The Automatic Checkout Method of Balloon-Tracking Data at Unequal Intervals of Time

Jing He; Bing Liu; Yang Liu

doi:10.4028/www.scientific.net/AMM.444-445.1644

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 444-445The Automatic Checkout Method of Balloon-Tracking...

The Automatic Checkout Method of Balloon-Tracking Data at Unequal Intervals of Time

Abstract:

By tracking a beacon ball with theodolite and radar synchronously to inspect the accuracy of ra-dar data is one of the common calibrating methods without calibration towers at sea. Relied on some com-plications, the theodolite which acts as the standard in the precision test can not following the track of a d-ynamic target continuously for a long time. So the present processing methods based on isochronal interv-als can just make use of less continuous data. Upon that a new dynamic adaptive checkout method is introduced. It solves the problem of outliers-eliminating automatically among a great deal of data at unequal in-terval time by three culling steps. The results indicate that this method can eliminate outliers in beacon ball tracking data and make batch processing base on uncontinuous data implemented effectively. Not only the data quantity has been increased, but also the data process efficiency has been improved.

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Periodical:

Applied Mechanics and Materials (Volumes 444-445)

Pages:

1644-1648

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.444-445.1644

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Online since:

October 2013

Authors:

Jing He, Bing Liu, Yang Liu

Keywords:

Beacon Ball-Tracking Data, Dynamic Adaptive, Outlier, Unequal Interval Time, Zero Calibration

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References

[1] Xiao-yong LI, Jing HE. The effect s of spacecraft TT &C ship's deformation on it s outer2t rajectory measurement data[J ]. J ournal of s pace2craf t T T &C Technology, 2006, 25 ( 3): 7212.

Google Scholar

[2] Chenghong YUAN, Xiaofeng ZHU, Jian CHEN et al. Balloon-Tracking Zero Angle Calibration Method for Ship-borne Radars [J]. Journal of Spacecraft TT&C Technology 2009, 28( 4): 21-23.

Google Scholar

[3] Jeschke Wolfgang. Digital close2range photogrammetry for sur2face measurement [A]. Proceedings of SPIE[ C] . 1990 , 1395: 105821065.

Google Scholar

[4] Dean Zhong. Equipment calibration technique of TT&C or communication applied to space tracking ships [M] . Beijing : National Defense Industry Press , (2009).

Google Scholar

[5] LI Ke-xin XIA Hong-sen. Data Analysis of Radar Accuracy Testing Based on Grubbs[J]. Modern Radar. 2008, 30(10): 26-28.

Google Scholar