Academic literature on the topic 'Алгоритм контролю та діагностики'
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Journal articles on the topic "Алгоритм контролю та діагностики"
Nykytyuk, S. O. "АЛГОРИТМ ДІАГНОСТИКИ МІГРУЮЧОЇ ЕРИТЕМИ В ДІТЕЙ." Інфекційні хвороби, no. 4 (January 30, 2019): 15–19. http://dx.doi.org/10.11603/1681-2727.2018.4.9771.
Full textСердюк, Ольга Юріївна, and Іван Анатолійович Маринич. "Система контролю технічного стану обладнання конвеєра з візуалізацією основних параметрів." Технічна інженерія, no. 2(88) (November 30, 2021): 42–49. http://dx.doi.org/10.26642/ten-2021-2(88)-42-49.
Full textShostakovych-Koretska, L. R., І. V. Budayeva, А. V. Cherginets, V. V. Mavrutenkov, and N. Ye Marchenko. "Лайм-бореліоз: питання діагностики і терапії." ACTUAL INFECTOLOGY, no. 2.03 (April 1, 2014): 34–38. http://dx.doi.org/10.22141/2312-413x.2.03.2014.82346.
Full textKoshak, Yu F. "ДІАГНОСТИЧНИЙ АЛГОРИТМ ТА ОБ’ЄМ ДОСЛІДЖЕННЯ ПАЦІЄНТІВ ІЗ ПІДОЗРОЮ НА ТУБЕРКУЛЬОЗНУ ЕМПІЄМУ ПЛЕВРИ." Вісник соціальної гігієни та організації охорони здоров'я України, no. 1 (March 25, 2020): 48–55. http://dx.doi.org/10.11603/1681-2786.2020.1.11207.
Full textSirenko, Yu M., G. D. Radchenko, I. O. Zhivilo, and Yu A. Botsyuk. "Алгоритми діагностики та лікування ідіопатичної легеневої артеріальної гіпертензії." HYPERTENSION 14, no. 5 (January 24, 2022): 5–28. http://dx.doi.org/10.22141/2224-1485.14.5.2021.245239.
Full textPoltorak, V. V. "Око як провісник кардіоваскулярної патології у хворих на цукровий діабет (Патогенетичний аспект та клінічна реалізація)." INTERNATIONAL JOURNAL OF ENDOCRINOLOGY (Ukraine), no. 3.51 (March 10, 2013): 69–76. http://dx.doi.org/10.22141/2224-0721.3.51.2013.84333.
Full textYanko, A., and V. Zviezdin. "РОЗРОБКА МЕТОДІВ ТА АЛГОРИТМІВ СТИСНЕННЯ ІНФОРМАЦІЙНИХ ДАНИХ ТАБЛИЧНИХ СТРУКТУР." Системи управління, навігації та зв’язку. Збірник наукових праць 1, no. 63 (February 26, 2021): 120–22. http://dx.doi.org/10.26906/sunz.2021.1.120.
Full textЄфремова, Оксана. "МОДЕЛЬ ПІДВИЩЕННЯ ЯКОСТІ ПІДГОТОВКИ МАЙБУТНІХ ІНЖЕНЕРІВ-ПЕДАГОГІВ." Professional Pedagogics 2, no. 21 (September 28, 2020): 60–67. http://dx.doi.org/10.32835/2707-3092.2020.21.60-67.
Full textСІВАК, Вадим, Ігор ДАБІЧЕВ, and Сергій СИЛКА. "ПЕРСПЕКТИВИ ВИКОРИСТАННЯ ЕЛЕМЕНТІВ НЕЧІТКОЇ ЛОГІКИ ДЛЯ КОНТРОЛЮ ТЕХНІЧНОГО СТАНУ АВТОМОБІЛЬНОЇ ТА БРОНЕТАНКОВОЇ ТЕХНІКИ." Збірник наукових праць Національної академії Державної прикордонної служби України. Серія: військові та технічні науки 82, no. 1 (February 2, 2021): 286–304. http://dx.doi.org/10.32453/3.v82i1.545.
Full textМуравйов, О. В., В. Ф. Петрик, Ю. Ю. Лисенко, Г. А. Богдан, and А. В. Наконечная. "АВТОМАТИЗАЦІЯ МЕТОДУ ТЕРМОГРАФІЧНОЇ ДІАГНОСТИКИ ПАТОЛОГІЙ ОРГАНІЗМУ ЛЮДИНИ." Таврійський науковий вісник. Серія: Технічні науки, no. 1 (April 8, 2022): 47–53. http://dx.doi.org/10.32851/tnv-tech.2022.1.5.
