The Design And Implementation Of The Hydrology Monitoring System Based On IOT

As we all know, coal is a high risk factor for the industry. Accident rate has been high forthe lives and safety of miners brought great threat, and how to effectively carry out disasterwarning, improve the safety factor is the urgent demands of the miners, the miningenterprises is also of great significance. Mine safety hazards is the first major gas explosion,the second largest flood risk is mine. Although the probability of occurrence of flooding islower than mine gas explosion, but the damage it causes is much higher than the gasexplosion, which caused the disaster are often very serious. Mine water inrush disaster willcause huge economic losses; Cenozoic unconsolidated aquifers in recent years occurredsuddenly flooded wells disaster makes coal mine production safety seriously threatened.Typically, the gas explosion is the largest coal mine safety hazard, but the current situation isthat the incidence of coal mine water disaster incidents increasing every year.These incidents occurred to us sounded the security alarm, in addition to the developmentof safety regulations, standardize the production process outside the mine geology howreal-time monitoring is also an important part of preventing security incidents, as well asgovernment regulators and mining companies need problems with the development ofnetworking technology, sensor technology, networking to build a mine monitoring systembased on geological conditions become optimal solution to solve this problem. The system isdesigned to achieve timely, fast and efficient access to a comprehensive hydrologicalmonitoring data Marina temperature, high-tech means of integrated water mine detectionsystem architecture that can dynamically and comprehensively grasp the mine, especiallyprone to water damage ore block hydrological changes, and decisions can be based onreal-time data analysis to forecast flooding incidents, to provide effective protection for theflood water to do mine production safety.The paper is organized as follows: The first chapter is the introduction, the papersummarizes the research background analysis of the current management system of things,based on research status and problems of such systems, and gives possible solutions. Thesecond chapter introduces the key technologies used in this article, the key issues relate to thetools to be an explanation and description. Including the contents of networking technology, J2EE framework, multi-sensor data fusion technology, SOA technical architecture and dataanalysis. The third chapter is part of requirements analysis, we first give a general descriptionof the system requirements, and then follow four modules were introduced, they are:hydrology acquisition systems, data collection systems, forecasting and early warningsystems decision-making system. Following the introduction of the non-functionalrequirements analysis, including sexual and safety requirements in two parts. The fourthchapter is the design of the system, first introduced the overall design ideas, and then followthe design of the system function modules for a detailed description, including hydrologyacquisition systems, data collection systems, forecasting and early warning systemsdecision-making system. And the design details of the database. The fifth chapter shows indetail the system to achieve results. Chapter VI of the full text of the summary of theadvantages and disadvantages of Things mine monitoring system based on geologicalconditions related to the analysis carried out and elaborated in future work, how to improvethe functionality of the system and optimization.