Journal of Jilin University(Earth Science Edition) ›› 2021, Vol. 51 ›› Issue (6): 1863-1871.doi: 10.13278/j.cnki.jjuese.20200066

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Fast Parallel Algorithm of Disturbing Gravity Vector Based on Vectorization

Huang Yan1, Wang Qingbin1, Li Guoqiang2, Feng Jinkai1, Tan Xuli1   

  1. 1. Institute of Geospatial Information, Information Engineering University, Zhengzhou 450001, China;
    2. The Command Department, Information Engineering University, Zhengzhou 450001, China
  • Received:2020-03-19 Online:2021-11-26 Published:2021-11-24
  • Supported by:
    Supported by the National Natural Science Foundation of China (41574020) and the Independent Project of Information Engineering University (2105070232)

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Abstract: Unmanned aerial vehicle (UAV) is affected by the disturbing gravity of the Earth during its flight. To control the UAV accurately, it is necessary to calculate the disturbing gravity of the flight trajectory points. In order to effectively restore the external gravitational field of the Earth, the Earth gravitational model is often used, but its calculation time increases exponentially with the increase of the order of the model. In this paper, an improved vectorization method for the calculation of perturbation gravity is proposed, and a CUDA(compute unified device architecture)heterogeneous parallel algorithm is used for parallelization to achieve the purpose of rapid calculation of single point perturbation gravity. The simulation results show that the proposed method can effectively reduce the time-consuming of single-point calculation of perturbation gravity:The acceleration ratio of single-point calculation can be more than eight times and the highest can be up to 13.20 times by using the step-by-step recursion method; By using Belikov recursion method, the acceleration ratio of single point calculation can be more than six times and the maximum can be 8.99 times.

Key words: vectorization, parallel computing, disturbing gravity, Earth gravitational model, acceleration ratio

CLC Number: 

  • P221
[1] 范昊鹏,李姗姗.局部区域模型重力异常快速算法研究[J].大地测量与地球动力学,2013,33(6):28-30. Fan Haopeng, Li Shanshan. Study on a Fast Algorithm for Model Gravity Anomalies in Local Areas[J]. Journal of Geodesy and Geodynamics, 2013,33(6):28-30.
[2] Sandwell D T, Müller R D, Smith W H F, et al. New Global Marine Gravity Model from CryoSat-2 and Jason-1 Reveals Buried Tectonic Structure[J]. Science, 2014, 346:65-67.
[3] 冯进凯,王庆宾,黄炎,等. 基于局部重力场建模的Tikhonov正则化点质量核径向基函数方法[J].吉林大学学报(地球科学版),2019, 49(2):569-577. Feng Jinkai, Wang Qingbin, Huang Yan, et al. Point-Mass Kernel RBF Model Based on Tikhonov Regularization[J]. Journal of Jilin University (Earth Science Edition), 2019, 49(2):569-577.
[4] Khosro Ghobadi-Far, Mohammad Ali Sharifi, Nico Sneeuw. 2D Fourier Series Representation of Gravitational Functionals in Spherical Coordinates[J]. Journal of Geodesy, 2016, 90(9):871-881.
[5] 王庆宾,马国元,王永收,等.全球空间扰动引力快速FFT计算效能分析[C]//国家安全地球物理.西安:西安地图出版社,2015:55-59. Wang Qingbin, Ma Guoyuan, Wang Yongshou, et al. Analysis of Fast Computational Efficiency of Global Disturbing Gravity[C]//National Security Geophysics. Xi'an:Xi'an Map Press, 2015:55-59.
[6] 王昱. 扰动引力的快速计算及其对落点偏差的影响[D].长沙:国防科学技术大学,2002. Wang Yu. Fast Calculation of Perturbation Gravity and Its Effect on Landing Point Deviation[D].Changsha:National University of Defense Science and Technology, 2002
[7] 李红伟.地球外部空间扰动引力并行计算[J].指挥控制与仿真,2013,35(3):100-103. Li Hongwei. Parallel Method for the Disturbing Gravity of the Outside Space[J]. Command Control & Simulation, 2013, 35(3):100-103.
[8] 黄佳喜.扰动重力场快速(并行)计算方法研究[D].郑州:信息工程大学,2017. Huang Jiaxi. Research on Fast (Parallel) Computing of Disturbing Gravity[D]. Zhengzhou:Information Engineering University, 2017.
[9] René Forsberg. The Use of Spectral Techniques in Gravity Field Modelling:Trends and Perspectives[J]. Physics and Chemistry of the Earth,1998, 23(1):31-39.
[10] 周蓓,黄永忠,许瑾晨,等. 向量数学库的向量化方法研究[J].计算机科学,2019,46(1):320-324. Zhou Bei, Huang Yongzhong, Xu Jinchen, et al. Study on SIMD Method of Vector Math Library[J]. Cumputer Science,2019, 46(1):320-324.
[11] Gene D R, Amdahl M. Validity of the Single Processor Approach to Achieving Large Scale Computing Capabilities[Z]. 1967.
[12] 刘文志.并行算法设计与性能优化[M].北京:机械工业出版社,2015. Liu Wenzhi. Parallel Computing and Performance Optimization[M]. Beijing:Machinery Industry Press, 2015.
[13] Yu Zhihui. High Performance Parallel Programming with MPI[M]. Beijing:Tsinghua University Press, 2001.
[14] Nvidia. Nvidia Tesla P100-the Most Advanced Datacenter Accelerator Ever Built Featuring Pascal GP100, the World's Fastest GPU[Z]. Nvidia Whitepaper,2016, v01.1(Nvidia WP-08019-001).
[15] Girish Sharma, Abhishek Agarwala, Baidurya Bhattacharya. A Fast Parallel Gauss Jordan Algorithm for Matrix Inversion Using CUDA[J]. Computers & Structures,2013, 128:31-37.
[16] Christian Hirt, Sten Claessens, Thomas Fecher, et al. New Ultrahigh-Resolution Picture of Earth's Gravity Field[J]. Geophysical Research Letters,2013, 40(16):4279-4283.
[17] 欧阳明达,张敏利,于亮.采用Belikov列推和跨阶次递推方法计算超高阶缔合勒让德函数[J].测绘工程,2017,26(7):12-15. Ouyang Mingda, Zhang Minli, Yu Liang. Calculating the Ultra-High-Qrder Associated Legendre Functions by Belikov Column Method and Recursive Method Between Every Other Order and Degree[J]. Engineering of Surveying and Mapping, 2017, 26(7):12-15.
[18] Christopher J, Jong K L, Jay H K. On the Computation and Approximation of Ultra-High-Degree Spherical Harmonic Series[J]. Journal of Geodesy,2007, 81(9):603-615
[19] 吴星,刘雁雨. 多种超高阶次缔合勒让德函数计算方法的比较[J]. 测绘科学技术学报,2006(3):188-191. Wu Xing, Liu Yanyu. Comparison of Computing Methods of the Ultra-High Degree and Order[J]. Journal of Geomatics Science and Technology,2006(3):188-191.
[20] 范宏涛,郭春喜,王小华,等.超高阶重力场模型EIGEN-6C2适应性分析[J].测绘科学,2015,40(9):18-22. Fan Hongtao,Guo Chunxi,Wang Xiaohua,et al. Adaptability Analysis on Ultra-High-Gravity Model EIGEN-6C2 in Chinese Coastal Zone[J]. Science of Surveying and Mapping, 2015, 40(9):18-22.
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