USAGE OF INFORMATION TECHNOLOGIES TO PREVENT METEOROLOGICAL RISKS

Abstract

Without even thinking about it, most people rely on the weather to some extent. Everyone has wondered at least once whether predicting what causes headaches, joint pain, and many other symptoms caused by weather dependence is possible.

The web-based information platform will help weather-dependent people prepare for weather anomalies. This, in turn, leads to a sense of human security because, for example, if a person knows that a deviation from normal atmospheric pressure is expected tomorrow, he is prepared for a particular threat. In general, due to the predictability of these threats and their effects on the human body, there is no need to worry about meteorological hazards that will positively impact human well-being, as they will reduce unnecessary anxiety and prevent the risks of unexpected deterioration of well-being or well-being.

Therefore, creating an information-oriented web platform for forecasting meteorological risks is the need of the hour. Without exaggeration, it can be said that this is the only way to calculate the possible development of certain diseases in a weather-dependent population to not only the negative consequences of chronic diseases, including preventing death.

Therefore, building an information network platform for forecasting meteorological risks is crucial.

The first part explains the importance and significance of forecasting meteorological anomalies. It also describes and compares existing software products for forecasting certain data types proportional to meteorological anomalies.

The second section describes information technologies used to create information-oriented web platforms. A comparative description of two popular programming languages ​​and their frameworks for web applications: Python (Django framework) and Javascript (Node.js framework). The main Python libraries, distributions, and web editors for building web solutions are also covered. In particular, the resources for developing the user part (interface) were considered.

The third part describes the process of developing an information-oriented web platform. Developed a database scheme and implemented integration with one of the services listed in the second part. Development results are published in the cloud and available on the Internet under a registered domain name.