Hybrid positioning a prototype system for navigation in GPS-challenged environments

Chris Rizos; Dorota A. Grejner-Brzezinska; Charles K. Toth; Andrew G. Dempster; Yong Li; Nonie Politi; Joel Barnes; Hongxing Sun; Leilei Li

Hybrid positioning a prototype system for navigation in GPS-challenged environments

Chris Rizos^*, Dorota A. Grejner-Brzezinska, Charles K. Toth, Andrew G. Dempster, Yong Li, Nonie Politi, Joel Barnes, Hongxing Sun, Leilei Li

^*Corresponding author for this work

Research output: Contribution to specialist publication › Article

9 Citations (Scopus)

Abstract

The integration of several technologies such as satellite (GNSS including GIS) and terrestrial ranging systems, inertial navigation systems (INS), laser guidance/scanning systems, and even electro optical devices such as surveyors total stations or laser scanners offers navigation in GPS challenged environments. GPS and Locata have high positioning accuracy in open or moderately obstructed environment, but they ate sensitive to signal blockage in dense forests and urban canyons. The most common data processing to integrate GPS and INS is the Kalman filter, which forms the basis for multi sensor integration. The implementation of the filter will be flexible, so adjustments can be made to account for actual environmental conditions. The test experiment demonstrates a proof of concept of a triple integration GPS/INS/Locata system.

Original language	English
Pages	42-47
Number of pages	6
Volume	21
No.	3
Specialist publication	GPS World
Publication status	Published - Mar 2010
Externally published	Yes

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author = "Chris Rizos and Grejner-Brzezinska, {Dorota A.} and Toth, {Charles K.} and Dempster, {Andrew G.} and Yong Li and Nonie Politi and Joel Barnes and Hongxing Sun and Leilei Li",

year = "2010",

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AU - Rizos, Chris

AU - Grejner-Brzezinska, Dorota A.

AU - Toth, Charles K.

AU - Dempster, Andrew G.

AU - Li, Yong

AU - Politi, Nonie

AU - Barnes, Joel

AU - Sun, Hongxing

AU - Li, Leilei

PY - 2010/3

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N2 - The integration of several technologies such as satellite (GNSS including GIS) and terrestrial ranging systems, inertial navigation systems (INS), laser guidance/scanning systems, and even electro optical devices such as surveyors total stations or laser scanners offers navigation in GPS challenged environments. GPS and Locata have high positioning accuracy in open or moderately obstructed environment, but they ate sensitive to signal blockage in dense forests and urban canyons. The most common data processing to integrate GPS and INS is the Kalman filter, which forms the basis for multi sensor integration. The implementation of the filter will be flexible, so adjustments can be made to account for actual environmental conditions. The test experiment demonstrates a proof of concept of a triple integration GPS/INS/Locata system.

AB - The integration of several technologies such as satellite (GNSS including GIS) and terrestrial ranging systems, inertial navigation systems (INS), laser guidance/scanning systems, and even electro optical devices such as surveyors total stations or laser scanners offers navigation in GPS challenged environments. GPS and Locata have high positioning accuracy in open or moderately obstructed environment, but they ate sensitive to signal blockage in dense forests and urban canyons. The most common data processing to integrate GPS and INS is the Kalman filter, which forms the basis for multi sensor integration. The implementation of the filter will be flexible, so adjustments can be made to account for actual environmental conditions. The test experiment demonstrates a proof of concept of a triple integration GPS/INS/Locata system.

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Hybrid positioning a prototype system for navigation in GPS-challenged environments

Abstract

UN SDGs

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