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- Title
水下声纳定位浮标阵列解析优化.
- Authors
齐珂; 曲国庆; 苏晓庆; 薛树强; 刘以旭; 杨文龙
- Abstract
Global navigation satellite system (GNSS)/acoustic positioning precision is comprehensively de- termined by both the configuration of GNSS buoys array and ranging precision. Thus, optimizing the GNSS buoys array is meaningful to improve the positioning accuracy and reliability. This paper proposes an analytical method for optimizing the GNSS buoys array with regard to the cutoff angle constraints for obser- vations. By using the latest geometric dilution of precision (GDOP) minimization method developed by this paper and introducing a set of constrains considering the coplanar GNSS buoys and the cutoff angle limita- tion, we discuss the position dilution of precision (GDOP′) minimization for underwater positioning circum - stances and propose an algorithm for producing the configuration with the smallest GDOP. Moreover, we develop a method for searching the best configuration to achieve an isotropic positioning coverage within a given region by employing the concepts about the GDOP mean value and variance. In the experimental test, we take five GNSS buoys as an example to give full solutions based on the centralized GDOP′ minimi- zation as well as a unique solution for minimizing the GDOP′ mean value. The effectiveness of the proposed method is verified by the simulation experiment. Our experiments show that within a region the centralized GDOP minimization may be equivalent to the GDOP′ mean value minimization as well as the GDOP′ vari- ance minimization.
- Subjects
GLOBAL Positioning System; BUOYS; DILUTION
- Publication
Geomatics & Information Science of Wuhan University, 2019, Vol 44, Issue 9, p1312
- ISSN
1671-8860
- Publication type
Article
- DOI
10.13203/j.whugis20170331