The 15th China International Aviation & Aerospace Exhibition (Airshow China) recently concluded in Zhuhai. Over six days, the event featured 1,022 companies from 47 countries and regions, showcasing 261 aircrafts and 248 ground systems, with nearly 590,000 visitors attending.
At this year's Airshow China, the team led by Professor Huang Lei from Shenzhen University made a striking appearance, presenting a series of groundbreaking products, including the Drone-mounted Single-bit NanoSAR Radar, the Single-bit ADC Chip, and the Low-altitude Surveillance Radar. These innovations underscored Shenzhen University's leadership in the field of civilian radar technology.
The team's booth attracted attention from government officials, industry leaders, academic experts, and potential clients, both domestic and international. They demonstrated the capabilities of their single-bit radar imaging technology, as well as their latest achievements and future potential in the low-altitude economy, garnering high praise and recognition from visitors. Notably, the single-bit radar was singled out by the media as one of the standout civilian radar technologies of the show.
1. Drone-mounted Single-bit NanoSAR Radar (S01)
The S01 is an ultra-compact ground imaging radar designed for use with small- to medium-sized drones. Powered by state-of-the-art single-bit imaging technology, it offers several advantages, including low cost, lightweight design, minimal data requirements, and low power consumption.
2. Low-altitude Surveillance Radar (X01)
The X01 is a phased-array radar optimized for low-altitude UAV detection. It is quick to deploy and incorporates advanced target recognition algorithms, offering extensive coverage and powerful multi-target tracking capabilities. It is a key tool for monitoring the expanding low-altitude economy.
3. Single-bit ADC Chip
The ADC (Analog-to-Digital Converter) is a vital component in radar systems. Revered as the "crown jewel" of analog circuits, the Single-bit ADC Chip, developed by RC2Technology, features cutting-edge single-bit algorithms that simplify its design and significantly reduce the overall cost of radar systems.
