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A Novel Optimal Configuration form Redundant MEMS Inertial Sensors Based on the Orthogonal Rotation Method
by
Cheng, Jianhua
, Dong, Jinlu
, Landry, Rene Jr
, Chen, Daidai
in
Accuracy
/ Aircraft
/ Algorithms
/ Engineering - instrumentation
/ Equipment Design - instrumentation
/ FDI
/ Geographic Information Systems - instrumentation
/ Inertial
/ Inertial navigation
/ Mathematical analysis
/ MEMS
/ Micro-Electrical-Mechanical Systems - instrumentation
/ navigation accuracy
/ Navigation systems
/ Optimization
/ redundancy configuration
/ Redundant
/ reliability
/ Reproducibility of Results
/ Rotation
/ Sensors
/ Simulation
/ Systems Integration
/ Vectors (mathematics)
2014
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A Novel Optimal Configuration form Redundant MEMS Inertial Sensors Based on the Orthogonal Rotation Method
by
Cheng, Jianhua
, Dong, Jinlu
, Landry, Rene Jr
, Chen, Daidai
in
Accuracy
/ Aircraft
/ Algorithms
/ Engineering - instrumentation
/ Equipment Design - instrumentation
/ FDI
/ Geographic Information Systems - instrumentation
/ Inertial
/ Inertial navigation
/ Mathematical analysis
/ MEMS
/ Micro-Electrical-Mechanical Systems - instrumentation
/ navigation accuracy
/ Navigation systems
/ Optimization
/ redundancy configuration
/ Redundant
/ reliability
/ Reproducibility of Results
/ Rotation
/ Sensors
/ Simulation
/ Systems Integration
/ Vectors (mathematics)
2014
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Do you wish to request the book?
A Novel Optimal Configuration form Redundant MEMS Inertial Sensors Based on the Orthogonal Rotation Method
by
Cheng, Jianhua
, Dong, Jinlu
, Landry, Rene Jr
, Chen, Daidai
in
Accuracy
/ Aircraft
/ Algorithms
/ Engineering - instrumentation
/ Equipment Design - instrumentation
/ FDI
/ Geographic Information Systems - instrumentation
/ Inertial
/ Inertial navigation
/ Mathematical analysis
/ MEMS
/ Micro-Electrical-Mechanical Systems - instrumentation
/ navigation accuracy
/ Navigation systems
/ Optimization
/ redundancy configuration
/ Redundant
/ reliability
/ Reproducibility of Results
/ Rotation
/ Sensors
/ Simulation
/ Systems Integration
/ Vectors (mathematics)
2014
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A Novel Optimal Configuration form Redundant MEMS Inertial Sensors Based on the Orthogonal Rotation Method
Journal Article
A Novel Optimal Configuration form Redundant MEMS Inertial Sensors Based on the Orthogonal Rotation Method
2014
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Overview
In order to improve the accuracy and reliability of micro-electro mechanical systems (MEMS) navigation systems, an orthogonal rotation method-based nine-gyro redundant MEMS configuration is presented. By analyzing the accuracy and reliability characteristics of an inertial navigation system (INS), criteria for redundant configuration design are introduced. Then the orthogonal rotation configuration is formed through a two-rotation of a set of orthogonal inertial sensors around a space vector. A feasible installation method is given for the real engineering realization of this proposed configuration. The performances of the novel configuration and another six configurations are comprehensively compared and analyzed. Simulation and experimentation are also conducted, and the results show that the orthogonal rotation configuration has the best reliability, accuracy and fault detection and isolation (FDI) performance when the number of gyros is nine.
Publisher
MDPI AG,MDPI
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