Digital platform for an adaptive lifecycle management system for construction objects

Abstract

The article presents studies aimed at the formation of an adaptive management system based on the information approach and digitalization of management processes. A conceptual dynamic model of an adaptive control system for large-scale and technically complex construction objects, consisting of two control loops with a description of their functional purpose, is proposed. The material proposes a programming technique based on the schedule of key project events, which is the basis for building a reference model for project implementation. In turn, the reference model is the main element of the adaptive control loop, represented by transition operators written in a matrix form convenient for machine use. Based on the resource approach for the effective development of control actions, it is proposed to distinguish three levels of management decisions: operational, tactical and strategic. The interfaces and services of the adaptive control system are systematized and classified, as a description of its digital profile. The study presents the results of the practical implementation of the proposed approaches by the author's software package, which is the basis for the formation of an adaptive control system.