Simulation realization of high dynamic GPS signal coarse acquisition and fine acquisition algorithm
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摘要:
为了解决高动态下对GPS信号快速捕获的问题,提出了改进的部分匹配滤波(PMF)和快速傅里叶变换(FFT)相结合的粗捕方法,对其原理和结构进行了分析,并针对其引起的扇贝损失和捕获性能不高的问题,对传统PMF+FFT方法进行加窗处理;考虑到高动态下基于扩展卡尔曼跟踪的方法对捕获后参数的精度要求很高,因此在粗捕的基础上提出了基于线性调频Z变换(CZT)算法的精捕方法,并在GPS信号理论模型和模拟高动态轨迹的基础上,实现了高动态GPS数字中频信号的生成,为进一步加快捕获速度,对于冷启动时提出了一种组合码相关的卫星快速盲搜方法;最后通过MATLAB进行系统仿真实验,验证了所提出的高动态GPS信号粗捕和精捕算法能在加速度为100
g 的高动态环境下有约10 Hz的捕获精度。-
关键词:
- 高动态 /
- 快速捕获 /
- 改进的PMF+FFT /
- 线性调频Z变换 (CZT) /
- 多普勒模拟
Abstract:For the purpose of solving GPS signal fast acquisition problem under the high dynamic, a coarse acquisition method combining improved partial matched filter (PMF) and fast Fourier transform (FFT) was proposed. The principle and structure of PMF+FFT were analyzed, and windowing of traditional method was put forward for the problems of scalloping loss and low acquisition performance. Since the high dynamic tracking method based on extended Kalman filter has a high requirement for the precision of the parameter after acquisition, a fine acquisition based on Chirp-Z transform (CZT) algorithm was proposed on the basis of coarse acquisition. Based on the theory model of GPS signal and high dynamic trail, this paper has realized digital intermediate frequency GPS signal of high dynamic. In order to further speed up the acquisition, a fast blind search method of combining pseudo code correlation was adopted for cold start. Finally through the MATLAB simulation experiments, it is verified that the proposed coarse and fine acquisition algorithm for high dynamic GPS signal can achieve the acquisition dynamic performance of 100
g and the accuracy of about 10 Hz in high dynamic environment.-
Key words:
- high dynamic /
- fast acquisition /
- improved PMF+FFT /
- Chirp-Z transform (CZT) /
- Doppler simulator
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图 5 PMF+FFT归一化幅频响应放大图
Figure 5. Enlarged view of normalized PMF+FFT amplitude frequency response
图 6 加窗后PMF归一化幅频响应
Figure 6. Normalized PMF amplitude frequency response after window adding
图 7 加窗后第0点FFT归一化幅频响应
Figure 7. Normalized amplitude frequency response of the zero point of FFT after window adding
图 8 加窗后FFT归一化幅频响应
Figure 8. Normalized FFT amplitude frequency response after window adding
图 9 加窗后PMF+FFT归一化部分幅频响应
Figure 9. Normalized PMF+FFT amplitude frequency response after window adding in part
图 13 改进的PMF+FFT捕获多普勒频率结果
Figure 13. Doppler frequency result of improved PMF+FFT acquisition
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[1] 胡琼. 高动态及微弱GPS信号的捕获算法研究[D]. 上海: 上海交通大学, 2013: 16-30.HU Q.Research on the acquisition algorithm of high dynamic and weak GPS signal[D].Shanghai:Shanghai Jiao Tong University, 2013:16-30(in Chinese). [2] 孙函子. 高动态GPS接收机基带信号处理算法研究[D]. 南昌: 华东交通大学, 2010: 35-40.SUN H Z.High dynamic GPS receiver base band signal processing algorithm research[D].Nanchang:East China Jiaotong University, 2010:35-40(in Chinese). [3] LI Y, XI X L.Combining FFT and circular convolution method for high dynamic GPS signal acquisition[C]//20078th International Conference on Electronic Measurement and Instruments.Piscataway, NJ:IEEE Press, 2007:2159-2163. [4] 倪光华. 高动态环境下GPS C/A码信号的捕获与跟踪算法研究[D]. 西安: 西安电子科技大学, 2008: 45-49.NI G H.Research on acquisition and tracking algorithm of GPS C/A signal under high dynamic environment[D].Xi'an:Xidian University, 2008:45-49(in Chinese). [5] 周三文, 黄龙, 卢满宏.FFT在高动态信号捕获中的应用[J].