A periodic basis system of the smooth approximation space

Results of experimental research into evolution of the structure and microhardness of the hard magnetic Fe-30Cr-8Co-0,7Ti-0,5V-0,7Si alloy during complex two-level loading (compression + torsion) in isothermal conditions at various temperatures in single-phase region are reported. It was revealed that the deformation leads to a strong refinement of initial coarse-grained structure in the whole volume of the sample, however the generated structure is non-uniform through the body of the sample. In an active zone of deformation, near to mobile head, there is a microcrystalline layer with a grain size of about 5 microns which thickness poorly depends on the formation. With removal from the active zone of deformation the grain size increases, and microhardness decreases.

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Research of A-SMGCS System for Complex Airport

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.143-144.341 ◽

2011 ◽

Vol 143-144 ◽

pp. 341-345

Author(s):

Zeng Xian Geng ◽

Yi Fei Zhao ◽

Zhi Jian Ye

Keyword(s):

Control Systems ◽

Delay Time ◽

Holding Time ◽

Surface Movement ◽

Supporting System ◽

Guidance And Control ◽

Traffic Conflicts ◽

Basis System ◽

And Control ◽

Ground Monitoring

According the present complicated and lacks of high-leveled automation ground operation supporting system, based on the concept of ICAO'S A-SMGCS (advanced surface movement guidance and control systems) and the existed facilities of the airport, this paper focuses on the research of a new ground operation supporting system in accordance with A-SMGCS, including the basis system hardware, the surveillance ground monitoring subsystem and the lighting subsystem, etc. The system is capable of not only detecting and predicting the traffic conflicts on the ground but also providing solutions and suggestions. Meanwhile the system can help controllers to arrange and use the airport resources so as to reduce the ground holding time and delay time.

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Measures of uncertainty for a fuzzy probabilistic approximation space

Journal of Intelligent & Fuzzy Systems ◽

10.3233/jifs-211790 ◽

2021 ◽

pp. 1-24

Author(s):

Lijun Chen ◽

Damei Luo ◽

Pei Wang ◽

Zhaowen Li ◽

Ningxin Xie

Keyword(s):

Set Theory ◽

Rough Set ◽

Rough Set Theory ◽

Fuzzy Relation ◽

Point Of View ◽

Approximation Space ◽

Fuzzy Approximation ◽

Entropy Measurement ◽

Fuzzy Relation Matrix ◽

Relation Matrix

An approximation space (A-space) is the base of rough set theory and a fuzzy approximation space (FA-space) can be seen as an A-space under the fuzzy environment. A fuzzy probability approximation space (FPA-space) is obtained by putting probability distribution into an FA-space. In this way, it combines three types of uncertainty (i.e., fuzziness, probability and roughness). This article is devoted to measuring the uncertainty for an FPA-space. A fuzzy relation matrix is first proposed by introducing the probability into a given fuzzy relation matrix, and on this basis, it is expanded to an FA-space. Then, granularity measurement for an FPA-space is investigated. Next, information entropy measurement and rough entropy measurement for an FPA-space are proposed. Moreover, information amount in an FPA-space is considered. Finally, a numerical example is given to verify the feasibility of the proposed measures, and the effectiveness analysis is carried out from the point of view of statistics. Since three types of important theories (i.e., fuzzy set theory, probability theory and rough set theory) are clustered in an FPA-space, the obtained results may be useful for dealing with practice problems with a sort of uncertainty.

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