Full textDissertations / Theses on the topic "Алгоритм контролю та діагностики"
Аврутов, Вадим Вікторович. "Розвиток теорії автономного визначення навігаційних параметрів рухомих та нерухомих об’єктів." Thesis, КПІ ім. Ігоря Сікорського, 2020. https://ela.kpi.ua/handle/123456789/38393.
Full textThe dissertation is devoted to solving a scientific problem creation of a theory of new methods for autonomous determination of navigation parameters of moving and stationary objects by creating methods for determining latitude and longitude using an inertial measurement unit on a fixed base, determining latitude, longitude and heading on a moving base, which makes it possible, in comparison with traditional SINS algorithms, to do without integration accelerometers output signals, and determination of longitude requires only the integration of gyroscopes output signals. The development of autonomous navigation and orientation systems has recently become of great importance. Such autonomous systems are primarily gimbaled inertial navigation systems (INS) and strapdown inertial navigation systems (SINS). The main principle of operation of INS and SINS is double integration of accelerometer output signals, as well as integration of gyroscope output signals into SINS. The presence of errors in accelerometers and gyroscopes leads to a growth in location errors over time. The first way to increase the accuracy of SINS is to improve their sensitive elements. The second way to increase the accuracy of SINS is to adjust their readings on satellite, astronavigation and other systems. However, such integrated navigation systems are no longer autonomous. It is important to create such autonomous inertial navigation systems that would not depend on the impressions of satellite and other navigation systems, would have sufficient accuracy and at the same time would have an affordable price. But alas, there is still no theory of such autonomous navigation systems, which would determine the location by different from standard algorithms for double integration of accelerometer readings. That is, there is a problem of creating new ways of autonomous determination of navigation parameters using sensitive elements of medium accuracy. Moreover, for fixed objects the autonomous determination of the initial coordinates or location is relevant, and for the moving ones - the autonomous determination of the location by different from the standard algorithms of double integration of the accelerometer readings. This necessitates the development of new scientifically sound methods and algorithms for autonomous determination of navigation parameters of moving and stationary objects, which would provide acceptable accuracy in determining the location in the conditions of external interference to radio navigation systems.
Диссертационная работа посвящена решению научной проблемы создания теории нового автономного определения навигационных параметров подвижных и неподвижных объектов путем создания методов определения широты и долготы с помощью инерциально-измерительного модуля на неподвижном основании, определения широты, долготы и курса на подвижном основании, что позволяет в сравнении с традиционными алгоритмами БИНС обходиться без интегрирования показаний акселерометров, а определение долготы требует только интегрирования показаний гироскопов.
Мельник, Юлія Миколаївна, Юлия Николаевна Мельник, Yuliia Mykolaivna Melnyk, and Ю. С. Суржанова. "Алгоритм комплексної діагностики бізнес-портфеля підприємства." Thesis, Видавництво СумДУ, 2008. http://essuir.sumdu.edu.ua/handle/123456789/18684.
Full textЛастівка, І. В., Н. І. Підвисоцька, and М. Д. Унгурян. "Епідеміологія та алгоритм діагностики множинних уроджених вад." Thesis, Матеріали наукового симпозіуму «Анатомо-хірургічні аспекти дитячої гастроентерології», 2007. http://dspace.bsmu.edu.ua:8080/xmlui/handle/123456789/5823.
Full textКурочка, В. В., В. О. Бенюк, О. А. Диндар, and Т. Р. Никонюк. "Алгоритм діагностики аденоміозу та гіперплазії ендометрія у жінок репродуктивного віку." Thesis, Видавництво СумДУ, 2009. http://essuir.sumdu.edu.ua/handle/123456789/11167.
Full textСеребренніков, С. В., S. Serebrennikov, О. І. Сіріков, A. Sirikov, В. П. Кротовський, and V. Krotovskyy. "Прилади комплексного контролю та діагностики стану високовольтних ізоляторів під напругою." Thesis, НТУУ "КПІ”, 2006. http://dspace.kntu.kr.ua/jspui/handle/123456789/5840.
