Your search keyword '"Kanghua Tang"' showing total 36 results

1. A Single-Anchor Cooperative Positioning Method Based on Optimized Inertial Measurement for UAVs

Author

Jinyi Yang, Yan Guo, and Kanghua Tang

Subjects

cooperative positioning, single anchor, inertial/ranging integrated navigation, Motor vehicles. Aeronautics. Astronautics, TL1-4050

Abstract

Benefiting from its structural simplicity and low cost, the inertial/ranging integrated navigation system is widely utilized in multi-agent applications, particularly in unmanned aerial vehicles (UAVs). As the deployment of UAVs in complex environments becomes more prevalent, accurate positioning in sparse observation scenarios has become increasingly important. In satellite-denied environments with few anchors, traditional filtering methods for positioning suffer from poor effectiveness due to the lack of constraints. This article proposes a method to enhance positioning accuracy in such environments by optimizing the inertial outputs of each UAV. The optimization process is based on the range measurements between the UAVs and a single anchor. By solving the optimization function derived using Bayesian theory, the optimized inertial outputs of the UAVs can be obtained. These optimized inertial data are then used in place of the original measurements for position estimation in the filter, resulting in improved performance. Simulation and real-world experiments validate that the proposed method can enhance UAVs’ positioning accuracy in single-anchor environments, surpassing the performance of a single optimizer or filter. Furthermore, the positions estimated by cooperative agents demonstrate higher accuracy than those estimated by individual agents, as more ranging measurements are incorporated.

Published

2023

2. Spoofing Control Strategy for Precise Position Offset Based on INS/GNSS Tightly Coupled Navigation

Author

Shuhai Lu, Yan Guo, Hang Shang, Kanghua Tang, Juliang Cao, Ruihang Yu, and Shaokun Cai

Subjects

INS/GNSS tightly coupled navigation, spoofing control strategy, steady state gain matrix, GNSS spoofing signal, precise position offset, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

To deceive Inertial Navigation System(INS)/Global Navigation Satellite System(GNSS) integrated navigation terminals, the entry point is still to inject GNSS spoofing signals to the target system. However, the spoofing control strategy in integrated navigation mode for particular tasks such as fixed-point capture or directional drive needs further research. Whether applying GNSS spoofing attacks or not, the Kalman filter correction gain matrix element in the tightly coupled navigation system always maintains its stability, which gives us valuable clues to develop an effective spoofing attack. On this basis, this article focuses on the feasibility and operability of spoofing attacks under tightly coupled navigation conditions and innovatively proposes a spoofing control strategy that can achieve accurate position offsets: Specific spoofing signals are implanted to the target tightly coupled navigation terminal at the beginning of the spoofing attack. The amounts of pseudo-range spoofing signals corresponding to different satellites are respectively the projections of the position increments to be deceived on the sight vector of the integrated navigation terminal to each satellite. Simulation experiments and tightly coupled navigation terminal experiments verify the correctness and effectiveness of the spoofing control strategy.

Published

2020

3. Integral back-stepping algorithm for designing the quadrotor aircraft controller

Author

Yan GUO, Meiping WU, Kanghua TANG, and Xueying WANG

Subjects

the under-actuated quadrotor aircraft, Lyapunov stability, the integral term, the back-stepping algorithm, Electronic computers. Computer science, QA75.5-76.95

Abstract

In view of the problem that the back-stepping algorithm control model is complex and physically difficult to realize,a method of integral back-stepping algorithm for the under-actuated quadrotor aircraft was proposed in this paper.The back-stepping technique based on the Lyapunov stability theory was used to realize the effective tracking control of position and attitude,and ensure the stability of the quadrotor aircraft controller.In order to simplify the controller model,it is proposed to add the integral term in the process of the back-stepping attitude controller design according to the characteristics of the aircraft model,and set the appropriate integral term constant to reduce the burden of the controller and to enhance the practicability of the control algorithm.The controller can realize the stabilization of each attitude,the fixed point,the trajectory track of the position and yaw without error.

Published

2019

4. Position deceptive tracking controller and parameters analysis via error characteristics for unmanned aerial vehicle

Author

Yan Guo, Meiping Wu, Kanghua Tang, Junbo Tie, and Jingyu Zhang

Subjects

Electronics, TK7800-8360, Electronic computers. Computer science, QA75.5-76.95

Abstract

Covert Global Navigation Satellite System spoofer, called position deceptive tracking controller for unmanned aerial vehicle, is studied via analyzing the error characteristics in this article. Specifically, the following topics are discussed: (1) design the position deceptive tracking controller to make unmanned aerial vehicle deviate from the original path and follow up the spoofed new path point by point, and (2) analyze the related parameters by exploring the characteristics of the initial estimated state errors. Simulation results show the designed controller can realize the position offset of unmanned aerial vehicle unknowingly. What’s more, it can eliminate the initial state errors by selecting appropriate parameters.

