Maxim Safronov scite author profile

Maxim Safronov

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5Publications

2Citation Statements Received

0Citation Statements Given

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Affiliations

Penza State University

Publications

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Controlled Synthesis of Multifunctional Coatings by Micro-Arc Oxidation Method

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et al. 2022

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The article is devoted to the development of the methodology for the controlled synthesis of protective coatings by the micro-arc oxidation method in order to improve the efficiency of this technology and the quality of the obtained oxide layers. Methodology includes a mathematical model of a galvanic cell based on an equivalent electrical circuit, as well as a model of the interconnections between the technological parameters of the micro-arc oxidation (MAO) process and the properties of the obtained oxide layers based on graph theory. The indicated dependences are formalized using methods of regression and correlation analysis of experimental data. A technique for the controlled synthesis of MAO coatings using the obtained regression equations is proposed. The structure and functioning algorithm of an intelligent automated system for the controlled synthesis of MAO coatings are developed. A prototype of this system was used to obtain experimental dependences of reaction parameters on the influence parameters of the micro-arc oxidation process.

Mobile ECG monitoring system prototype and wavelet-based arrhythmia detection

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et al. 2017

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Mobile ECG Monitoring Device with Bioimpedance Measurement and Analysis

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et al. 2019

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Device and software for mobile heart monitoring

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et al. 2016

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Mobile Heart Monitoring System Prototype

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et al. 2020

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This chapter describes a design of prototype of mobile heart monitoring system based on the Texas Instruments ADS1298R ECG front end and NRF52832 wireless data transmission chip. The described design and technical details allow developing a new mobile heart monitoring system consisting of ECG recording device, mobile computer (smartphone or tablet). The algorithm for ECG recovery using a reverse filter, whose parameters are determined by means of bioimpedance measurement, is described. The new algorithm of J-point detection is described and examined on the test ECG database. The detection rate is from 88% to 93%. It will allow mobile monitoring system to inform the user about any signs of dangerous heart condition in ECG. The chapter also describes experimental results of wireless protocol bandwidth and contact break detection. The results confirm the efficiency of the proposed technical solutions to mobile heart monitoring for wide range of applications from sports and fitness to monitoring for medical reasons.

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