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Construction of smart actuators brakes for smart city using geoinformation technologies

Ulbosin SaparovaNukus Branch of Tashkent University of Information Technologies named after Muhammad al- Khwarizmi, Nukus, UzbekistanKlara IniyatovaNukus Branch of Tashkent University of Information Technologies named after Muhammad al- Khwarizmi, Nukus, UzbekistanQabilbay ToqsanbaevNukus Branch of Tashkent University of Information Technologies named after Muhammad al- Khwarizmi, Nukus, UzbekistanKundizay JoldasovaNukus Branch of Tashkent University of Information Technologies named after Muhammad al- Khwarizmi, Nukus, Uzbekistan
BIO Web of Conferencesjournal2024en
ABI

Abstract

Actuator manufacturers are presently developing cutting-edge technologies, such as GIS technologies, that fulfill the necessary standards for performance, weight, and power consumption. Historically, manufacturers have selected actuators based on their ability to manipulate and regulate loads. This conceals the dynamic components of certain action solutions. Metrics of significant importance include the duration required to generate this mechanical energy and the amount of work the mechanism performs per unit mass. We utilized these values to establish a selection methodology. Considering the limitations in time and energy, it prioritizes actuators that are the most efficient in terms of weight. The concept of morphing for rotor blades was enhanced by integrating Gurney flap technology. Three control strategies were assessed, and simulations were conducted to test the amount of physical effort needed. Piezoelectric stack actuators are the most efficient method for actively controlling the rotor blade. The inherent universality of the process enables its utilization across a broad spectrum of applications.

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