Published

2019

5. High-Speed Train Tunnel Navigation Method Based on Integrated MIMU/ODO/MC Navigation

Author

Zhenqian Sun, Kanghua Tang, Xueying Wang, Meiping Wu, and Yan Guo

Subjects

high-speed train navigation, tunnel, motion constraints, installation angles, odometer, extended kalman filter, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

When a high-speed train is running in a tunnel, the global navigation satellite system (GNSS) signal is completely lost. Relying only on the inertial navigation system (INS) composed of Micro-electromechanical Systems (MEMS) devices leads to large navigation errors. To solve this problem, an integrated micro inertial measurement unit (MIMU), odometer (ODO), and motion constraint (MC) tunnel navigation method is proposed. This method first establishes a motion constraint model based on the installation angles of MIMU; secondly, the effect of turning on the motion constraint model and the odometer is analyzed and the use condition of the motion constraints is obtained; the installation angles of MIMU are then estimated when GNSS signal is good and the use condition of the motion constraints is met; finally, the forward speed measured by the odometer and the motion constraints are applied to suppress the error of the INS and improve the navigation accuracy in the tunnel. Based on this method, high-speed train navigation tests were carried out both in areal tunnel environment and in a case study with an artificially disconnected GNSS signal. The experimental results showed that the navigation accuracy of the train in the tunnel was significantly improved. Seamless navigation was achieved inside and outside the tunnel, which verified the effectiveness of the method.

Published

2021

6. Observability Analysis of a MEMS INS/GPS Integration System with Gyroscope G-Sensitivity Errors

Author

Chen Fan, Xiaoping Hu, Xiaofeng He, Kanghua Tang, and Bing Luo

Subjects

MEMS INS/GPS integration system, observability analysis, gyro g-sensitivity errors, linear acceleration effect on gyros, Chemical technology, TP1-1185

Abstract

Gyroscopes based on micro-electromechanical system (MEMS) technology suffer in high-dynamic applications due to obvious g-sensitivity errors. These errors can induce large biases in the gyroscope, which can directly affect the accuracy of attitude estimation in the integration of the inertial navigation system (INS) and the Global Positioning System (GPS). The observability determines the existence of solutions for compensating them. In this paper, we investigate the observability of the INS/GPS system with consideration of the g-sensitivity errors. In terms of two types of g-sensitivity coefficients matrix, we add them as estimated states to the Kalman filter and analyze the observability of three or nine elements of the coefficient matrix respectively. A global observable condition of the system is presented and validated. Experimental results indicate that all the estimated states, which include position, velocity, attitude, gyro and accelerometer bias, and g-sensitivity coefficients, could be made observable by maneuvering based on the conditions. Compared with the integration system without compensation for the g-sensitivity errors, the attitude accuracy is raised obviously.

Published

2014

7. Two Novel Measurements for the Drive-Mode Resonant Frequency of a Micromachined Vibratory Gyroscope

Author

Ancheng Wang, Xiaoping Hu, Bing Luo, Mingming Jiang, Xiaofeng He, and Kanghua Tang

Subjects

micromachined vibratory gyroscope, drive mode, resonant frequency, one-dimensional search, golden section, Chemical technology, TP1-1185

Abstract

To investigate the drive-mode resonance frequency of a micromachined vibratory gyroscope (MVG), one needs to measure it accurately and efficiently. The conventional approach to measure the resonant frequency is by performing a sweep frequency test and spectrum analysis. The method is time-consuming and inconvenient because of the requirements of many test points, a lot of data storage and off-line analyses. In this paper, we propose two novel measurement methods, the search method and track method, respectively. The former is based on the magnitude-frequency characteristics of the drive mode, utilizing a one-dimensional search technique. The latter is based on the phase-frequency characteristics, applying a feedback control loop. Their performances in precision, noise resistivity and efficiency are analyzed through detailed simulations. A test system is implemented based on a field programmable gate array (FPGA) and experiments are carried out. By comparing with the common approach, feasibility and superiorities of the proposed methods are validated. In particular, significant efficiency improvements are achieved whereby the conventional frequency method consumes nearly 5,000 s to finish a measurement, while only 5 s is needed for the track method and 1 s for the search method.

