Using the sugeno indistinct implication algorithm for identifying emotions based on the information on the motor units
| Authors: Shtanskiy A.D. | Published: 23.04.2018 |
| Published in issue: #4(21)/2018 | |
| DOI: DOI: 10.18698/2541-8009-2018-4-296 | |
| Category: Medical sciences | Chapter: Medical equipment and devices | |
| Keywords: emotion, motor units, Facial Action Coding System, fuzzy logic, Sugeno algorithm, MATLAB FuzzyLogic-Toolbox | |
Prototype of the stand for study range of motion of a wrist joint
| Authors: Scherbak O.Yu., Maslennikov A.L. | Published: 16.05.2018 |
| Published in issue: #5(22)/2018 | |
| DOI: DOI: 10.18698/2541-8009-2018-5-315 | |
| Category: Medical sciences | Chapter: Medical equipment and devices | |
| Keywords: wrist joint, range of motion, inertial measurement unit, surface electromyography, laboratory stand prototype, Arduino, goniometers, motion capture systems | |
Peculiar features of using the stimulus material for creating the emotionally coloured speech database
| Authors: Horava A.V. | Published: 21.06.2018 |
| Published in issue: #6(23)/2018 | |
| DOI: DOI: 10.18698/2541-8009-2018-6-334 | |
| Category: Medical sciences | Chapter: Medical equipment and devices | |
| Keywords: basic emotions, signal characteristics, speech signal intensity, base frequency, first formant frequencies, tempo of speech | |
Prototype of the system for monitoring running effectiveness
| Authors: Tsygankova I.S., Maslennikov A.L. | Published: 27.06.2018 |
| Published in issue: #6(23)/2018 | |
| DOI: DOI: 10.18698/2541-8009-2018-6-337 | |
| Category: Medical sciences | Chapter: Medical equipment and devices | |
| Keywords: sports tracker, trajectory, running dynamics, GSNS receiver, inertial measurement unit, Arduino, STM32, ECG sensor | |
Experimental research into the vertebrae ultrasonic perforation
| Authors: Sayfutdinova M.S., Borde A.S. | Published: 06.08.2018 |
| Published in issue: #7(24)/2018 | |
| DOI: DOI: 10.18698/2541-8009-2018-7-352 | |
| Category: Medical sciences | Chapter: Medical equipment and devices | |
| Keywords: ultrasound, surgery, transpedicular system, biomechanical trials, spinal column, puncturing, bone tissue, cortical layer | |
The influence of the sound velocity change on the amplification gain of the ultrasound instrument
| Authors: Belikov N.V., Sizova D.D. | Published: 18.09.2018 |
| Published in issue: #9(26)/2018 | |
| DOI: DOI: 10.18698/2541-8009-2018-9-375 | |
| Category: Medical sciences | Chapter: Medical equipment and devices | |
| Keywords: thermal processing, sound velocity, atherosclerosis, ultrasound, angiolsurgery, surgical instruments, functionally gradient materials, amplification gain | |
Investigation of methods for processing the electromyographic signal in the problem of controlling the prosthesis of the upper limb
| Authors: Shestopalov D.O., Markova M.V. | Published: 02.10.2018 |
| Published in issue: #9(26)/2018 | |
| DOI: DOI: 10.18698/2541-8009-2018-9-382 | |
| Category: Medical sciences | Chapter: Medical equipment and devices | |
| Keywords: electromyography, digital signal processing, time domain, prosthetic motility, method effectiveness, upper extremity prosthesis, artificial limb | |
Using of deep learning in the task of diagnosing diseases using optical coherence tomography images
| Authors: Tsykunov D.V., Moiseeva V.A. | Published: 17.12.2018 |
| Published in issue: #12(29)/2018 | |
| DOI: DOI: 10.18698/2541-8009-2018-12-416 | |
| Category: Medical sciences | Chapter: Medical equipment and devices | |
| Keywords: optical coherent tomography, deep learning, convolutional neural networks, artificial intelligence, image classification, choroidal neovascularization, diabetic retinopathy, retina | |
Overview of the use of acoustic brainstem evoked potentials in modern clinical practice
| Authors: Gress V.V. | Published: 29.07.2019 |
| Published in issue: #7(36)/2019 | |
| DOI: DOI: 10.18698/2541-8009-2019-7-497 | |
| Category: Medical sciences | Chapter: Medical equipment and devices | |
| Keywords: acoustic brainstem evoked potentials (ABEP), multiple sclerosis, neonatal audiometry, sensitivity, specificity, diagnostics, clinical practice | |
Experimental study of working area of an endosurgical instrument
| Authors: Gabuzov G.G. | Published: 30.07.2019 |
| Published in issue: #7(36)/2019 | |
| DOI: DOI: 10.18698/2541-8009-2019-7-499 | |
| Category: Medical sciences | Chapter: Medical equipment and devices | |
| Keywords: surgery, endosurgery, laparoscopy, surgical instruments, working area of a surgical instrument, visualization of movements of a surgical instrument, gyroscope, Arduino | |