Horizon Line Stability Observations over the Sea-Reference-Cited by-同舟云学术

Horizon Line Stability Observations over the Sea

Published:2017-10-02 Issue:2 Volume:71 Page:437-453
ISSN:0373-4633
Container-title:Journal of Navigation
language:en
Short-container-title:J. Navigation

Author:

Grishin Vladimir A.,Maslov Igor A.

Abstract

Increasing the stability and reliability of navigation for mobile objects of different classes is becoming increasingly significant. Satellite navigation systems have a fundamental defect: a vulnerability to hacking and spoofing. Observation of the horizon line is significant for two applications. The first is stellar inertial navigation systems. In this case, the horizon line can be used for local vertical estimation. Errors in local vertical estimation directly affect coordinate errors. The second is correlation-extremal navigation based on the observed horizon line shape (when islands or continents are observed from aerial vehicles). In both cases, instability of the horizon line produces navigation errors. A measurement procedure for horizon line position estimation was proposed and realised. Around-the-clock horizon line shooting was undertaken in 2013. Processing of the results shows a horizon line direction instability of about 5–7 angular minutes during the day time.

Publisher

Cambridge University Press (CUP)

Subject

Ocean Engineering,Oceanography

Reference46 articles.

1. Optical Physics Company (OPC). (2014). High-accuracy SWIR Band Star Tracker for Day/Night Celestial Navigation. http://www.opci.com/wp-content/uploads/2014/08/OPCin14Profiles02.pdf. Accessed 5 February 2017.

2. Oiri A. , Nagatani K. and Yoshida K. (2010). Global positioning for Planetary Rovers based on Panoramic Skyline Image. Proceedings of the 2010 JSME Conference on Robotics and Mechatronics, Japan.

3. A novel navigation method used in a ballistic missile

4. Efficient Terrain-Aided Visual Horizon Based Attitude Estimation and Localization

5. Iacobellis S.F. , Norris J.R. , Kanamitsu M. , Tyree M. and Cayan D.C. (2009). Climate variability and California low-level temperature inversions. Climate Change Center, California, Rep. CEC-500-2009-020-F. http://www.energy.ca.gov/2009publications/CEC-500-2009-020/CEC-500-2009-020-F.PDF. Accessed 5 February 2017.

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