飞行器测控学报, 2005, 24(2):61-64. http://cdmd.cnki.com.cn/Article/CDMD-10255-2007125195.htmZHOU S W, HUANG L, LU M H.Acquisition of high dynamic spread spectrum signals with FFT[J].Journal of Spacecraft TT & C Technology, 2005, 24(2):61-64(in Chinese). http://cdmd.cnki.com.cn/Article/CDMD-10255-2007125195.htm [6] 王仕成, 杨东方, 刘志国, 等.一种高动态GPS软件接收机方案研究[J].宇航学报, 2009, 30(3):1079-1085. http://www.cnki.com.cn/Article/CJFDTOTAL-YHXB200903040.htmWANG S C, YANG D F, LIU Z G, et al.Research on high dynamic GPS software receiver[J].Journal of Astronautics, 2009, 30(3):1079-1085(in Chinese). http://www.cnki.com.cn/Article/CJFDTOTAL-YHXB200903040.htm [7] 谢钢.GPS原理与接收机设计[M].北京:电子工业出版社, 2009:30-65.XIE G.Principles of GPS and receiver design[M].Beijing:Publishing House of Electronics Industry, 2009:30-65(in Chinese). [8] ELLIOT D K.Understanding GPS:Principles and applications[M].Norwood:Artech House Publisher, 1996:50-70. [9] 齐巍, 常青, 张其善, 等.高动态信号模拟器中的多普勒模拟算法[J].航空学报, 2008, 29(5):1252-1257. http://www.cnki.com.cn/Article/CJFDTOTAL-HKXB200805027.htmQI W, CHANG Q, ZHANG Q S, et al.Arithmetic of Doppler simulation in high dynamic signal simulator[J].Acta Aeronautica et Astronautica Sinica, 2008, 29(5):1252-1257(in Chinese). http://www.cnki.com.cn/Article/CJFDTOTAL-HKXB200805027.htm [10] 李恺冰. 高动态GPS信号捕获算法研究及仿真实现[D]. 哈尔滨: 哈尔滨理工大学, 2014: 19-23.LI K B.Research and simulation realization of high dynamic GPS signal capture algorithm[D].Harbin:Harbin University of Science and Technology, 2014:19-23(in Chinese). [11] CHANSARKAR M M, GARIN L.Acquisition of GPS signals at very low signal to noise ratio[C]//Processing of ION NTM 2000.Manassas:the Institute of Navigation, 2005:731-737. [12] EEROLA V.Rapid parallel GPS signal acquisition[C]//Proceedings of ION GPS 2000.Manassas:The Institute of Navigation, 2000:810-812. [13] NUNES F D, LEI J M N.A new fast code/frequency acquisition algorithm for GPS C/A signals[C]//Vehicular Technology Conference, IEEE VTC.Piscataway, NJ:IEEE Press, 2003, 766-770. [14] 黄云青. 高动态GNSS信号快速捕获算法研究[D]. 哈尔滨: 哈尔滨工业大学, 2014: 30-37.HUANG Y Q.Research on the fast acquisition algorithm of high dynamic GNSS signal[D].Harbin:Harbin Institute of Technology, 2014:30-37(in Chinese). [15] LIN D M.Comparison of acquisition methods for software GPS receiver[C]//Proceedings of ION GPS 2003.Manassas:The Institute of Navigation, 2003:71-79. [16] ZHENG Y Z, ZHANG Y X.An improved segmented match filters with FFT approach for GNSS signal acquisition[C]//20102nd International Conference on Computer Technology and Development of ICCTD.Piscataway, NJ:IEEE Press, 2010:425-428. [17] 罗和平, 邱蕾, 曾祥新.GPS软件接收机捕获方法研究[J].大地测量与地球动力学, 2011, 31(1):147-151. http://cdmd.cnki.com.cn/Article/CDMD-10112-1014417552.htmLUO H P, QIU L, ZENG X X.Acquisition algorithm for GPS software receiver[J].Journal of Geodesy and Geodynamics, 2011, 31(1):147-151(in Chinese). http://cdmd.cnki.com.cn/Article/CDMD-10112-1014417552.htm [18] LIN Z H, SHUAI H G, YONG H.Improved fast Fourier transform processing on fast acquisition algorithms for GPS signals[C]//Proceeding of 9th International Conference on Electronic Measurement & Instruments.Piscataway, NJ:IEEE Press, 2009:4221-4224. [19] 丁康, 潘成颢, 李巍华.ZFFT与Chirp-Z变换细化选带的频谱分析对比[J].振动与冲击, 2006, 25(6):9-12. http://www.cnki.com.cn/Article/CJFDTOTAL-ZDCJ200606002.htmDING K, PAN C H, LI W H.Spectrum analysis comparison between ZFFT and Chirp-Z transform[J].Journal of Vibration and Shock, 2006, 25(6):9-12(in Chinese). http://www.cnki.com.cn/Article/CJFDTOTAL-ZDCJ200606002.htm -
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