Full textРуденко, Сергій Сергійович. "Вдосконалення методів контролю та діагностики заземлювальних пристроїв діючих високовольтних енергооб'єктів України." Thesis, НТУ "ХПІ", 2018. http://repository.kpi.kharkov.ua/handle/KhPI-Press/34461.
Full textThesis for granting Candidate of Technical sciences Degree in specialty 05.09.13 – Technics of Strong Electric and Magnetic Fields. – National Technical University "Kharkiv Polytechnic Institute", 2018. The thesis is devoted to the improvement of existing methods of determination of normalized parameters at each of the stages of electromagnetic diagnostics, as well as the creation of a qualitatively new approach to the issuance of recommendations for reconstruction a grounding grids to improve the safety of personnels on energy objects of Ukraine. The statistic of soil electrical properties to evaluate the optimal technical requirements for equipment for vertical electrical soil sounding when performing diagnostics of grounding systems is used. The model of the grounding device was based on the solution of the problem about the electrical field potential of the point current source, located in a three-layer soil. This model allows to determine the field potential at any point in case of the location of the grounding device in any of the layers of soil. Mathematical model and computer program for analyzing and interpreting results of the soil sounding by Wenner configuration was created on the base of the analytical solution for field of current point source located in four-, three- or two-layer structure. The method of equivalenting with bringing the multilayer soil to the form of the calculated models was improved. The adequacy of developed mathematical models for experimental measurements on more than 70 existing high-voltage power facility’s of Ukraine with voltage classes 35-150 kV has been checked. It was proved that the reconstruction of grounding system for requirements of touch voltage both in terms of electrical safety and in terms of material and labor costs is more effectiveness. The parametric model that allows predicting the probable material and technical costs for the reconstruction was created.
Руденко, Сергій Сергійович. "Вдосконалення методів контролю та діагностики заземлювальних пристроїв діючих високовольтних енергооб'єктів України." Thesis, НТУ "ХПІ", 2017. http://repository.kpi.kharkov.ua/handle/KhPI-Press/34463.
Full textThesis for granting Candidate of Technical sciences Degree in specialty 05.09.13 – Technics of Strong Electric and Magnetic Fields. – National Technical University "Kharkiv Polytechnic Institute", 2018. The thesis is devoted to the improvement of existing methods of determination of normalized parameters at each of the stages of electromagnetic diagnostics, as well as the creation of a qualitatively new approach to the issuance of recommendations for reconstruction a grounding grids to improve the safety of personnels on energy objects of Ukraine. The statistic of soil electrical properties to evaluate the optimal technical requirements for equipment for vertical electrical soil sounding when performing diagnostics of grounding systems is used. The model of the grounding device was based on the solution of the problem about the electrical field potential of the point current source, located in a three-layer soil. This model allows to determine the field potential at any point in case of the location of the grounding device in any of the layers of soil. Mathematical model and computer program for analyzing and interpreting results of the soil sounding by Wenner configuration was created on the base of the analytical solution for field of current point source located in four-, three- or two-layer structure. The method of equivalenting with bringing the multilayer soil to the form of the calculated models was improved. The adequacy of developed mathematical models for experimental measurements on more than 70 existing high-voltage power facility’s of Ukraine with voltage classes 35-150 kV has been checked. It was proved that the reconstruction of grounding system for requirements of touch voltage both in terms of electrical safety and in terms of material and labor costs is more effectiveness. The parametric model that allows predicting the probable material and technical costs for the reconstruction was created.
Коваленко, А. С. "Основні складові та функції системи технічної діагностики інтегрованих інформаційних систем." Thesis, КНТУ, 2014. http://dspace.kntu.kr.ua/jspui/handle/123456789/2993.
Full textТомашевський, Роман Сергійович. "Підвищення достовірності контролю та діагностики біологічних об'єктів в умовах нестаціонарності вимірювальних сигналів." Thesis, Національний технічний університет "Харківський політехнічний інститут", 2018. http://repository.kpi.kharkov.ua/handle/KhPI-Press/39055.
