6 research outputs found
Novel Multiferroic‐Like Nanocomposite with High Pressure‐Modulated Magnetic and Electric Properties
Construction features of procedural simulator for objective control expert systems management devices of rocket and space technology ground infrastructure objects
Paper refers to the construction of procedural simulators for expert systems management devices of rocket and space technology ground infrastructure objects. A classification of courses, which allows to realize the development of skills with both hardware and software components of a diagnostic expert systems. A method of calculating the integrated assessment of the student mastery of the material
Construction features of procedural simulator for objective control expert systems management devices of rocket and space technology ground infrastructure objects
Paper refers to the construction of procedural simulators for expert systems management devices of rocket and space technology ground infrastructure objects. A classification of courses, which allows to realize the development of skills with both hardware and software components of a diagnostic expert systems. A method of calculating the integrated assessment of the student mastery of the material
The methodology of multicriterial assessment of Petri nets’ apparatus
This article emphasizes the effectiveness and relevance of the using of the apparatus of Petri nets for modeling of complex computing systems. Due to the fact that the methods of analysis existing in this theory do not allow estimating the resources required to build the desired model of the system, there is a problem of shortage of criteria for its evaluation in terms of the complexity of the construction. In the article we consider the method of analysis of a random Petri net based on the complexity of its building and relationships of internal units - subnets. The purpose of this article is a software implementation of such an assessment within the theory of PN structures. Due to the fact, that structural approach allows to perform the operation of decomposition of the original system, this model can be divided into subnets of minimal dimension, that will allow to make its quantitative assessment - ranking. To determine the total assessment of the input and output data of the system we will perform the analysis of head and tail positions of the net taking into account the weights of the input and output arcs of these positions. In order to identify an extent of the cost required to build the system, the number of operations of union of subnet transitions and positions. These subnets have minimal dimension in the original PN. Thus, the article demonstrates the formal implementation of assessment technique modules with using of algebra of sets, and the rules of splitting the PN structure into elementary blocks are formulated. The example of a comparative assessment of the two Petri nets based on the proposed complexity criteria is given; the plots of PN in different coordinate systems are displayed. The article presents the results of the research - a plot of PN structures in three-dimensional space, implemented using described software. It demonstrates the accuracy of PN assessment by structural analysis in comparing with a non-automated visual one. This approach can be applied for comparative assessment of computer systems in terms of complexity of their construction and size of input and output data
The methodology of multicriterial assessment of Petri nets’ apparatus
This article emphasizes the effectiveness and relevance of the using of the apparatus of Petri nets for modeling of complex computing systems. Due to the fact that the methods of analysis existing in this theory do not allow estimating the resources required to build the desired model of the system, there is a problem of shortage of criteria for its evaluation in terms of the complexity of the construction. In the article we consider the method of analysis of a random Petri net based on the complexity of its building and relationships of internal units - subnets. The purpose of this article is a software implementation of such an assessment within the theory of PN structures. Due to the fact, that structural approach allows to perform the operation of decomposition of the original system, this model can be divided into subnets of minimal dimension, that will allow to make its quantitative assessment - ranking. To determine the total assessment of the input and output data of the system we will perform the analysis of head and tail positions of the net taking into account the weights of the input and output arcs of these positions. In order to identify an extent of the cost required to build the system, the number of operations of union of subnet transitions and positions. These subnets have minimal dimension in the original PN. Thus, the article demonstrates the formal implementation of assessment technique modules with using of algebra of sets, and the rules of splitting the PN structure into elementary blocks are formulated. The example of a comparative assessment of the two Petri nets based on the proposed complexity criteria is given; the plots of PN in different coordinate systems are displayed. The article presents the results of the research - a plot of PN structures in three-dimensional space, implemented using described software. It demonstrates the accuracy of PN assessment by structural analysis in comparing with a non-automated visual one. This approach can be applied for comparative assessment of computer systems in terms of complexity of their construction and size of input and output data
The Multifunctionality of Lanthanum–Strontium Cobaltite Nanopowder: High-Pressure Magnetic Studies and Excellent Electrocatalytic Properties for OER
Simultaneous study of magnetic and electrocatalytic properties
of cobaltites under extreme conditions expands the understanding of
physical and chemical processes proceeding in them with the possibility
of their further practical application. Therefore, La0.6Sr0.4CoO3 (LSCO) nanopowders were synthesized
at different annealing temperatures tann = 850–900 °C, and their multifunctional properties were
studied comprehensively. As tann increases,
the rhombohedral perovskite structure of the LSCO becomes more single-phase,
whereas the average particle size and dispersion grow. Co3+ and Co4+ are the major components. It has been found
that LSCO-900 shows two main Curie temperatures, TC1 and TC2, associated with
a particle size distribution. As pressure P increases,
average ⟨TC1⟩ and ⟨TC2⟩ increase from 253 and 175 K under
ambient pressure to 268 and 180 K under P = 0.8 GPa,
respectively. The increment of ⟨dTC/dP⟩ for the smaller and bigger particles
is sufficiently high and equals 10 and 13 K/GPa, respectively. The
magnetocaloric effect in the LSCO-900 nanopowder demonstrates an extremely
wide peak δTfwhm > 50 K that
can
be used as one of the composite components, expanding its working
temperature window. Moreover, all LSCO samples showed excellent electrocatalytic
performance for the oxygen evolution reaction (OER) process (overpotentials
of only 265–285 mV at a current density of 10 mA cm–2) with minimal η10 for LSCO-900. Based on the experimental
data, it was concluded that the formation of a dense amorphous layer
on the surface of the particles ensures high stability as a catalyst
(at least 24 h) during electrolysis in 1 M KOH electrolyte