Modeling method of internet public information data mining based on probabilistic topic model (original) (raw)

Abstract

From the perspective of military intelligence work, the rise and widespread use of the network has opened up new horizons for intelligence acquisition, but the continuous increase in the amount of data in the network has made traditional intelligence analysis stretched. Therefore, enriching and developing military intelligence analysis methods have certain practical significance to make up for the shortcomings in current intelligence analysis. The traditional military intelligence analysis method cannot realize the in-depth mining and analysis of the network Shanghai information, obtain the deep intelligence knowledge required by the military, introduce the data mining technology into the military intelligence analysis and construct the network military intelligence analysis based on data mining model. The semantic analysis-based intelligence analysis algorithm in this model has certain superiority compared with the traditional association analysis, which can effectively improve the analysis efficiency and accuracy of military intelligence.

Access this article

Log in via an institution

Subscribe and save

• Starting from 10 chapters or articles per month
• Access and download chapters and articles from more than 300k books and 2,500 journals
• Cancel anytime View plans

Buy Now

Price excludes VAT (USA)
Tax calculation will be finalised during checkout.

Instant access to the full article PDF.

Similar content being viewed by others

References

1. Hong H, Shi Y (2018) Fast deconvolution for motion blur along the blurring paths. Can J Electr Comput Eng 40(4):266–274
   Google Scholar
2. Huang Z, Zhang Y, Li Q (2018) Spatially adaptive denoising for X-ray cardiovascular angiogram images. Biomed Signal Process Control 40:131–139
   Article Google Scholar
3. He YB, Zeng YJ, Chen HX (2018) Research on improved edge extraction algorithm of rectangular piece. Int J Modern Phys C 29(1):1850007
   Article Google Scholar
4. Yan X, Zhu Z, Wu Q (2018) Intelligent inversion method for pre-stack seismic big data based on MapReduce. Comput Geosci 110:81–89
   Article Google Scholar
5. Yan X, Gong W, Wu Q (2017) Contaminant source identification of water distribution networks using cultural algorithm. Concurr Comput Pract Exp 29(4), Document number: UNSP e4230
   Article Google Scholar
6. Wu Q, Wang L, Zhu Z (2017) Research of pre-stack AVO elastic parameter inversion problem based on hybrid genetic algorithm. Clust Comput J Netw Softw Tools Appl 20(4):3173–3183
   Google Scholar
7. Wu Q, Zhu Z, Yan X (2017) Research on the parameter inversion problem of prestack seismic data based on improved differential evolution algorithm. Clust Comput J Netw Softw Tools Appl 20(4):2881–2890
   Google Scholar
8. Yu Z, Zhou H, Li C (2017) Fast non-rigid image feature matching for agricultural UAV via probabilistic inference with regularization techniques. Comput Electron Agric 143:79–89
   Article Google Scholar
9. Yan X, Song T, Wu Q (2017) An improved cultural algorithm and its application in image matching. Multimed Tools Appl 76(13):14951–14968
   Article Google Scholar
10. Wang F, Zhang QL (2016) Systemic estimation of dam overtopping probability: bayesian networks approach. J Infrastruct Syst 23(2), Document number: 04016037
11. Yu R, Ding C, Zhang D (2017) All-optical control of weak-light transport and Fano-like resonance using control-probe technique in a quantum-dot-pillar microcavity system. J Appl Phys 121(14), Document number:144303
    Article Google Scholar
12. Wang Y, Yan C, Jianzhong Y (2017) Tool path generation algorithm based on covariant field theory and cost functional optimization and its applications in blade machining. Int J Adv Manuf Technol 90(1–4):927–943
    Article Google Scholar
13. Yan X, Liu H, Zhu Z (2017) Hybrid genetic algorithm for engineering design problems. Clust Comput J Netw Softw Tools Appl 20(1):263–275
    Google Scholar
14. Chen D, Zhang YD, Wei W (2017) Efficient vulnerability detection based on an optimized rule-checking static analysis technique. Front Inf Technol Electron Eng 18(3):332–345
    Article Google Scholar
15. Ma Y, Wang J, Xu H (2017) Robust image feature matching via progressive sparse spatial consensus. IEEE Access 5:24568–24579
