Porous material software analysis

  • Mikulich O.A., Doctor of Engineering, Professor Lutsk National Technical University
  • Zaiakin D.K., Ph.D. student Lutsk National Technical University
Keywords: porous materials, software, area, analysis, architecture.

Abstract

The paper describes key moments in the development and implementation of software for analyzing the porosity of materials. The advantage of using the developed product is the ability to conduct experiments based on regular photographs, which can now be obtained with a regular phone with sufficient accuracy. Such an application significantly expands the possibilities of conducting research in production without additional laboratory experiments.

The program, based on the Swift programming language and the MVVM architectural pattern, is a powerful tool for analyzing architectural objects and materials. The MVVM pattern promotes maintainability by reducing code complexity and improving code readability, allowing developers to focus on their specific areas of expertise. By leveraging Swift's performance and optimization capabilities, the software ensures smooth and responsive user experiences, crucial for image processing tasks. The development of the software is facilitated by the use of Xcode IDE and simulators, which provide comprehensive tools for building, testing, and debugging iOS applications. Additionally, the software employs unit tests to verify functionality, enhancing code quality and reliability.

The program features an intuitive interface that allows users to easily select and analyze image zones, providing detailed information about the area and porosity. Future enhancements will include advanced algorithms for determining pore density, secure storage, sharing, and exporting of analysis results, catering to diverse research needs. This application will be particularly useful for architects, engineers, and builders, simplifying the design process and ensuring efficient use of resources. Overall, the software represents a versatile and powerful tool for analyzing porous materials, with ongoing development aimed at further optimization and expansion.

Published
2024-08-24