Published

2013

8. A Novel INS and Doppler Sensors Calibration Method for Long Range Underwater Vehicle Navigation

Author

Wenqi Wu, Wanli Li, Jinling Wang, and Kanghua Tang

Subjects

inertial navigation system, Doppler velocity log, integrated navigation, autonomous underwater vehicle, parameters calibration, iterative implementation, Chemical technology, TP1-1185

Abstract

Since the drifts of Inertial Navigation System (INS) solutions are inevitable and also grow over time, a Doppler Velocity Log (DVL) is used to aid the INS to restrain its error growth. Therefore, INS/DVL integration is a common approach for Autonomous Underwater Vehicle (AUV) navigation. The parameters including the scale factor of DVL and misalignments between INS and DVL are key factors which limit the accuracy of the INS/DVL integration. In this paper, a novel parameter calibration method is proposed. An iterative implementation of the method is designed to reduce the error caused by INS initial alignment. Furthermore, a simplified INS/DVL integration scheme is employed. The proposed method is evaluated with both river trial and sea trial data sets. Using 0.03°/h(1σ) ring laser gyroscopes, 5 × 10−5 g(1σ) quartz accelerometers and DVL with accuracy 0.5% V ± 0.5 cm/s, INS/DVL integrated navigation can reach an accuracy of about 1‰ of distance travelled (CEP) in a river trial and 2‰ of distance travelled (CEP) in a sea trial.

Published

2013

9. A Simplified Baseband Prefilter Model with Adaptive Kalman Filter for Ultra-Tight COMPASS/INS Integration

Author

Bing Luo, Kanghua Tang, Yong Luo, Ravindra Babu, and Wenqi Wu

Subjects

COMPASS, ultra-tight COMPASS/INS integration, simplified prefilter model, adaptive Kalman filter, Chemical technology, TP1-1185

Abstract

COMPASS is an indigenously developed Chinese global navigation satellite system and will share many features in common with GPS (Global Positioning System). Since the ultra-tight GPS/INS (Inertial Navigation System) integration shows its advantage over independent GPS receivers in many scenarios, the federated ultra-tight COMPASS/INS integration has been investigated in this paper, particularly, by proposing a simplified prefilter model. Compared with a traditional prefilter model, the state space of this simplified system contains only carrier phase, carrier frequency and carrier frequency rate tracking errors. A two-quadrant arctangent discriminator output is used as a measurement. Since the code tracking error related parameters were excluded from the state space of traditional prefilter models, the code/carrier divergence would destroy the carrier tracking process, and therefore an adaptive Kalman filter algorithm tuning process noise covariance matrix based on state correction sequence was incorporated to compensate for the divergence. The federated ultra-tight COMPASS/INS integration was implemented with a hardware COMPASS intermediate frequency (IF), and INS’s accelerometers and gyroscopes signal sampling system. Field and simulation test results showed almost similar tracking and navigation performances for both the traditional prefilter model and the proposed system; however, the latter largely decreased the computational load.

Published

2012

10. A New Inertial Aid Method for High Dynamic Compass Signal Tracking Based on a Nonlinear Tracking Differentiator

Author

Wenqi Wu, Yao Guo, and Kanghua Tang

Subjects

high dynamics, Compass/INS integrated navigation system, inertial aiding, nonlinear tracking differentiator, Chemical technology, TP1-1185

Abstract

In Compass/INS integrated navigation systems, feedback inertial navigation solutions to baseband tracking loops may eliminate receiver dynamic effects, and effectively improve the tracking accuracy and sensitivity. In the conventional inertially-aided tracking loop, the satellite-receiver line-of-sight velocity is used directly to adjust local carrier frequency. However, if the inertial solution drifts, the phase tracking error will be enlarged. By using Kalman filter based carrier phase tracking loop, this paper introduces a new inertial aid method, in which the line-of-sight jerk obtained from inertial acceleration by a nonlinear tracking differentiator is used to adjust relevant parameters of the Kalman filter’s process noise matrix. Validation is achieved through high dynamic Compass B3 signal with line-of-sight jerk of 10 g/s collected by a GNSS simulator. Experimental results indicate that the new inertial aid method proposed in this paper is free of the impact of the receiver dynamic and inertial errors. Therefore, when the integrated navigation system is starting or re-tracking after losing lock, the inertial error is absent from the navigation solution correction that induces large drift, and the new aid method proposed in this paper can track highly dynamic signals.

