Advancements in Encryption Techniques for Enhancing Meteorological Data Security During Catastrophic Weather Events

Abstract

With the widespread utilization of meteorological data across diverse fields, the imperative for ensuring its security and safeguarding privacy has escalated. Meteorological data encompasses a wealth of sensitive information, including frequency bands and the precise locations of sensing devices. Inappropriate handling of this data may engender profound ramifications for multiple stakeholders. Particularly in the face of severe catastrophic weather conditions, the conundrum of optimizing the analysis and transmission of critical meteorological data within the confines of finite resources and time constraints looms large, demanding immediate attention from researchers. This paper centralizes its focus on the analysis and storage of information derived from common meteorological devices, proposing a priority-weighted encryption strategy. Within this strategy, meteorological data attains the utmost degree of privacy attainment while concurrently improving encryption efficiency, even when faced with the stringent limitations of limited resources and time constraints during severe catastrophic weather events.