Research and implementation of acquisition algorithm based on multi-correlator parallel frequency se

来源 :第十届中国卫星导航学术年会 | 被引量 : 0次 | 上传用户:liutongyang123
下载到本地 , 更方便阅读
声明 : 本文档内容版权归属内容提供方 , 如果您对本文有版权争议 , 可与客服联系进行内容授权或下架
论文部分内容阅读
  The long pseudo-noise codes have the advantages of strong anti-interference capability and high ranging accuracy, which has been used in GPS, Compass and other navigation satellite systems. However, the general acquisition algorithm is no longer applicable in the long codes because the long period property leads to the problem of large computation and high consumption of hardware resource. In order to solve the problems mentioned above, firstly, a long code acquisition algorithm based on parallel phase search which has already been proposed currently is improved by the method of partial averaging, and the simulation results show that the calculated amount is reduced. Then, the employ of multi-correlator and FFT transform in parallel frequency search can not only reduce the computation of acquisition algorithm, but also increase the acquisition speed. In order to receive the long code on the receiver, this paper concentrates on the hardware implementation of long code acquisition algorithm based on multi-correlation parallel frequency search in FPGA. Besides, the operating principle of each module is explained in detail. Through the test on the FPGA board, it is proved that the designed acquisition module can effectively and timely acquire the navigation signal. Moreover, the method of hardware implementation proposed in this paper for long code acquisition has the advantages of small hardware resource consumption and simple implementation structure, which is able to provide a reference for the engineering application of long code acquisition.
其他文献
The satellite differential code bias (DCB) characterizes the time it takes for the signal to travel from the reference clock to the transmitting antenna. The internal delay of the signal can be up to
The ionospheric delay has a very important influence on the positioning accuracy of satellite navigation. It can be effectively reduced by establishing an accurate and reasonable ionospheric correctio
A high-performance lamp-pumped rubidium atomic frequency standard (RAFS) prototype is developed. In the physics package of the RAFS, a rubidium spectral lamp with Xe as the starting gas and the isotop
The traditional single base station GNSS deformation monitoring system is greatly influenced by the base station stability and data quality. In order to improve the accuracy and reliability of monitor
The accuracy of satellite ephemeris directly affects the accuracy of navigation and positioning. The BDS-3 under construction in China is based on the BDS-2 system, and the Beidou global satellite nav
We focus on the accuracy analysis and improvement of multi-GNSS precise point positioning (PPP) during ionospheric scintillation. By using the observation data from Hong Kong Satellite Positioning Ref
The B1C signal of Beidou-3 satellite navigation system adopts data and pilot separation to realize the transmission of message information and ranging functions. The traditional tracking method uses s
Developing autonomous navigation algorithms without using extern positioning signals is the key to allow Multi-rotor UAVs to fly in complex environments where the GNSS signals are week or invalid. How
Beidou-2 satellite navigation system adopts China Geodetic Coordinate System 2000 (CGCS2000), which cant meet the requirements of Beidou-3 global service and timely update. This paper discusses two ap
The technique of ground-based GPS tomography is a newly spatial tool to sense the water vapor profile in atmosphere area. It has become a complementary technique for other conventional atmospheric sou