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New paradigm of non rail water traffic safety
2025-05-15
On May 9, 2025, the executive meeting of the State Council focused on the supervision of water traffic safety and made clear arrangements to accelerate the construction of a modern water traffic safety supervision and rescue system, strengthen technological innovation and departmental coordination.
Traditional regulatory methods such as manual inspections and radar monitoring have problems such as low efficiency, multiple blind spots, and difficulty in data integration, making it difficult to meet the needs of modern regulation. In response to the limitations of traditional regulatory methods, Jitian Xingzhou, with its independently developed "high timeliness, high geometry, and high spectrum" imaging technology, can become a lever to solve the problems of water supervision, injecting new energy into water traffic supervision and using aerospace technology to build a strong defense line for water safety.
The unique "non orbital one-time transit curve imaging" technology of Jitian Xingzhou breaks through the limitations of traditional satellite orbital imaging, and can achieve curve imaging such as arc and S-shape, with a single imaging strip length of up to thousands of kilometers. With this technology, the overall monitoring efficiency has been improved by more than 10 times, significantly reducing regulatory response time.
Due to complex hydrological conditions, busy shipping, human activities such as illegal sand mining, and insufficient emergency facilities, the risk of accidents in the Hubei section of the Yangtze River remains high.
The Wuhu section of the Yangtze River, as a first-class waterway in the lower reaches of the Yangtze River, is navigable for ships of tens of thousands of tons all year round.
Figure 3 shows the busy shipping and logistics hub of the golden waterway in the lower reaches of the Yangtze River, with a dense network of cargo ships and multiple row transport ships anchored on the river surface from Wuhu, Anhui to Jiangsu.
At the same time, Jitian Double Star's 3-meter resolution visible light/hyperspectral imaging technology can clearly identify the location and quantity of ships, accurately capture macro risk characteristics such as illegal ship gathering areas and high-risk congested river sections, and provide high-precision monitoring data for regulatory authorities. From the perspective of application scenarios, in the Yangtze River Basin, according to the "Opinions of the Ministry of Transport on Promoting High quality Development of Yangtze River Shipping", by 2025, Yangtze River shipping will achieve green, intelligent, and standardized development; By 2035, enter the advanced ranks of inland waterway transportation in the world. Jitian Xingzhou is contributing to the high-quality development of Yangtze River shipping with advanced remote sensing technology.
Jitian Xingzhou is committed to promoting the open sharing of satellite data, providing low-cost and efficient regulatory tools for maritime, transportation, environmental protection and other departments, helping to build an integrated regulatory system for water, land, air and space, and jointly improving the modernization level of water transportation supervision.
Figure 4 Huangpu River Basin
From the busy waterway of Huangpu River to the magnificent basin of Yangtze River, Jitian Shuangxing is using the power of aerospace technology to safeguard the safety and smoothness of water transportation. In the future, Jitian Xingzhou will continue to be guided by national strategies, focus on technological innovation and practical applications, and plan to build a high-performance comprehensive remote sensing monitoring satellite constellation of "one water and three lines"; Using remote sensing technology with "high timeliness, high geometry, and high spectrum" to create a "smart sky eye" for water traffic supervision. Continuously cultivating the commercial aerospace field, contributing more wisdom and strength to the construction of a strong transportation country and the protection of aquatic ecosystems with more accurate data and efficient services.
