Pattern Recognition Control Systems — A Distinct Direction in Intelligent Control

The article presents the results of modeling an intelligent control system for an irrigation complex. The introduction of precision irrigation technologies requires the development of new approaches to technical support. Traditional approaches based on simple process automation often do not lead to effective solutions. An approach based on the model of intellectualization of automated control systems is proposed. The structure of the intelligent control system for the irrigation complex is substantiated, which is based on an artificial neural network.

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Diseño de interfaz gráfica para analizar el ciclo de marcha del cuerpo humano en software libre

Revista de Ingeniería Biomédica y Biotecnología ◽

10.35429/jbeb.2020.12.4.13.17 ◽

2020 ◽

pp. 13-17

Author(s):

Didia Carrillo-Hernández ◽

Yered Uriel Terrones-Lara ◽

Heraclio García-Cervantes ◽

Alan David Blanco-Miranda

Keyword(s):

Control System ◽

Control Systems ◽

Intelligent Control ◽

Motor System ◽

Gait Cycle ◽

Health Sector ◽

Lower Limbs ◽

Essential Information ◽

Intelligent Control System ◽

Over Time

Currently in the country there are more than 27 thousand cases of annual amputations and more than 80% correspond to lower limbs, therefore, the demand for prosthetic equipment is greater than what the health sector institutions can provide. It should be noted that the equipment developed by these institutions is only passive equipment, so that only 10% of patients who receive a prosthetic equipment successfully complete their rehabilitation. The main problems that the patient faces when adapting to their prosthetic equipment is the response time and alignment vs the healthy limb, since it does not have an intelligent control system that allows them to respond in real time as the losted limb did. This causes gaps when performing your gait cycle, this over time can bring about abnormalities in your posture affecting the alignment of your motor system. This work allows us to analyze the range of motion of the ankles and knees, in addition to determining the angular velocity of both, it is essential information for the development of control systems necessary for active prosthetic equipment. The programming language where it was developed is the Python 3.7 software and additionally reproduce the simulation of the gait cycle.

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On the Need to Create Intelligent Control Systems for Systems with a Critical Mission

Успехи кибернетики / Russian Journal of Cybernetics ◽

10.51790/2712-9942-2021-2-4-6 ◽

2021 ◽

pp. 60-66

Author(s):

В. Б. Бетелин ◽

Д. А. Моргун

Keyword(s):

Control Systems ◽

Intelligent Control ◽

Software Components ◽

Application Software ◽

Critical Systems ◽

Power Outages ◽

Self Monitoring ◽

Intelligent Control Systems ◽

Digital Control Systems ◽

Mission Critical

Происходящие в мире события свидетельствуют о возрастании угрозы перехвата управления системами с критической миссией (СКМ). Приводятся конкретные примеры инцидентов, один из них — массовые отключения электроэнергии в Венесуэле. Обосновывается необходимость разработки технологии создания цифровых систем управления, обеспечивающей парирование угрозы перехвата управления и нештатного функционирования систем с критической миссией. В основе этой технологии — концепция цифровых двойников объектов управления цифровых систем управления этими объектами, включая все аппаратные и программные компоненты, а также интеллектуальные средства самоконтроля и самокоррекции функционирования элементной базы, вычислительной и коммуникационной техники, базового и прикладного программного обеспечения. There is an ongoing threat of control interception in mission-critical systems (MCS). Specific examples of such incidents are presented, one of them is the massive power outages in Venezuela. We specify the reasons for creating an approach to developing digital control systems for MCS resistant to control interception and abnormal functioning. This technology is based on the digital twin concept. A twin represents all the hardware and software components, as includes smart tools for the hardware, core and application software self-monitoring and self-correction.  

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Cooperative autonomous driving at the Intelligent Control Systems Laboratory

IEEE Intelligent Systems ◽

10.1109/mis.2003.1217622 ◽

2003 ◽

Vol 18 (4) ◽

pp. 8-11 ◽

Cited By ~ 29

Author(s):

J. Kolodko ◽

L. Vlacic

Keyword(s):

Control Systems ◽

Intelligent Control ◽

Autonomous Driving ◽

Intelligent Control Systems

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