M.A. Kazantsev1, D.V. Kapulin2, N.V. Romanov3

1,3 JSC «SPE «Radiosvyaz» (Krasnoyarsk, Russia)

2 Siberian State University (Krasnoyarsk, Russia)

1 mkaz@mail.ru, 2 dkapulin@sfu-kras.ru, 3 RomanovNikVit@yandex.ru

Design preparation for production represents one of the initial and most crucial stages in the lifecycle of a product. It is during this foundational phase that engineers and designers engage in comprehensive development and rigorous validation of product concepts. This involves conducting essential and detailed calculations to ensure feasibility and accuracy. Furthermore, they produce intricate drawings and construct three-dimensional models that provide a tangible representation of the envisioned product. The primary objective of this phase is not simply to design a product, but to engineer it in such a manner that its manufacturing process will be conducted with the highest levels of efficiency and cost-effectiveness. Simultaneously, the design must meet and often exceed all specified client requirements, ensuring a product that aligns meticulously with customer expectations.

The overarching objective of design and technological preparation extends beyond product design. It encompasses the establishment of robust and efficient production processes that are capable of sustaining complex manufacturing demands. Achieving an optimal synergy between design conceptualization and technological application is paramount, as this convergence significantly bolsters product quality. Moreover, it plays a critical role in cost reduction and in minimizing production timelines, thereby ensuring that the final product not only adheres to customer specifications but also complies with rigorous international quality standards.

The primary focus is to conduct a comprehensive analysis of the existing information flows within the enterprise, specifically those related to the processing of design and technological documentation. By doing so, the aim extends to identifying existing inefficiencies and exploring viable opportunities for the development of new information systems or the enhancement of current systems that support these processes. Such analysis is crucial for uncovering potential improvements in how information is managed and utilized.

The results of the analysis have illuminated the dynamics of current information flows associated with the processing of design and technological documentation within the enterprise. The study assessed various challenges, particularly those associated with integrating data provided by Computer-Aided Design (CAD) systems with production planning systems. Both the tasks and associated challenges of integration systems have been meticulously examined, providing valuable insights that lay the groundwork for future advancements.

The findings from the analysis highlight the critical importance and timeliness of developing and implementing integration systems in contemporary manufacturing environments. These systems are pivotal in enhancing overall manufacturing efficiency. Implementing such projects is not only crucial for accelerating and optimizing production processes—it also ensures the continuous upholding of high standards of quality and safety in the finished product. This commitment to quality and efficiency serves to fortify the company’s competitive position in the global marketplace.

Kazantsev M.A., Kapulin D.V., Romanov N.V. Development and implementation of a system for integrating design and technological preparation of production with the production planning system. Achievements of modern radioelectronics. 2025. V. 79. № 1. P. 53–63. DOI: https://doi.org/10.18127/ j20700784-202501-06 [in Russian]

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