TY - GEN
T1 - Performance analysis of a novel kalman filter-based signal tracking loop
AU - Wentong, Wang
AU - Chuanjun, Li
AU - Jiangxiong, Wu
N1 - Publisher Copyright:
© 2017 Association for Computing Machinery.
PY - 2017/9/15
Y1 - 2017/9/15
N2 - Though the GNSS receiver baseband signal processing realizes more precise estimation by using Kalman Filter, traditional KF-based tracking loops estimate code phase and carrier frequency simultaneously by a single filter. In this case, the error of code phase estimate can affect the carrier frequency tracking loop, which is vulnerable than code tracking loop. This paper presents a tracking architecture based on dual filter. Filters can performing code locking and carrier tracking respectively, hence, the whole tracking loop ultimately avoid carrier tracking being subjected to code tracking errors. The control system is derived according to the mathematical expression of the Kalman system. Based on this model, the transfer function and equivalent noise bandwidth are derived in detail. As a result, the relationship between equivalent noise bandwidth and Kalman gain is presented. Owing to this relationship, the equivalent noise bandwidth for a well-designed tracking loop can adjust automatically with the change of environments. Finally, simulation and performance analysis for this novel architecture are presented. The simulation results show that dual Kalman filters can restrain phase noise more effectively than the loop filter of the classical GNSS tracking channel, therefore this whole system seems more suitable to working in harsh environments.
AB - Though the GNSS receiver baseband signal processing realizes more precise estimation by using Kalman Filter, traditional KF-based tracking loops estimate code phase and carrier frequency simultaneously by a single filter. In this case, the error of code phase estimate can affect the carrier frequency tracking loop, which is vulnerable than code tracking loop. This paper presents a tracking architecture based on dual filter. Filters can performing code locking and carrier tracking respectively, hence, the whole tracking loop ultimately avoid carrier tracking being subjected to code tracking errors. The control system is derived according to the mathematical expression of the Kalman system. Based on this model, the transfer function and equivalent noise bandwidth are derived in detail. As a result, the relationship between equivalent noise bandwidth and Kalman gain is presented. Owing to this relationship, the equivalent noise bandwidth for a well-designed tracking loop can adjust automatically with the change of environments. Finally, simulation and performance analysis for this novel architecture are presented. The simulation results show that dual Kalman filters can restrain phase noise more effectively than the loop filter of the classical GNSS tracking channel, therefore this whole system seems more suitable to working in harsh environments.
KW - Adaptive phase-lock-loop
KW - Dual-filter
KW - KF-based signal tracking
KW - Parameter tuning
UR - http://www.scopus.com/inward/record.url?scp=85038582633&partnerID=8YFLogxK
U2 - 10.1145/3141166.3141171
DO - 10.1145/3141166.3141171
M3 - Conference contribution
AN - SCOPUS:85038582633
T3 - ACM International Conference Proceeding Series
SP - 69
EP - 72
BT - Proceedings of the 2nd International Conference on Robotics, Control and Automation, ICRCA 2017
PB - Association for Computing Machinery
T2 - 2nd International Conference on Robotics, Control and Automation, ICRCA 2017
Y2 - 15 September 2017 through 18 September 2017
ER -