Predicting abiotic factors to develop a smart office system

Abstract

The article deals with the prediction of abiotic factors for the Smart Office system. Scientific research in the field of forecasting is given. This article discusses the technology for installing an energy-saving system and its operating principles. Methods of building and managing smart systems are used. Also describes the increase in comfort, thanks to the Smart Office technology. User-friendly interface is used. Affects functions such as: optimization of lighting, heating, protection and control of the house remotely, using mobile devices and special key fobs. Mainly considered the system of automation of business structures depending on the scale. All currently available methods were suggested, which are key factors in the optimization of all business processes. And also considered options for modeling and system development, taking into account all the current problems of automation of smart systems. The importance of the scientific topic affects the high potential for the development of smart home systems and the lack of uniform standards for devices included in these systems. The hardware-software complex under development can be used both in ordinary homes, offices and production facilities. The system is scalable, allowing it to be used for almost any purpose. The article deals with the creation of an autonomous microprocessor-based climate data transmission system. In this paper, we developed a microprocessor-based climate measurement system designed to measure relative humidity and air temperature. The measuring system of climatic parameters is designed to collect measuring information, its further processing, storage and display in a form convenient for the operator’s perception.