Operating in remote and mountainous areas has always posed significant challenges. The rugged terrains, unpredictable weather conditions, and lack of reliable communication networks make it incredibly difficult to ensure efficiency and safety. Traditional methods of surveying and inspection, which often rely on GPS handheld devices, struggle with slow satellite search speeds and poor positioning accuracy in these environments. This results in inefficient operations and increased risks for personnel involved in critical tasks such as UAV inspections and transmission line maintenance.
SpatiX's advanced GNSS technology, particularly the Xstar service, is a game-changer for overcoming the communication barriers inherent in remote mountainous areas. Utilizing advanced PPP technology, SpatiX Xstar delivers real-time, centimeter-level positioning without relying on traditional communication networks. This is achieved through a combination of geosynchronous orbit communication satellites and internet links, ensuring high-precision positioning even in the most isolated regions.
By leveraging extensively distributed ground monitoring stations, SpatiX Xstar calculates positioning error corrections related to satellites, ionosphere, and troposphere. This data is then broadcast to users, providing high accuracy and integrity. The result is a spatiotemporal network characterized by high continuity, stability, availability, and security, essential for accurately mapping the physical world to the digital realm.
SpatiX's high-precision GNSS technology has a wide range of real-world applications that significantly enhance operational efficiency and safety. In the realm of intelligent driving, GNSS-based high-precision positioning plays an indispensable role. Unlike high-precision relative positioning sensors such as vision and radar, GNSS is not affected by weather or light, providing a reliable basis for intelligent decision-making in all scenarios.
In Fujian, the SpatiX Xstar service has proven invaluable in conducting UAV inspections over 1,764 kilometers of transmission lines located in remote mountainous areas. Traditional UAV inspections in these regions are inefficient and high-risk, often relying on manual flight modes due to the absence of network signals. However, with SpatiX Xstar, UAVs can achieve real-time, centimeter-level positioning within minutes, enabling autonomous flights that are both safer and more efficient.
Transmission line maintenance in remote areas has always been a challenging endeavor. The absence of reliable communication networks often hampers the ability to perform efficient and accurate inspections and maintenance activities. SpatiX Xstar service addresses this issue by providing high-precision positioning that does not rely on ground-based augmentation stations or additional communication facilities. This boosts operational efficiency, reduces downtime, and ensures the safety of both the transmission lines and the personnel involved in their maintenance.
To achieve the high-precision positioning required for these applications, SpatiX employs a combination of integrated hardware, proprietary services, and intelligent algorithms. Integrated hardware solutions, such as dual-frequency centimeter-level modules and single-frequency communication-navigation integrated sub-meter-level modules, eliminate the complexities of component selection, system integration, and testing and verification. This greatly improves the integration rate of mass-produced vehicles.
Proprietary services, tailored specifically for the mass production of intelligent driving, ensure delivery with high accuracy, reliability, and safety. SpatiX Cors Center provides comprehensive coverage, high service availability, and meets stringent safety standards comparable to the aviation industry.
Finally, intelligent algorithms, fully verified by extensive testing, complete the closed loop in complex intelligent driving environments. These algorithms are crucial for designing better responses to various scenarios and handling error situations with ease, ultimately enhancing the overall performance and reliability of the system.
In conclusion, SpatiX's advanced GNSS technology is revolutionizing operations in remote and challenging terrains. By providing real-time, centimeter-level positioning and integrating innovative hardware, proprietary services, and intelligent algorithms, SpatiX is enhancing efficiency and safety across various applications, from intelligent driving to UAV inspections and transmission line maintenance.