reisinger, H., Rott, K., ...
9. Jech, M., Ullmann, B., Rzepa, G., Tyaginov, S., Grill, ...
10. Lai, Y., Li, H., Kim, D. K., Diroll, B. ...
11. Ullmann, B., Jech, M., Puschkarsky, K., Rott, G. A., ...
12. Feng, W., Dou, C. M., Niwa, M., Yamada, K., ...
13. Matsumoto, T., Kobayashi, K., and Onodera, H., "Impact of ...
14. Matsumoto, T., Kobayashi, K., and Onodera, H., "Impact of ...
15. Compagnoni, C. M., Ghidotti, M., Lacaita, A. L., Spinelli, ...
16. Compagnoni, C. M., Spinelli, A. S., Beltrami, S., Bonanomi, ...
17. Veksler, D., Bersuker, G., Vandelli, L., Padovani, A., Larcher, ...
18. Ling, Y. T., Wang, Z. W., Fang, Y. C., ...
19. Imamoto, T., Ma, Y., Muraguchi, M., and Endoh, T., ...
20. L. Forbes and D.A. Miller. Reduction of random telegraph ...
21. Chen, X., Chen, S., Hu, Q., Zhang, S. L., ...
22. Ioannidis, E. G., Leisenberger, F. P., and Enichlmair, H., ...
23. Pirro, L., Zimmerhackl, O., Zaka, A., Miiller-Meskamp, L., Nelluri, ...
24. Islam, A. K. M. M., Oka, M., and Onodera, ...
25. Seo, Y., Woo, C., Lee, M., Kang, M., Jeon, ...
26. Kushwaha, P., Agarwal, H., Lin, Y. K., Dasgupta, A., ...
27. Tanaka, C., Adachi, K., Nakayama, A., Iguchi, Y., and ...
28. Gokcen, A., and Demir, M. A., "Nonstationary Low Frequency ...
29. Mohanty, A., Sutaria, K. B., Awano, H., Sato, T., ...
30. Diaz-Fortuny, J., Martin-Martinez, J., Rodriguez, R., Nafria, M., Castro-Lopez, ...
31. Diaz-Fortuny, J., Martin-Martinez, J., Rodriguez, R., Castro-Lopez, R., Roca, ...
32. Gao, L., Alibart, F., and Strukov, D. B., "Analog-input ...
33. Vaseghi, S. V., Advanced Digital Signal Processing and Noise ...
34. Petrychuk, M., Zadorozhnyi, I., Kutovyi, Y., Karg, S., Riel, ...
35. Higashi, Y., Momo, N., Momose, H. S., Ohguro, T., ...
36. Tega, N., Miki, H., Yamaoka, M., Kume, H., Mine, ...
37. Du, L., Zhuang, Y., and Wu, Y., "1/fγ noise ...
38. Principato, F., and Ferrante, G., "1 / f Noise ...
39. Hendrickson, B., Widenhorn, R., and Blouke, M., "Using Wavelets ...
40. Huang, N. E., "Hilbert-Huang transform and its applications", (Vol. ...
41. Hari Krishna, E., Sivani, K., and Ashoka Reddy, K., ...
42. Seifolazadeh, A., and Edrissi, M., "determination of the rheological ...
43. Wang, F., and Fang, L., "A Fault Diagnosis Method ...
44. Grasser, T., "Stochastic charge trapping in oxides: From random ...

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