[1]贾云光.CTCS3-300T车载设备测速测距单元硬件改进方案研究[J].铁路通信信号工程技术,2020,17(4):16-20.
Jia Yunguang.Research on Hardware Improvement Scheme of Speed and Distance Unit of CTCS3-300T On-board Equipment[J].Railway Signalling & Communication Engineering, 2020, 17(4):16-20.
[2]鲍鹏宇,宁云转.列控车载设备测速测距仿真测试方法与应用[J].铁路通信信号工程技术,2021,18(9):9-12.
Bao Pengyu, NingYunzhuan. Method and Application of Speed and Distance Measurement Simulation Test of CTCS Onboard Equipment[J]. Railway Signalling& Communication Engineering, 2021, 18(9): 9-12.
[3]牛道恒,刘岭,崔俊锋,等.高速列车测速测距系统滤波模型与融合策略研究[J].铁路通信信号工程技术,2011,8(4):8-10,17.
Niu Daoheng, Liu Ling, Cui Junfeng, et al. Research on Filtering Modeling and Fusion Strategy of Speed & Distance Measurement System for High-Speed Trains[J]. Railway Signalling & Communication Engineering, 2011, 8(4): 8-10, 17.
[4]孟凡江,尹逊政.一种基于多传感器融合的冗余测速测距系统设计[J].铁路计算机应用,2018,27(1):46-50.
Meng Fanjiang, Yin Xunzheng. Redundant Speed Measuring and Ranging System Based on Multi-Sensor Fusion[J]. Railway Computer Application, 2018, 27(1): 46-50.
[5]朱云生.巴西圣保罗13号线项目车载ATC设备冗余设计方案[J].铁路通信信号工程技术,2022,19(5):109-113.
Zhu Yunsheng. Redundancy Design Scheme of Onboard ATC for Sao Paulo Line 13 in Brazil[J]. Railway Signalling & Communication Engineering, 2022, 19(5): 109-113.
[6]刘霞,孙晓光,周延昕.一种适用于山地齿轨的测速测距系统研究[J].铁路通信信号工程技术,2022,19(5):68-71.
Liu Xia, Sun Xiaoguang, Zhou Yanxin. Speed and Distance Measurement System for Mountainous Cog Railway[J]. Railway Signalling & Communication Engineering, 2022, 19(5): 68-71.
[7]陈文赛.高安全高可靠测速测距系统的设计与实现[J].城市轨道交通研究,2018,21(4):131-134,147.
Chen Wensai. Design and Implementation of High Safety and High Reliable Measuring Velocity and Distance System[J]. Urban Mass Transit, 2018, 21(4): 131-134, 147.
[8]龙广钱,李博,陈启新.列车测速测距设备故障检测系统研究[J].计算机测量与控制,2020,28(1):16-20,40.
Long Guangqian, Li Bo, Chen Qixin. Fault Detection System for Train Speed Measuring and Ranging Equipment[J]. Computer Measurement & Control, 2020, 28(1): 16-20, 40.
[9]刘天琦,张浩,焦名.结合测速测距的卫星定位法研究[J].铁路通信信号工程技术,2022,19(3):17-20,43.
Liu Tianqi, Zhang Hao, Jiao Ming. Satellite Positioning Method in Combination with Speed and Distance Measurement[J]. Railway Signalling & Communication Engineering, 2022, 19(3): 17-20, 43.
[10]郭斐,靳文军.基于GPS钟差预测模型的列车定位技术研究[J].铁路通信信号工程技术,2022,19(4):1-5.
Guo Fei, Jin Wenjun. Train Positioning Technology Based on GPS Clock-Bias Prediction Model[J]. Railway Signalling & Communication Engineering, 2022, 19(4): 1-5.
[11]邓浩江.一种基于概率统计的列车定位算法[J].铁路通信信号工程技术,2022,19(4):28-31,42.
Deng Haojiang. Train Positioning Algorithm Based on Probability Statistics[J]. Railway Signalling & Communication Engineering, 2022, 19(4): 28-31, 42.
[12]孙晓光,周延昕.一种基于RFID的轻量化城轨列控车载设备研究[J].铁路通信信号工程技术,2022,19(5):58-61.
Sun Xiaoguang, Zhou Yanxin. Lightweight Onboard Controller Based on RFID for Urban Rail Transit[J]. Railway Signalling & Communication Engineering, 2022, 19(5): 58-61.
[13]王壮.城市轨道交通信号系统车地无线冗余方案探索[J].铁路通信信号工程技术,2022,19(10):56-61.
Wang Zhuang. Vehicle-Ground Wireless Redundancy Scheme of Urban Rail Transit Signal System[J]. Railway Signalling & Communication Engineering, 2022, 19(10): 56-61.
[14]江坤,杨迪飞.双速度传感器冗余策略研究[J].铁路通信信号工程技术,2023,20(7):70-74.
Jiang Kun, Yang Difei. Research on Redundancy Strategy of Dual Speed Sensors[J]. Railway Signalling & Communication Engineering, 2023, 20(7): 70-74.
[15]黄愉华,金捷.基于故障树的速度传感器检测方法研究[J].铁路通信信号工程技术,2023,20(7):87-91.
Huang Yuhua, Jin Jie. Research on Speed Sensor Detection Method Based on Fault Tree[J]. Railway Signalling & Communication Engineering, 2023, 20(7): 87-91.
|