Published

2012

11. Spoofing Detection Algorithm Based on Pseudorange Differences

Author

Ke Liu, Wenqi Wu, Zhijia Wu, Lei He, and Kanghua Tang

Subjects

single receiver, meaconing attack, simplistic attack, intermediate attack, anti-spoofing technology, pseudorange difference, Chemical technology, TP1-1185

Abstract

Intentional spoofing interference can cause damage to the navigation terminal and threaten the security of a global navigation satellite system (GNSS). For spoofing interference, an anti-spoofing algorithm based on pseudorange differences for a single receiver is proposed, which can be used to detect simplistic and intermediate spoofing attacks, as well as meaconing attacks. Double-difference models using the pseudorange of two adjacent epochs are established followed by the application of Taylor expansion to the position relationship between the satellite and the receiver (or the spoofer). The authenticity of the signal can be verified by comparing the results of the proposed spoofing detection algorithm with the traditional least squares method. The results will differ when spoofing is present. The parameter setting of the proposed algorithm is introduced. The algorithm has the advantage of both simplicity and efficiency and needs only a single receiver and pseudorange data. A NovAtel receiver is adopted for the actual experiments. The Texas spoofing test battery (TEXBAT), as well as two other simulation experiments are used to verify the performance of the algorithm. The simulation results validate the feasibility and effectiveness of the algorithm.

Published

2018

12. IMU Signal Generator Based on Dual Quaternion Interpolation for Integration Simulation

Author

Ke Liu, Wenqi Wu, Kanghua Tang, and Lei He

Subjects

IMU signal generator, dual quaternion, integration simulation, spline interpolation, Chemical technology, TP1-1185

Abstract

This paper focuses on the problem of high-update-rate and high accuracy inertial measurement unit signal generation. In order to be in accordance with the vehicle’s kinematic and dynamic characteristics as well as the characteristics of pseudorange of post-processed global navigation satellite system and their rate measurements, a novel dual quaternion interpolation and analytic integration algorithm based on actual flight data is proposed. The proposed method can simplify the piecewise analytical expressions of angular rates, angular increments and specific force integral increments. Norm corrections are adopted as constraint conditions to guarantee the accuracy of the signals. Numerical simulations are conducted to validate the method’s performance.

Published

2018

13. Square-Root Unscented Information Filter and Its Application in SINS/DVL Integrated Navigation

Author

Yan Guo, Meiping Wu, Kanghua Tang, and Lu Zhang

Subjects

SINS/DVL integrated navigation, unscented information filter, square root, state probability approximation, most suitable parameter form, Chemical technology, TP1-1185

Abstract

To address the problem of low accuracy for the regular filter algorithm in SINS/DVL integrated navigation, a square-root unscented information filter (SR-UIF) is presented in this paper. The proposed method: (1) adopts the state probability approximation instead of the Taylor model linearization in EKF algorithm to improve the accuracy of filtering estimation; (2) selects the most suitable parameter form at each filtering stage to simply the calculation complexity; (3) transforms the square root to ensure the symmetry and positive definiteness of the covariance matrix or information matrix, and then to enhance the stability of the filter. The simulation results indicate that the estimation accuracy of SR-UIF is higher than that of EKF, and similar to UKF; meanwhile the computational complexity of SR-UIF is lower than that of UKF.

Published

2018

14. Research on Covert Directional Spoofing Method for INS/GNSS Loosely Integrated Navigation

Author

Xingshou Geng, Yan Guo, Kanghua Tang, Wenqi Wu, and Yanchao Ren

Subjects

Computer Networks and Communications, Automotive Engineering, Aerospace Engineering, Electrical and Electronic Engineering

Published

2023

15. Research on Vehicle Navigation System Based on Low-Cost Sensors.

Author

Jiankui Du, Kanghua Tang, and Xiaoping Hu

Published

2017

16. High-speed train positioning method based on motion constraints suppressing INS error in tunnel

Author

Meiping Wu, Xueying Wang, Zhenqian Sun, Kanghua Tang, and Yan Guo

Subjects

installation angles, Computer science, extended kalman filter, General Engineering, TL1-4050, Satellite system, motion constraints, Signal, Motion (physics), train positioning, Mechanical system, Extended Kalman filter, GNSS applications, Inertial measurement unit, tunnel, Inertial navigation system, Simulation, Motor vehicles. Aeronautics. Astronautics

