Artem Budko scite author profile

An approach of peak pressure position and maximum pressure estimation in the chambers of internal combustion engine (ICE) is proposed in the paper. The approach is based on analysis of integral characteristic of ion current and has potentials due to robustness of estimation results to cycle-by-cycle parameters variations of combustion process and variations of measuring probe parameters. Besides, the use of integral characteristic does not require the knowledge of noise sensitive ion current profile. The proposed idea is validated via experiments and compared with analogous method of peak pressure angle calculation using thermal ionization of ion current. The final result of estimation can be applied in spark ignition or diesel engine control, wherein the proposed estimation mechanism can be applied in feedback instead of the use of expensive high pressure sensors or analog lambda sensors. 

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Investigation of the Possibility of Vector-Command Control Based on Forearm EMG

Budko

Medvedev

Budko

et al. 2021

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The work is devoted to solving the problems of increasing the depth and increasing the long-term stability of communication channels in human-machine interfaces, built on the electrical activity databases of the forearm muscles. For this, a method for analyzing electromyogram (EMG) signals is proposed, which combines vector and command control. The mathematical model for vector analysis of EMG is built in spherical coordinates based on the real spatial arrangement of the electrodes on the forearm, taking into account the possibility of a random phase shift during operation. Vector analysis of EMG is used to solve the calibration task of EMG sensors channels by the spatial arrangement of the electrodes and calculating the resultant vector of muscular forces. These forces are used as an additional information channel to set the movement direction of the control object operating point. Command control is based on gesture recognition by means of a pretrained artificial neural network (ANN) of the multilayer perceptron type. Processing results of actually recorded EMG signals by the proposed method are presented. There are given research results of correlation between processed signal fragments duration and the process of extracting the hand rotational movement information. It is proposed to use the signal duration of 250 ms. An algorithm of reassigning and calibrating the EMG channels amplification is proposed, which makes it possible to use further a once trained ANN for recognition and classification of gestures, while the position changing of electrodes between operation sessions is allowed. The work results can be used for calibration algorithms development, gesture recognition, and control of technical objects based on electromyographic human-machine interfaces.

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Artem Budko

Adaptive Control System Design for Robotic Aircrafts

Preprocessing Data for Facial Gestures Classifier on the Basis of the Neural Network Analysis of Biopotentials Muscle Signals

Recognition of facial movements by facial electromyogram signals in real time

Analysis of Ion Current Integral Characteristics for Estimation of Combustion Process Parameters in Internal Combustion Engines

Investigation of the Possibility of Vector-Command Control Based on Forearm EMG

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