Management of space surveillance radar temporal resource on fuzzy set theory
Annotation
This paper addresses the problem of optimizing the use of temporal resources of a radar station (RS) under limited time resources. Special attention is given to the necessity of considering a multitude of compensatory optimality criteria when allocating the RS operating time. The proposed approach is based on the use of fuzzy set theory which represents an innovative solution in the context of this task. The task of managing the RS temporal resources is formulated as the search for an optimal work schedule among all potentially possible options. This schedule should minimize the values of all partial optimality criteria. Fuzzy set theory is applied to solve this problem, allowing for the consideration of uncertainty and variability in task execution conditions. An algorithm for managing the RS temporal resources was presented. The review results confirm the probable increase in efficiency, especially in conditions of acute shortage of temporal resources, ensuring their optimal distribution among current tasks. Furthermore, the algorithm enables decisions to be made about the possibility of performing special or additional tasks without compromising the main monitoring functions. The review of the proposed algorithm provides a basis for hypothesizing its advantages over traditional methods of managing the RS temporal resources. In particular, the use of fuzzy set theory allows for more flexible responses to changes in task execution conditions and enhances the overall adaptability of the system. In the future, this approach could be adapted and applied in other areas where there is a need for resource optimization under conditions of limitation and uncertainty of external factors.
Keywords
Постоянный URL
Articles in current issue
- Optical properties of the interface between indium tin oxides thin films and laser-deposited single-walled carbon nanotubes
- The xanthene fluorescent dyes usage for the microplastics in soil detection and for phytotests
- Investigation of the effect of the applied voltage to the control electrodes of a lithium niobate phase modulator on the intensity distribution at the ends of channel waveguides and on parasitic amplitude modulation
- Assessment of the quantitative composition of hydrate formation inhibitors by their infrared spectra
- Magneto optical properties of atmospheric air molecules
- Femtosecond laser modification of the ZnO:Ag sol-gel films within dichroism emergence
- Insights from Keldysh theory to plasma electron density in liquid water under excitation wavelength scaling
- Luminescent and colorimetric properties of silica-coated spherical cadmium telluride nanocrystals in an external electric field
- The sliding-mode observer for PMSM field-oriented sensorless control with adaptive filter and PLL
- Improving the algorithm for processing data from multisensor system in tasks of determining quality parameters in vegetable oils
- Lithium tetraborate co-doping with transition and alkali metals
- Analysis of chemical interactions during filling a cesium vapor cell for a quantum magnetometer
- Polymer-salt synthesis and study on structure of vanadium-doped yttrium-aluminum garnet
- Enhancing healthcare data security in cloud environments with dual authentication and optimal key-tuned encryption
- Elimination of distortions of weak images of astronomical objects on the example of Saturn, Jupiter and their satellites
- Method for generating information sequence segments using the quality functional of processing models
- Smartphone video motion deblur order model
- An approach to detecting L0-optimized attacks on image processing neural networks via means of mathematical statistics
- On the influence of a concentrated inclusion on the spectrum of natural vibrations of a string and Bernoulli-Euler beam
- Restoration of unsteady heat flow from a thermal energy accumulator by solving the inverse heat conduction problem
- Quantification and modeling of ankle biomechanical characteristics