    Article Google Scholar
16. Lu T, Xiong Z, Zhang Y (2017) Robust face super-resolution via locality-constrained low-rank representation. IEEE Access 5:13103–13117
    Article Google Scholar
17. Zhang S, Tian X, Xiong C (2017) Fast implementation for the singular value and eigenvalue decomposition based on FPGA. Chin J Electron 26(1):132–136
    Article Google Scholar
18. Wu Q, Liu H, Yan X (2016) Multi-label classification algorithm research based on swarm intelligence. Clust Comput J Netw Softw Tools Appl 19(4):2075–2085
    Google Scholar
19. Wang H, Sun Z, Chen S (2016) A novel real-time method for moving vehicle detection. J Internet Technol 17(7):1501–1509
    Google Scholar
20. Hong H, Hua X, Zhang X (2016) Multi-frame real image restoration based on double loops with alternative maximum likelihood estimation. SIViP 10(8):1489–1495
    Article Google Scholar
21. Xia P (2016) Haptics for product design and manufacturing simulation. IEEE Trans Haptics 9(3):358–375
    Article MathSciNet Google Scholar
22. Yan X, Wu Q, Sheng VS (2016) A double weighted Naive Bayes with niching cultural algorithm for multi-label classification. Int J Pattern Recognit Artif Intell 30(6), Document number:1650013
    Article Google Scholar
23. Liao H, Lu S, Wang D (2016) Tied factor analysis for unconstrained face pose classification. OPTIK 127(23):11553–11566
    Article Google Scholar
24. Yang X, Wang QA (2017) 2D numerical study of polar active liquid crystal flows in a cavity. Comput Fluids 155(SI):33–49
    Article MathSciNet Google Scholar
25. Yu S, Song J, Hua X (2017) Poissonian image deblurring method by non-local total variation and framelet regularization constraint. Comput Electr Eng 62:319–329
    Article Google Scholar
26. Hua X, Liu J (2015) A novel fast algorithm for the pseudo Winger-Ville distribution. J Commun Technol Electron 60(11):1238–1247
    Article Google Scholar
27. Zheng Y, Wang Y, Wong DSH (2015) A time series model coefficients monitoring approach for controlled processes. Chem Eng Res Des 100:228–236
    Article Google Scholar
28. Wu S, Mingqing W, Zou Yuntao (2018) Bidirectional cognitive computing method supported by cloud technology. Cogn Syst Res 52:615–621
    Article Google Scholar
29. Shaofei W, Mingqing W, Maozhu J et al (2019) Uniform L1 stability of the inelastic Boltzmann equation with large external force for hard potentials. Discrete Contin Dyn Syst Ser S 12(4–5):1005–1013
    MathSciNet MATH Google Scholar
30. Shaofei W (2019) Nonlinear information data mining based on time series for fractional differential operators. Chaos 29, Article Number 013114
31. Shaofei W (2015) A traffic motion object extraction algorithm. Int J Bifurc Chaos 25(14), Article Number 1540039
32. Wu S, Mingqing W, Yuntao Z (2018) Research on internet information mining based on agent algorithm. Future Gener Comput Syst 86:598–602
    Article Google Scholar
33. Qishou K, Wu S, Mingqing W, Yuntao Z (2018) Evaluation of developer efficiency based on improved DEA model. Wireless Pers Commun 12(4):3843–3849
    Google Scholar
34. Wu S, Mingqing W, Yuntao Z (2018) Sewage information monitoring system based on wireless sensor. Desalination Water Treatment 121:73–83
    Article Google Scholar

Download references

Acknowledgements

This work was supported by the Natural Science Foundation of Hubei Province of China under Grant No. 2018CFB681.

Author information

Authors and Affiliations

1. Hubei Province Key Laboratory of Intelligent Robots, Wuhan Institute of Technology, Wuhan, People’s Republic of China
   Shaofei Wu, Jun Liu & Lizhi Liu
2. School of Computer Science and Engineering, Wuhan Institute of Technology, Wuhan, People’s Republic of China
   Shaofei Wu, Jun Liu & Lizhi Liu

Authors

1. Shaofei Wu
2. Jun Liu
3. Lizhi Liu

Corresponding author

Correspondence toShaofei Wu.

Additional information

Publisher's Note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Rights and permissions

About this article

Cite this article

Wu, S., Liu, J. & Liu, L. Modeling method of internet public information data mining based on probabilistic topic model.J Supercomput 75, 5882–5897 (2019). https://doi.org/10.1007/s11227-019-02885-8

Download citation

• Published: 19 June 2019
• Version of record: 19 June 2019
• Issue date: September 2019
• DOI: https://doi.org/10.1007/s11227-019-02885-8

Keywords