The following publications are possibly variants of this publication:
- A New Cycle Slip Detection and Repair Method for Galileo Four-Frequency ObservationsJian Chen, Dongjie Yue, ShaoLin Zhu, Zhiqiang Liu, Xingwang Zhao, Wei Xu. access, 8:56528-56543, 2020. [doi]
- Cycle Slip Detection and Repair for Dual-Frequency LEO Satellite GPS Carrier Phase Observations with Orbit Dynamic Model InformationHui Wei, Jiancheng Li, Shoujian Zhang, Xinyu Xu. remotesensing, 11(11):1273, 2019. [doi]
- A New Cycle Slip Detection and Repair Method Using a Single Receiver's Single Station B1 and L1 Frequencies in Ground-Based Positioning SystemsXinyang Zhao, Zun Niu, Gaoxu Li, Qiangqiang Shuai, Bocheng Zhu. sensors, 20(2):346, 2020. [doi]
- A New Real-Time Cycle Slip Detection and Repair Method under High Ionospheric Activity for a Triple-Frequency GPS/BDS ReceiverWanke Liu, Xueyuan Jin, Mingkui Wu, Jie Hu, Yun Wu. sensors, 18(2):427, 2018. [doi]
- Real-Time Quadruple-Frequency Cycle Slip Detection and Repair Algorithm Based on the Four Chosen Linear CombinationsYaoding Wang, Ke Zhang, Wenxiang Liu, Zhengrong Li, Feixue Wang. access, 7:154697-154710, 2019. [doi]
- Real-Time Cycle Slip Detection and Repair Method for BDS-3 Five-Frequency DataHaijun Yuan, Zhetao Zhang, Xiufeng He, Tianyang Xu, Xueyong Xu, Nan Zang. access, 9:51189-51201, 2021. [doi]
- A Cycle Slip Detection and Repair Method Based on Inertial Aiding for BDS Triple-Frequency SignalsXiyu Fu, Yongrong Sun, Ling Wu, Kaifeng Wang, Kedong Zhao. sensors, 23(12):5641, 2023. [doi]
- On the bound of time-domain power supply noise based on frequency-domain target impedanceXiang Hu, Wenbo Zhao, Peng Du, Yulei Zhang, Amirali Shayan Arani, Christopher Pan, A. Ege Engin, Chung-Kuan Cheng. slip 2009: 69-76 [doi]