原文传递
The Trade-Off Between Some State Space and FIR Algorithms in GPS-Based Optimal Control of a Local Crystal Clock
| 题名: | The Trade-Off Between Some State Space and FIR Algorithms in GPS-Based Optimal Control of a Local Crystal Clock |
| 作者: | Ibarra-Manzano, O.;Olivera-Reyna, R.;Shmaliy, Y. S.; |
| 关键词: | ALGORITHMS, CONTROL, CLOCKS, GLOBAL POSITIONING SYSTEM, SYNCHRONISM, LINEAR SYSTEMS, UNCERTAINTY, STEERING, OPTIMIZATION, LOW COSTS, OBSERVATION, KALMAN FILTERING, CRYSTALS, ESTIMATES, KERNEL FUNCTIONS, DRIFT, MATHEMATICAL PREDICTION, COEFFICIENTS, ERROR ANALYSIS, FEEDBACK, CONSTANTS, LEAST SQUARES METHOD, NUMERICAL METHODS AND PROCEDURES, LOOPS, EQUATIONS OF STATE, NAVIGATION REFERENCE, MEXICO. |
| 摘要: | The report addresses a numerical investigation of the trade-off between some state space and FIR filtering algorithms intended to provide optimal time error steering of a local crystal clock employing the GPS reference time. For the sake of low-cost crystal clocks, we employ four most simple structures, namely 1) Two-state Kalman, 2) Three-state Kalman, 3) FIR with the constant kernel (simple MA), and 4) FIR with the linear kernel (optimally unbiased for linear phase drift). The optimal control problem is numerically solved in a sense of least mean squares for the GPS-based time error database and for different estimators tuned to have the same time constant. We study a digital control loop of a local clock, assuming the latter to be linear and inertialess with respect to the filter memory. We also compare the algorithms for the mean square error produced and for sensitivity to variations of the feedback coefficient. |
| 总页数: | 13 |
| 报告类型: | 科技报告 |
相关文献
- Studies of the Unbiased Fir Filter for the Time Error Model in Applications to GPS-Based Timekeeping
- Studies of an Optimally Unbiased MA Filter Intended for GPS-Based Timekeeping
- Clock Synchronization Using GPS/Glonass Carrier Phase
- The End of an Era: SVN 10 End-Of-Life Frequency Standard Testing
- Modeling the Effect of Accessibility and Congestion in Location Choice.
- Improvements and Extensions of the Geometrical Dilution of Precision (GDOP) Concept for Selecting Navigation Measurements
检索历史
应用推荐