Full textThe thesis is presented for scientific degree of doctor of technical sciences 05.11.17 – biological and medical devices and systems. – National Technical University "Kharkiv Polytechnic Institute", Kharkiv, 2018. The thesis is devoted to the solution of an important scientific and applied problem of creating and improving methodological and information technology support for the conditions of a biomedical measurement experiment (BMME), which made it possible to increase the reliability of monitoring and diagnosing the state of a biological object with limitations on the amount of measurement information and statistical heterogeneity of non-stationary biophysical signals. The paper proposes a fundamental basis for solving this problem based on the methods of factor analysis taking into account the probabilistic properties of biological objects, the dynamic characteristics of biophysical signals and the actual conditions of a BMME, such as limited research time, real-time work and the influence of external factors that were not included into the experiment plan. Mathematical models were developed for calculating the expected amount of diagnostic information, taking into account the type of plan of a biomedical measuring experiment and the restriction on the amount of measurements, which allowed a quantitative assessment of the contribution of each of the parameters of the experiment plan to the total amount of information received. The information theory of diagnostic and diagnostic solutions for planning a biomedical measurement experiment was further developed. For the first time, mathematical models have been developed for calculating the expected number of diagnostic and control information, taking into account the type of plan of the biomedical measurement experiment and the restriction on the amount of measurements. A method for the covariance analysis of two-dimensional medical signals with multiple measurements, correlation-spectral methods for detecting violations of stationarity of biophysical signals under dynamically continuous factorial loads, a method and technical means for monitoring dynamically non-stationary bioelectric signals have been developed. The work proves a stochastic relationship between the levels of quantization of induced signals in a biological object and the functional states of this object by using the developed covariance and correlation spectral methods of data analysis, which allowed for the classification and express control of biological objects and states. Based on this, a hardware information system has been developed that allows for the rapid diagnosis of liquid biological samples, including oncological diseases (colorectal cancer). The results of experimental studies of the system showed its compliance with medical and technical requirements and the possibility of obtaining diagnostic information for normalized mechanical effects on biological samples.
Томашевський, Роман Сергійович. "Підвищення достовірності контролю та діагностики біологічних об'єктів в умовах нестаціонарності вимірювальних сигналів." Thesis, Національний технічний університет "Харківський політехнічний інститут", 2018. http://repository.kpi.kharkov.ua/handle/KhPI-Press/39121.
Full textThe thesis is presented for scientific degree of doctor of technical sciences 05.11.17 – biological and medical devices and systems. – National Technical University "Kharkiv Polytechnic Institute", Kharkiv, 2018. The thesis is devoted to the solution of an important scientific and applied problem of creating and improving methodological and information technology support for the conditions of a biomedical measurement experiment (BMME), which made it possible to increase the reliability of monitoring and diagnosing the state of a biological object with limitations on the amount of measurement information and statistical heterogeneity of non-stationary biophysical signals. The paper proposes a fundamental basis for solving this problem based on the methods of factor analysis taking into account the probabilistic properties of biological objects, the dynamic characteristics of biophysical signals and the actual conditions of a BMME, such as limited research time, real-time work and the influence of external factors that were not included into the experiment plan. Mathematical models were developed for calculating the expected amount of diagnostic information, taking into account the type of plan of a biomedical measuring experiment and the restriction on the amount of measurements, which allowed a quantitative assessment of the contribution of each of the parameters of the experiment plan to the total amount of information received. The information theory of diagnostic and diagnostic solutions for planning a biomedical measurement experiment was further developed. For the first time, mathematical models have been developed for calculating the expected number of diagnostic and control information, taking into account the type of plan of the biomedical measurement experiment and the restriction on the amount of measurements. A method for the covariance analysis of two-dimensional medical signals with multiple measurements, correlation-spectral methods for detecting violations of stationarity of biophysical signals under dynamically continuous factorial loads, a method and technical means for monitoring dynamically non-stationary bioelectric signals have been developed. The work proves a stochastic relationship between the levels of quantization of induced signals in a biological object and the functional states of this object by using the developed covariance and correlation spectral methods of data analysis, which allowed for the classification and express control of biological objects and states. Based on this, a hardware information system has been developed that allows for the rapid diagnosis of liquid biological samples, including oncological diseases (colorectal cancer). The results of experimental studies of the system showed its compliance with medical and technical requirements and the possibility of obtaining diagnostic information for normalized mechanical effects on biological samples.
Reports on the topic "Алгоритм контролю та діагностики"
Щербина, С. М., and І. Ю. Щербина. Діагностика навчально-пізнавальної діяльності студентів методом тестування. Криворізький державний педагогічний університет, 2009. http://dx.doi.org/10.31812/123456789/3084.
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