Full-life building cycle monitoring operation and maintenance method and system

Abstract

The invention relates to the technical field of constructional engineering management, and particularly relates to a full-life building cycle monitoring operation and maintenance method and system, wherein the system is mainly composed of a data access module, a building information model module, a geographic information system module, a data support module, a human-computer interface module, a big data analysis module and a coma information collaboration module. The method comprises the following steps: S1, establishing a three-dimensional model of each building and equipment in constructional engineering through a building information model, S2, providing basic geographic space information for constructional engineering through a geographic information system; a three-dimensional model is combined and displayed on a human-computer interface; S3, all the devices in the S1 are connected to a monitoring management platform in a human-computer interface in a unified mode through the Internet of Things; a traditional two-dimensional simulation schematic diagram monitoring mode is eliminated, a three-dimensional accurate monitoring interface is adopted for monitoring, the method is more visual compared with a method of checking drawings and turning data, real-time field positioning and marking and remote monitoring and management can be achieved through a human-computer interface module, and operation and maintenance work is simpler and more efficient.

Description

technical field [0001] The invention belongs to the technical field of construction engineering management, and in particular relates to a method and system for monitoring operation and maintenance of a full-life construction cycle. Background technique [0002] In the practice of engineering project management, the application of the concept and method of full life cycle management is a project management system that can be tracked throughout the various stages of construction, construction, and project use. Based on the concept of full life cycle management, corresponding management measures should be taken for quality, project cost and progress. For example, in the control of project cost, use engineering economics and mathematical modeling to strengthen the control of project cost at each stage and achieve the goal of minimizing the cost. By formulating a project cost plan and implementing it in a planned way, the goal of cost control can be achieved. However, in the t...

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Problems solved by technology

[0005] 1. In the planning stage, the analysis information in the traditional project planning stage is incoherent, lacking the analysis functions of visualization and simulation, and the planning scheme has a single form of expression; 2. In the design stage, the traditional design is expressed through drawings, and the information of each stage Relatively independent, as a result, there will be problems such as drawing errors, complicated changes, and prolonged design cycles; 3. During the construction phase, generally traditional drawings guide the construction process, often resulting in poor constructability of drawings, difficult construction of complex nodes, and low construction efficiency. , the construction period is difficult to control, etc.; 4. In the operation and maintenance stage, the traditional operation and maintenance method faces the problems of rapid expansion and brain drain. How to improve the operation and maintenance efficiency without increasing the number of operation and maintenance personnel has become the bottleneck of the operation and maintenance stage, followed by low The principle of carbon economy is difficult to control and count by traditional operation and maintenance personnel, and the rapid response and handling of emergencies has also become a very important issue in the operation and maintenance stage

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