Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Modified RTK-GNSS for Challenging Environments
View through CrossRef
Real-Time Kinematic Global Navigation Satellite System (RTK-GNSS) is currently the premier technique for achieving centimeter-level accuracy quickly and easily. However, the robustness of RTK-GNSS diminishes in challenging environments due to severe multipath effects and a limited number of available GNSS signals. This is a pressing issue, especially for GNSS users in the navigation industry. This paper proposes and evaluates several methodologies designed to overcome these issues by enhancing the availability and reliability of RTK-GNSS solutions in urban environments. Our novel approach involves the integration of conventional methods with a new technique that leverages surplus satellites—those not initially used for positioning—to more reliably detect incorrect fix solutions. We conducted three tests in densely built-up areas within the Tokyo region. The results demonstrate that our approach not only surpasses the fix rate of the latest commercial receivers and a popular open-source RTK-GNSS program but also improves positional reliability to levels comparable to or exceeding those of the aforementioned commercial technology.
Title: Modified RTK-GNSS for Challenging Environments
Description:
Real-Time Kinematic Global Navigation Satellite System (RTK-GNSS) is currently the premier technique for achieving centimeter-level accuracy quickly and easily.
However, the robustness of RTK-GNSS diminishes in challenging environments due to severe multipath effects and a limited number of available GNSS signals.
This is a pressing issue, especially for GNSS users in the navigation industry.
This paper proposes and evaluates several methodologies designed to overcome these issues by enhancing the availability and reliability of RTK-GNSS solutions in urban environments.
Our novel approach involves the integration of conventional methods with a new technique that leverages surplus satellites—those not initially used for positioning—to more reliably detect incorrect fix solutions.
We conducted three tests in densely built-up areas within the Tokyo region.
The results demonstrate that our approach not only surpasses the fix rate of the latest commercial receivers and a popular open-source RTK-GNSS program but also improves positional reliability to levels comparable to or exceeding those of the aforementioned commercial technology.
Related Results
Statistical comparison analysis of different real-time kinematic methods for the development of photogrammetric products: CORS-RTK, CORS-RTK + PPK, RTK-DRTK2, and RTK + DRTK2 + GCP
Statistical comparison analysis of different real-time kinematic methods for the development of photogrammetric products: CORS-RTK, CORS-RTK + PPK, RTK-DRTK2, and RTK + DRTK2 + GCP
Abstract
Traditional photogrammetry techniques require the use of Ground Control Points (GCPs) to accurately georeference aerial images captured by unmanned aerial v...
An Enhanced RANSAC-RTK Algorithm in GNSS-Challenged Environments
An Enhanced RANSAC-RTK Algorithm in GNSS-Challenged Environments
Abstract
Outliers significantly affect the accuracy and reliability of global navigation satellite system (GNSS). The outliers must be properly handled in real-time kinemat...
GNSS reflectometry for land remote sensing applications
GNSS reflectometry for land remote sensing applications
Soil moisture and vegetation biomass are two essential parameters from a scienti c and economical point of view. On one hand, they are key for the understanding of the hydrological...
Evaluation of the Repeatability and Accuracy of RTK GNSS under Tree Canopy
Evaluation of the Repeatability and Accuracy of RTK GNSS under Tree Canopy
Using the Real Time Kinematic (RTK) GNSS (Global Navigation Satellite Systems) Method, one may precisely estimate a location on Earth in “real-time” to within a few centimeters. Ho...
Dual-System RTK, Centimeter-Accurate Positioning
Dual-System RTK, Centimeter-Accurate Positioning
<div class="htmlview paragraph">RTK stands for “Real Time Kinematic”. GPS RTK receivers provide real time position at centimeter level accuracy, on moving vehicles.</div&g...
A chemically inducible multimerization system for tunable and background-free RTK activation
A chemically inducible multimerization system for tunable and background-free RTK activation
ABSTRACT
Receptor tyrosine kinases (RTKs) are key regulators of diverse cellular processes, including differentiation, migration, proliferation, survival, and intracell...
İnsansız Hava Aracı Fotogrametrisinde Klasik RTK ile Ağ-RTK Yöntemlerinin Karşılaştırılması
İnsansız Hava Aracı Fotogrametrisinde Klasik RTK ile Ağ-RTK Yöntemlerinin Karşılaştırılması
İnsansız hava araçlarının ortaya çıkmasıyla beraber, daha önceden yapılan hava fotogrametrisinde kullanılan uçurtma, uçak, helikopter ve sair ile yapılan araçlara göre kullanılabil...
A tightly coupled GNSS RTK/IMU integration with GA-BP neural network for challenging urban navigation
A tightly coupled GNSS RTK/IMU integration with GA-BP neural network for challenging urban navigation
Abstract
Intelligent transportation system is increasing the importance of real-time acquisition of positioning, navigation, and timing information from high-accurac...