| Abstrakt: |
Consideration of the type of enclosing structure is carried out as a complex technical system, in assessing the state of which certain criteria and factors are used. Goal attainability assessment is a hierarchical procedure that includes operations related to scale transformation and aggregation. With an aggregation procedure that consists of many steps, only two estimates are possible at each step, which is a feature of the representation in a dichotomous form. Taking into account this feature of the dichotomous representation, the tasks are solved according to the cumulative assessment according to n criteria through the sequential solution of certain tasks, where there are two criteria in the conditions. A binary convolution tree is constructed to determine the complex score. This paper offers a functional description of the decision support system based on the developed methodology. The result of the study is the creation of an integrated mechanism for automating the selection of design solutions for pit fences. The technique of this procedure is based on the theory of active systems. And the method for determining economic efficiency is based on the use of robust procedures. In a sequential description of the process of evaluating a technical solution, two stages can be distinguished - the mechanism of active examination, and the mechanism of "cost effect". The determination of economic efficiency is carried out taking into account the proposed technical solutions of the enclosing structures that were selected, as well as the amount of resources required for their implementation, the duration and labor costs for their construction. And the application of Huber's procedure to the assessment of construction costs will reduce labor intensity and use a smaller amount of computer memory, while allowing, with the help of recurrent procedures to obtain more accurate estimates due to the availability of "outliers". [ABSTRACT FROM AUTHOR] |
