深空探测学报(中英文)2025,Vol.12Issue(5):510-523,14.DOI:10.3724/j.issn.2096-9287.2025.20250034
一种面向太阳系边际探测的智能信息处理系统设计
Design of an Intelligent Information Processing System for Solar System Boundary Exploration
摘要
Abstract
The solar system boundary exploration mission faces challenges such as long communication delays,complex environments,and long mission durations,which impose higher requirements on the detector's onboard autonomous data processing and scientific target recognition capabilities.To address these issues,this paper designed and implemented an intelligent information processing system.The system used the domestic high-reliability aerospace-grade AI chip Yulong810A,combined with a dual-FPGA architecture,and possessed core functions including multi-source information fusion processing,image preprocessing and target detection.To tackle the challenge of target perception in weak-light complex environments,the system integrated a lightweight target detection algorithm incorporating a low-light enhancement module and introduced a weighted boxes fusion strategy,significantly improving detection accuracy and robustness.The software system employed a layered architecture design,supporting uplink updates,fault-tolerant control and multi-task cooperative processing.Test results demonstrate that the system performs excellently in terms of target detection accuracy,stability in downlinking engineering parameters,and interruption handling efficiency,providing key technical support for the solar system boundary exploration mission.关键词
太阳系边际探测/智能信息处理/目标检测/软件架构设计Key words
solar system boundary exploration/intelligent information processing/object detection/software architecture design分类
航空航天引用本文复制引用
丁运来,孙振阳,何张煜,杜易,王诗良,张天柱..一种面向太阳系边际探测的智能信息处理系统设计[J].深空探测学报(中英文),2025,12(5):510-523,14.基金项目
国防科工局民用航天预研项目(D010202) (D010202)