Abstract

When the high-speed train is running in tunnel, the global navigation satellite system (GNSS) signal is completely lost, and only relying on the inertial navigation system (INS) composed of micro electro mechanical system (MEMS) devices makes large navigation error. To solve this problem, a method considering the installation angles of micro inertial measurement unit (MIMU) relative to the train body for motion constraints aided inertial navigation system (CIAMC-INS) is proposed, which does not need extra sensors. This method first establishes motion constraints model based on the installation angles of MIMU; secondly, the effect of turning on the motion constraints model is analyzed, and the use condition of motion constraints is obtained; then, the installation angles of MIMU are estimated when GNSS signal is good and the use condition of motion constraints is met; finally, the estimated installation angles are applied to the motion constraints to suppress the error of pure inertial navigation system (P-INS) to improve the navigation accuracy in tunnel. Based on this method, high-speed train navigation tests are carried out both in the real tunnel environment and in the case of artificially disconnected GNSS signal. The experimental results show that the navigation accuracy of the train in the tunnel is significantly improved, which verifies the effectiveness of the method.

Published

2021

17. Covert Spoofing Algorithm of UAV Based on GPS/INS-Integrated Navigation

Author

Meiping Wu, Junbo Tie, Xian Li, Yan Guo, and Kanghua Tang

Subjects

Spoofing attack, Computer Networks and Communications, Computer science, business.industry, GPS/INS, Aerospace Engineering, ComputerApplications_COMPUTERSINOTHERSYSTEMS, 020302 automobile design & engineering, 02 engineering and technology, Kalman filter, GPS signals, ComputingMethodologies_ARTIFICIALINTELLIGENCE, ComputingMilieux_MANAGEMENTOFCOMPUTINGANDINFORMATIONSYSTEMS, 0203 mechanical engineering, Covert, Automotive Engineering, Global Positioning System, ComputingMilieux_COMPUTERSANDSOCIETY, Electrical and Electronic Engineering, business, Algorithm

Abstract

A covert spoofing algorithm of an unmanned aerial vehicle (UAV) based on GPS/inertial-navigation-system-integrated navigation is analyzed in this paper. The proposed algorithm theoretically proves the fact that when the acceleration component of the counterfeit GPS signal is the difference between the UAV's current acceleration and the spoofing control input, the UAV can be covert spoofed. To avoid adverse consequences (detection or crash) caused by frequent changes in UAV flight during the GPS spoofing attacks, the proposed algorithm requires that the deception trajectory planned by the GPS spoofer is slowly changing relative to the reference trajectory, which is pre-set by the UAV. Simulation results have verified the correctness of the proposed covert spoofing algorithm of UAV. Moreover, the spoofing effect is more distinct when the deception trajectory planning is considered.

Published

2019

18. Design of an MEMS-IMU/GNSS integrated navigation algorithm

Author

Xingshou Geng, Kanghua Tang, and Meiping Wu

Subjects

History, GNSS applications, Computer science, business.industry, business, Mems imu, Computer hardware, Computer Science Applications, Education

Abstract

In order to simplify the MEMS-IMU/GNSS integrated navigation system model, improve the navigation accuracy of the carrier under the motion condition of large Angle or frequent steering turning, two navigation modes are adopted. When GNSS signals are available, horizontal velocity and height error are used to construct three-dimensional measurement equations for partial integrated navigation. When GNSS signals are unavailable, kinematic constraint equations are introduced to assist MEMS-IMU for auxiliary navigation. Considering the problem that MEMS gyroscope zero is too large and compass effect is difficult to be reflected, a partial attitude feedback strategy is adopted for the feedback correction. The experimental results show that when GNSS signals are available, compared with the six-dimensional integrated algorithm of speed and position, the partial integrated algorithm simplifies the system model, reduces the dimension of the system, and reduces the amount of calculation, it also has better accuracy. When GNSS signals are unavailable, kinematics constraints auxiliary navigation can effectively restrain position offset, reduce navigation errors and improve navigation accuracy.

Published

2020

19. Design of a fast transfer alignment matching algorithm

Author

Meiping Wu, Xingshou Geng, and Kanghua Tang

Subjects

History, Differential equation, Computer science, Coordinate system, State (functional analysis), Computer Science Applications, Education, Euler angles, symbols.namesake, Deflection (engineering), Consistency (statistics), symbols, Transfer alignment, Algorithm, Blossom algorithm

Abstract

In order to estimate the misalignment angle of align system effectively, this paper constructs a traditional 14 state rapid transfer alignment model, considers the problem that traditional velocity error definition is not completely accord with the consistency of coordinate system, the improved differential equation of velocity error is applied to transfer alignment, constructs an improved 12 state rapid transfer alignment model. Finally, the performance of the two alignment algorithms is tested by vehicle-mounted experimental data under the conditions of no maneuver, C shape maneuver and S shape maneuver, and the experimental result of the two algorithms is compared and analyzed. The experimental result shows that the improved 12 state rapid transfer alignment algorithm not only has better alignment accuracy than the traditional 14 state rapid transfer alignment algorithm, but also reduces the model complexity, reduces the system calculation, and avoids the influence of flexural deflection and dynamic misalignment angle. The yaw angle alignment accuracy is improved by 45%, 65% and 53% under the conditions of no maneuver, C shape maneuver and S shape maneuver, respectively.

