Advances In Cyber-Physical Systems. – 2022. – Vol. 7, No. 1

Permanent URI for this collectionhttps://ena.lpnu.ua/handle/ntb/57965

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Засновник і видавець Національний університет «Львівська політехніка». Виходить двічі на рік з 2016 року.

Advances in Cyber-Physical Systems / Lviv Polytechnic National University ; editor-in-chief A. Melnyk. – Lviv : Lviv Politechnic Publishing House, 2022. – Volume 7, number 1. – 64 p. : il.

Зміст

1. Borak T., Kushnir D., Paramud Y. Microprocessor subsystem of the smart house to control the multichannel irrigation of the room plants	1
2. Britvin A., Alrawashdeh J. H., Tkachuck R. Client-server system for parsing data from web pages	8
3. Feshchenko Z., Yurchak I. Service for monitoring the conditions of vaccination of the population against coronavirus infection	15
4. Kose B. O., Uluoz H., Coskun V. A secure design on mifare classic cards for ensuring contactless payment and control services	22
5. Lozynskyi Y., Torubka T. Smart information board based on PSOC 6 MCU	29
6. Kundys S., Havano B., Morozov M. Software system for monitoring the situation in the settlement	38
7. Progonov D. Performance analysis of stego image calibration with the usage of denoising autoencoders	46
8. Zaiats T., Bilenko V., Hlukhov V. Features of using large keys in “Kalyna” algorithm	55

Content (Vol. 7, No 1)

1. Borak T., Kushnir D., Paramud Y. Microprocessor subsystem of the smart house to control the multichannel irrigation of the room plants	1
2. Britvin A., Alrawashdeh J. H., Tkachuck R. Client-server system for parsing data from web pages	8
3. Feshchenko Z., Yurchak I. Service for monitoring the conditions of vaccination of the population against coronavirus infection	15
4. Kose B. O., Uluoz H., Coskun V. A secure design on mifare classic cards for ensuring contactless payment and control services	22
5. Lozynskyi Y., Torubka T. Smart information board based on PSOC 6 MCU	29
6. Kundys S., Havano B., Morozov M. Software system for monitoring the situation in the settlement	38
7. Progonov D. Performance analysis of stego image calibration with the usage of denoising autoencoders	46
8. Zaiats T., Bilenko V., Hlukhov V. Features of using large keys in “Kalyna” algorithm	55

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Performance analysis of stego image calibration with the usage of denoising autoencoders
(Видавництво Львівської політехніки, 2022-06-06) Progonov, Dmytro; Igor Sikorsky Kyiv Polytechnic Institute
Methods for early detection of sensitive information leakage by data transmission in open (public) communication systems have been of special interest. Reliable detection of modified (stego) cover files, like digital images, requires usage of computation-intensive methods of statistical steganalysis, namely covering rich models and deep convolutional neural networks. Necessity of finetuning parameters of such methods to minimize detection accuracy for each embedding methods has made fast retrain of stegdetectors in real cases impossible. Therefore, development of low-complexity methods for detection of weak alterations of cover image parameters under limited prior information about used embedding methods has been required. For solving this task, we have proposed to use special architectures of artificial neural networks, such as denoising autoencoder. Ability of such networks to estimate parameters of original (cover) image from the noisy ones under limited prior information about introduced alterations has made them an attractive alternative to state-of-the-art solutions. The results of performance evaluation for shallow denoising autoencoders showed increasing of detection accuracy (up to 0.1 for Matthews correlation coefficient) in comparison with the state-of-the-art stegdetectors by preserving low-computation complexity of network retraining.

Advances In Cyber-Physical Systems. – 2022. – Vol. 7, No. 1

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