The intelligent fire - fighting system integrates advanced technologies such as the Internet of Things, artificial intelligence, and big data to build an intelligent fire - fighting management system, which significantly enhances the fire prevention and control and emergency response capabilities. Its core functions and application scenarios are as follows:

 

I. All - weather Fire Monitoring and Accurate Early Warning

The system deploys intelligent smoke sensors, temperature sensors, and flame recognition cameras to monitor environmental data in real - time. It uses AI algorithms to distinguish real fire situations from false alarms. For example, the multi - sensor fusion technology can identify interference from cooking fumes and cigarettes, reducing the false alarm rate by over 70%. Once an abnormality is detected, the system automatically triggers a hierarchical early - warning mechanism, notifying relevant personnel through audible and visual alarms, SMS push, etc. Practical cases show that after the application in a commercial complex, the fire recognition time was shortened from 5 - 10 minutes in the traditional mode to within 30 seconds, greatly improving the response efficiency.

 

II. Intelligent Monitoring and Predictive Maintenance of Fire - Fighting Facilities

The system monitors the operating data of key equipment such as the water pressure of fire hydrants, the status of sprinkler systems, and the opening and closing of fire - proof doors in real - time and establishes a health assessment model to predict equipment failures in advance. For example, after the deployment in a hospital, the integrity rate of fire - fighting facilities increased from 85% to 98%, effectively avoiding safety hazards caused by equipment failures. In addition, it supports remote control of equipment such as fire pumps and non - fire - fighting power supplies, and can (linkage) the forced landing of elevators and the opening of fire - fighting access doors to strengthen emergency response capabilities.

 

III. Prevention and Control of Electrical Fires and Elimination of Hidden Dangers

For scenarios with a high incidence of electrical fires, the system uses intelligent monitoring devices to collect real - time data on line temperature, current, and leakage. It combines deep - learning algorithms to identify abnormalities such as overload and short - circuit. After the deployment in an industrial park, the number of electrical fire accidents decreased by 72% year - on - year, significantly reducing the fire risk.

 

IV. Dynamic Guidance for Emergency Evacuation and Optimization of Decision - Making

In the event of a fire, the system combines the building's three - dimensional model with real - time fire data to automatically generate the optimal evacuation route and dynamically adjust emergency lighting and voice guidance. Tests in high - rise buildings show that this function can improve the evacuation efficiency by over 40%. At the same time, the platform (links) GIS maps and video surveillance to quickly locate the fire and dispatch rescue resources, shortening the golden rescue time.

 

V. Global Management of Fire - Fighting Resources and Cost Optimization

The intelligent fire - fighting platform integrates information on fire - fighting facilities, emergency plans, and personnel for unified management. Through functions such as remote attendance checks and monitoring of on - duty status, the frequency of manual inspections is reduced. In some projects, the annual labor cost can be saved by approximately 300,000 yuan. In addition, the data engine can analyze historical fire trends, generate compliance reports, and assist managers in making scientific decisions.

 

VI. Multi - scenario Coverage and Whole - area Supervision

The system is applicable to scenarios such as industrial parks, commercial complexes, and residential communities. Regulatory authorities can monitor the status of fire - control rooms in their jurisdictions in real - time through the platform, filling the gaps in traditional supervision. For example, in a city - level application, the availability of fire water sources increased from 90% to 99.5%, ensuring the stability of key facilities.

 

Through technological integration and intelligent upgrading, the intelligent fire - fighting system optimizes the entire process of fire prevention, handling, and management, providing efficient and sustainable protection for urban safety. Its application not only reduces operation and maintenance costs but also promotes the fire - fighting industry to move towards precision and informatization.