Published

2020

20. IMU Signal Generator Based on Dual Quaternion Interpolation for Integration Simulation

Author

Lei He, Kanghua Tang, Wenqi Wu, and Ke Liu

Subjects

spline interpolation, dual quaternion, Computer science, 02 engineering and technology, Kinematics, 010502 geochemistry & geophysics, lcsh:Chemical technology, 01 natural sciences, Biochemistry, Article, Analytical Chemistry, Control theory, Inertial measurement unit, 0202 electrical engineering, electronic engineering, information engineering, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, 0105 earth and related environmental sciences, 020203 distributed computing, Signal generator, Pseudorange, Atomic and Molecular Physics, and Optics, integration simulation, Norm (mathematics), Piecewise, Spline interpolation, Dual quaternion, IMU signal generator, Interpolation

Abstract

This paper focuses on the problem of high-update-rate and high accuracy inertial measurement unit signal generation. In order to be in accordance with the vehicle&rsquo, s kinematic and dynamic characteristics as well as the characteristics of pseudorange of post-processed global navigation satellite system and their rate measurements, a novel dual quaternion interpolation and analytic integration algorithm based on actual flight data is proposed. The proposed method can simplify the piecewise analytical expressions of angular rates, angular increments and specific force integral increments. Norm corrections are adopted as constraint conditions to guarantee the accuracy of the signals. Numerical simulations are conducted to validate the method&rsquo, s performance.

Published

2018

21. Square-Root Unscented Information Filter and Its Application in SINS/DVL Integrated Navigation

Author

Lu Zhang, Kanghua Tang, Yan Guo, and Meiping Wu

Subjects

Computer science, 02 engineering and technology, lcsh:Chemical technology, SINS/DVL integrated navigation, 01 natural sciences, Biochemistry, Article, Analytical Chemistry, Computer Science::Robotics, Extended Kalman filter, square root, Square root, Linearization, unscented information filter, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, state probability approximation, Information filtering system, Covariance matrix, 010401 analytical chemistry, Filter (signal processing), 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, 0210 nano-technology, most suitable parameter form, Algorithm

Abstract

To address the problem of low accuracy for the regular filter algorithm in SINS/DVL integrated navigation, a square-root unscented information filter (SR-UIF) is presented in this paper. The proposed method: (1) adopts the state probability approximation instead of the Taylor model linearization in EKF algorithm to improve the accuracy of filtering estimation, (2) selects the most suitable parameter form at each filtering stage to simply the calculation complexity, (3) transforms the square root to ensure the symmetry and positive definiteness of the covariance matrix or information matrix, and then to enhance the stability of the filter. The simulation results indicate that the estimation accuracy of SR-UIF is higher than that of EKF, and similar to UKF, meanwhile the computational complexity of SR-UIF is lower than that of UKF.

Published

2018

22. Single Receiver Against Repeater Deception Jamming Technology Research

Author

Wenqi Wu, Kanghua Tang, Shihao Zhang, Zhijia Wu, and Ke Liu

Subjects

Repeater, Computer science, media_common.quotation_subject, Jamming, Deception, Computer security, computer.software_genre, Signal, Radar jamming and deception, GNSS applications, Position (vector), Electronic engineering, Satellite navigation, computer, media_common

Abstract

Intentional deception jamming brings great threat to satellite navigation receiver and seriously influence GNSS application security. For repeater deception jamming, an anti-spoofing algorithm based on a single receiver is proposed. Using the adjacent two times measurement pseudo-range does double differences, and Taylor expansion is applied to the position relationship in equations. Under the condition of the previous time’s position information is known, the authenticity of the satellite signal of the next time can be verified according to the position information when it is combined with the least square iterative solution for the double differences equations. The algorithm is simple, and only a single receiver and pseudo-range measurement data is needed. NovAtel receiver is adopted for the actual experiments, and the result validates the feasibility and effectiveness of the algorithm.

