The simulation method under consideration allows solving a fairly wide range
of problems that arise in the design of automated control systems and control of physical
quantities, as well as ensuring the metrological characteristics of measuring devices, makes it
possible to simultaneously consider the evaluation of several alternative design solutions when
designing systems, which generally increases the reliability of the finally selected
mathematical model, which can be replaced by a simulator or a simulation model, since
simulation is a special case of mathematical modeling.
The simulation method under consideration allows solving a fairly wide range
of problems that arise in the design of automated control systems and control of physical
quantities, as well as ensuring the metrological characteristics of measuring devices, makes it
possible to simultaneously consider the evaluation of several alternative design solutions when
designing systems, which generally increases the reliability of the finally selected
mathematical model, which can be replaced by a simulator or a simulation model, since
simulation is a special case of mathematical modeling.
| № | Название ссылки |
|---|---|
| 1 | P.R. Ismatullaev., Kh.A. Usmanova. The control of information transfer reliability in intellectual control system on the basis of statistical redundancy. “Sixth World Conference on Intelligent Systems for Industrial Automation CIS-2010”, 2010. 67. |
| 2 | B.G. Artemiev. Metrology and metrological support. “Standartinform”, 2010. 254. |
| 3 | V.K. Benzar. Microwave moisture measurement technique. “High School”, 1974. 343 |
| 4 | Kh.A. Usmanova. Research and development of metrological support for an automatic multifunctional microwave moisture meter for cotton materials. “Doctor of Philosophy (PhD) dissertation abstract in technical sciences”, 2018. 42 |
| 5 | B.M. Akhmedov., Kh.A. Usmanova. Modern state of microwave moisture measurement of loose and fibrous materials. “Bulletin of Tashkent State Technical University”, 2018. 94. |
| 6 | P.R. Ismatullaev., Kh.A. Usmanova., A. Turgunbaev. “Moisture measurement of cotton and cotton materials (Monograph)”, 2017. 288. |
| 7 | B.G. Artemiev., Y.U. Lukashov. Reference manual for workers of metrological services. “Standartinform”, 2009. 120. |
| 8 | Kh.A. Usmanova. Report under the SCNT grant EF-2-9 “Development of the theoretical foundations for the construction and design of primary measuring transducers with microprocessor sets for quality control of various products”, 2017. 148. |
| 9 | Kh.A. Usmanova., P.M. Matyakubova. Development of a primary humidity transducer of increased sensitivity for bulk and fibrous materials. “Journal Bulletin Spec. release”, 2015. 51. |
| 10 | Kh.A. Usmanova. Research and development of metrological support for an automatic multifunctional microwave moisture meter for cotton materials. “Doctor of Philosophy (PhD) dissertation abstract in technical sciences”, 2018. 42 |
| 11 | P.R. Ismatullaev., Kh.A. Usmanova., A. Turgunbaev. Multifunctional microwave device for measuring the moisture content of fibrous and bulk materials. “Journal metrology and Instrumentation”, 2015. 45. |
| 12 | B.M. Akhmedov., Kh.A. Usmanova. “Modern state of microwave moisture measurement of loose and fibrous materials”, 2018. 94. |
| 13 | P.R. Ismatullaev., Kh.A. Usmanova., A. Turgunbaev. “Moisture measurement of cotton and cotton materials”, 2017. 288. |
| 14 | Kh.A. Usmanova., A. Turgunbaev. Developing a multi-purpose moisture meter on ultrahigh frequency. Special Issue International Scientific and Technical Journal. “Chemical technology. Control and management”, 2018. 202. |