The First Place in the sixth Comprehensive Transportation Innovation and Entrepreneurship Competition

The finals of the 6th Comprehensive Transportation Innovation and Entrepreneurship Competition, hosted by China Communications Construction Group, concluded on 16th December 2025. The project “92-94GHz Millimeter-Wave Radar-Driven Smart High-Speed All-Weather Sensing System” submitted by Yteq Sense won first place. The competition, organized by CCCC, aims to gather innovation resources in the comprehensive transportation sector, establish an efficient platform for interaction among talent, technology, markets, and capital, and accelerate the incubation and cultivation of new technologies, プロダクツ, models, and business formats, thereby injecting new momentum into building a modern, safe, convenient, efficient, green, and low-carbon comprehensive transportation system. The competition has successfully been held for six editions, attracting over 600 outstanding projects from home and abroad, with 60 projects winning various honors. This year’s event, themed “Boundless Innovation · Smart Transportation,” focused on industry frontiers and covered six major areas: intelligent transportation, green transportation, traffic safety, smart logistics, equipment manufacturing, and new material applications. After fierce competition, Yteq Sense, along with 10 top companies/teams from specialized transportation tracks, stood out and secured the top spot in the finals. In recent years, Yteq Sense has closely followed industry trends, overcoming technical challenges such as ultra-long-distance deployment, multi-object tracking in complex scenarios, and anti-virtual imaging. It also possesses AI-enhanced algorithm self-evolution capabilities. The newly launched 92-94GHz traffic millimeter-wave radar addressed multiple challenges, including bottlenecks in high-frequency chips and RF components, increased system losses, complex manufacturing processes, and high costs for testing, verification, and production. It achieved several key technological innovations. The self-developed 92-94GHz full-band MMIC chip significantly improved angular, 距離, and velocity measurement performance through sparse MIMO array design and advanced signal processing algorithms, resolving the multi-object resolution challenge in high-traffic, high-density scenarios with excellent performance, achieving high accuracy in traffic flow and incident detection.