Published

2017

23. Observability Analysis of a MEMS INS/GPS Integration System with Gyroscope G-Sensitivity Errors

Author

Xiaofeng He, Bing Luo, Xiaoping Hu, Kanghua Tang, and Fan Chen

Subjects

linear acceleration effect on gyros, Engineering, GPS/INS, observability analysis, Accelerometer, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, law.invention, Control theory, law, lcsh:TP1-1185, Sensitivity (control systems), Observability, Electrical and Electronic Engineering, Instrumentation, MEMS INS/GPS integration system, gyro g-sensitivity errors, Inertial navigation system, Simulation, business.industry, Gyroscope, Kalman filter, Atomic and Molecular Physics, and Optics, Global Positioning System, business

Abstract

Gyroscopes based on micro-electromechanical system (MEMS) technology suffer in high-dynamic applications due to obvious g-sensitivity errors. These errors can induce large biases in the gyroscope, which can directly affect the accuracy of attitude estimation in the integration of the inertial navigation system (INS) and the Global Positioning System (GPS). The observability determines the existence of solutions for compensating them. In this paper, we investigate the observability of the INS/GPS system with consideration of the g-sensitivity errors. In terms of two types of g-sensitivity coefficients matrix, we add them as estimated states to the Kalman filter and analyze the observability of three or nine elements of the coefficient matrix respectively. A global observable condition of the system is presented and validated. Experimental results indicate that all the estimated states, which include position, velocity, attitude, gyro and accelerometer bias, and g-sensitivity coefficients, could be made observable by maneuvering based on the conditions. Compared with the integration system without compensation for the g-sensitivity errors, the attitude accuracy is raised obviously.

Published

2014

24. Position deceptive tracking controller and parameters analysis via error characteristics for unmanned aerial vehicle

Author

Jingyu Zhang, Yan Guo, Kanghua Tang, Junbo Tie, and Meiping Wu

Subjects

0209 industrial biotechnology, business.industry, Computer science, lcsh:Electronics, lcsh:TK7800-8360, 020206 networking & telecommunications, Satellite system, 02 engineering and technology, Tracking (particle physics), lcsh:QA75.5-76.95, Computer Science Applications, 020901 industrial engineering & automation, Artificial Intelligence, Control theory, Position (vector), 0202 electrical engineering, electronic engineering, information engineering, Computer vision, lcsh:Electronic computers. Computer science, Artificial intelligence, business, Software

Abstract

Covert Global Navigation Satellite System spoofer, called position deceptive tracking controller for unmanned aerial vehicle, is studied via analyzing the error characteristics in this article. Specifically, the following topics are discussed: (1) design the position deceptive tracking controller to make unmanned aerial vehicle deviate from the original path and follow up the spoofed new path point by point, and (2) analyze the related parameters by exploring the characteristics of the initial estimated state errors. Simulation results show the designed controller can realize the position offset of unmanned aerial vehicle unknowingly. What’s more, it can eliminate the initial state errors by selecting appropriate parameters.

Published

2019

25. A Novel INS and Doppler Sensors Calibration Method for Long Range Underwater Vehicle Navigation

Author

Jinling Wang, Kanghua Tang, Wenqi Wu, and Wanli Li

Subjects

Engineering, inertial navigation system, Sea trial, GPS/INS, integrated navigation, lcsh:Chemical technology, Accelerometer, Biochemistry, Article, Analytical Chemistry, law.invention, symbols.namesake, Doppler velocity log, autonomous underwater vehicle, parameters calibration, iterative implementation, law, Calibration, lcsh:TP1-1185, Electrical and Electronic Engineering, Instrumentation, Inertial navigation system, Simulation, business.industry, Gyroscope, Scale factor, Atomic and Molecular Physics, and Optics, symbols, business, Doppler effect

Abstract

Since the drifts of Inertial Navigation System (INS) solutions are inevitable and also grow over time, a Doppler Velocity Log (DVL) is used to aid the INS to restrain its error growth. Therefore, INS/DVL integration is a common approach for Autonomous Underwater Vehicle (AUV) navigation. The parameters including the scale factor of DVL and misalignments between INS and DVL are key factors which limit the accuracy of the INS/DVL integration. In this paper, a novel parameter calibration method is proposed. An iterative implementation of the method is designed to reduce the error caused by INS initial alignment. Furthermore, a simplified INS/DVL integration scheme is employed. The proposed method is evaluated with both river trial and sea trial data sets. Using 0.03°/h(1σ) ring laser gyroscopes, 5 × 10−5 g(1σ) quartz accelerometers and DVL with accuracy 0.5% V ± 0.5 cm/s, INS/DVL integrated navigation can reach an accuracy of about 1‰ of distance travelled (CEP) in a river trial and 2‰ of distance travelled (CEP) in a sea trial.

