Recently, the General Office of the Ministry of Emergency Management, the General Office of the Ministry of Industry and Information Technology, and the General Office of the State-owned Assets Supervision and Administration Commission jointly issued a notice announcing the list of selected projects for the 2025 National Emergency Management Equipment Incubation Program. Hikvision successfully had two projects selected: "Spectrum Radar Forest Fire Detection Equipment" and "Real-time Quantitative Monitoring Equipment for Gas Leakage and Diffusion," which were jointly submitted with the Hangzhou Municipal Emergency Management Bureau and the Qiantang District Emergency Management Bureau of Hangzhou, Zhejiang Province. This marks a high-level national recognition of the company's technical strength and scenario implementation capabilities in the field of intelligent emergency perception equipment. This incubation program focuses on the full-chain needs of emergency management—pre-incident prevention, in-event response, and post-event assessment—accelerating the transition of advanced equipment from the laboratory to practical frontline use through government-enterprise collaboration and supply-demand alignment. As a selected enterprise, Hikvision will strictly adhere to the task requirements, completing technical optimization, scenario validation, and promotion applications within the next year to effectively enhance the equipment's reliability, accuracy, and intelligence level in complex environments.
The Spectrum Radar Forest Fire Detection Equipment sees earlier, judges more accurately, and adapts more robustly. It utilizes single-photon radar technology to capture microscopic smoke particles from extremely early-stage fire sources invisible to the human eye, achieving ultra-long-distance detection of up to 15 kilometers. It issues warnings before a fire develops visible smoke or flames, seizing the initiative for early intervention. By combining high-precision scanning and data fusion algorithms, it can control the positioning accuracy of suspected fire points to within approximately 100 meters and automatically output latitude and longitude information, providing critical coordinate guidance for rapid and precise firefighting. It innovatively integrates single-photon radar with multi-spectral verification from visible light and infrared thermal imaging, establishing a dual identification mechanism of "radar detection + image verification," reducing the system's false alarm rate to below 10% and effectively overcoming the drawbacks of traditional video surveillance being easily interfered with by fog and light shadows. Its 1550nm eye-safe laser wavelength and strong environmental adaptability ensure stable and reliable operation under various harsh weather conditions. These capabilities will drive a paradigm shift in forest fire monitoring from "passive visibility" to "active detection," and from "area alarm" to "precise positioning." The equipment is suitable for fire detection in various scenarios such as forests, grasslands, urban fringe zones, and around critical infrastructure.
The Real-time Quantitative Monitoring Equipment for Gas Leakage and Diffusion offers 5km remote sensing, identification of 500 gases, and 5 years of maintenance-free operation. The core advantages of this equipment lie in its comprehensive gas leakage monitoring capabilities of "ultra-wide coverage, qualitative and quantitative analysis, and cost reduction with efficiency gains." Based on hyperspectral Fourier transform infrared passive remote sensing technology, it can perform wide-area rapid scanning within a 0-5 kilometer range without contacting the gas, enabling non-contact, all-weather, three-dimensional monitoring of chemical industrial parks and enterprises. This allows for the timely detection of hazardous gas leaks, transforming the approach from passive response to active early warning. With a built-in spectral database containing over 500 types of toxic, hazardous, flammable, and explosive VOCs gases, it can not only qualitatively identify the type of leaking substance but also perform concentration quantitative analysis at the ppm*m level, intuitively displaying the diffusion trend of gas clouds to provide data support for scientific decision-making. The equipment integrates innovative features such as infrared fire point warning and fire gas analysis functions, and can identify toxic and harmful gases released by combustion. Employing long-life designs, including Stirling coolers with a lifespan of up to 5 years, it significantly reduces long-term operation, maintenance costs, and usage barriers while enhancing operational reliability. It acts like an invisible smart perception network woven over medium-to-high-risk areas in chemical industrial parks and enterprises, serving as a robust support for improving regional production safety levels and a powerful tool for strengthening emergency response capabilities for sudden environmental incidents.
In the future, Hikvision will continue to iterate on equipment performance, accelerate the large-scale transformation and implementation of results, and provide more intelligent and reliable solutions for safety prevention and control in chemical industrial parks/hazardous chemical enterprises, forest fire prevention and extinguishing, and other fields. This will aid in the transition of emergency governance models towards pre-incident prevention, thereby strengthening the security and emergency response line of defense.
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