Published

2013

26. Optimization-based INS in-motion alignment approach for underwater vehicles

Author

Liangqing Lu, Wanli Li, Kanghua Tang, and Youlong Wu

Subjects

Computer Science::Robotics, Position (vector), Computer science, Frame (networking), Geodetic datum, Kalman filter, Electrical and Electronic Engineering, Underwater, Algorithm, Atomic and Molecular Physics, and Optics, Inertial navigation system, Electronic, Optical and Magnetic Materials

Abstract

Inertial navigation system (INS) in-motion alignment without any geodetic frame observations is still one of the toughest challenges for underwater vehicles. The traditional Kalman-based method which requires a stage of coarse alignment is not suitable for fast in-motion alignment for its slow convergence. In this paper, a novel optimization-based alignment (OBA) scheme is proposed by using the body frame velocity from Doppler Velocity Log (DVL) only when the initial position of the vehicle is available. The INS alignment is transformed into an attitude determination problem which is known as Wahba's problem. A real time implementation using singular value decomposition (SVD) is given. In addition, a backtracking strategy for updating the final position is proposed. Experimental results show that the accuracy of the alignments is within 0.1° in the 600 s alignments.

Published

2013

27. Simplified ultra-tightly coupled BDS/INS integrated navigation system

Author

Kanghua Tang, Bing Luo, and Xiaofeng He

Subjects

010504 meteorology & atmospheric sciences, General Computer Science, Computer science, business.industry, Clock drift, BeiDou Navigation Satellite System, Pseudorange, Navigation system, 02 engineering and technology, Filter (signal processing), 01 natural sciences, Signal, GNSS applications, Embedded system, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Baseband, 020201 artificial intelligence & image processing, business, 0105 earth and related environmental sciences

Abstract

Due to advantages such as low cost, small size, low weight, low power consumption, powerful capability of anti-jamming, and high dynamics, ultra-tightly coupled GNSS/MIMU integrated navigation systems are extensively used in projectile and precision-guided munitions. To overcome the nonlinearity of baseband signal processing and the complexity of the navigation filter, in this paper, we design a novel architecture for the ultra-tightly coupled (UTC) Beidou navigation satellite system (BDS)/INS integration based on the BDS B3 signal, including the combination of code phase and carrier phase dynamics baseband prefilter model, and the navigation filter navigation error propagation and measurement models. To eliminate the clock state components, i.e., the receiver clock offset and clock drift, the pseudorange, delta pseudorange, and delta pseudorange rate residuals obtained from baseband signal prefilters are differenced between two satellites. Based on the BDS/INS simulator, a test system for the UTC BDS/INS integrated navigation system is developed and UTC performance is evaluated. Some preliminary conclusions are formed about the effectiveness of the UTC BDS/INS integration approach.

Published

2016

28. A double-filter-structure based COMPASS/INS deep integrated navigation system implementation and tracking performance evaluation

Author

Ravindra Babu, Xiao-Feng He, Yong Luo, Kanghua Tang, and Wen-Qi Wu

Subjects

General Computer Science, business.industry, Computer science, Bandwidth (signal processing), GPS/INS, Real-time computing, Navigation system, Inertial measurement unit, GNSS applications, Compass, Global Positioning System, business, Simulation, Inertial navigation system

Abstract

Beidou or COMPASS is a Chinese GNSS (global navigation satellite system). Like the GPS receiver, the COMPASS receiver also faces the challenge of choosing an optimal bandwidth to satisfy both anti-jamming capability and dynamics adaptation simultaneously. GPS/INS (inertial navigation system) deep integrated navigation system has solved this problem by fusing GPS baseband signal and INS information in a deeply coupled mode. In this study, a COMPASS B3 frequency is considered and a traditional federated GPS/INS deep integration model is used to derive a single-filter-structure based COMPASS/INS deep integration model. Besides, a double-filter-structure based COMPASS/INS deep integration model is proposed. The simulation results show a better carrier tracking performance, especially a better dynamics adaptation. The impact of IMU errors and vehicle’s dynamics on carrier tracking performance of the double-filter-structure based COMPASS/INS deep integrated navigation system are evaluated in simulated and field environments. Simulation and field test results are in accordance with the theory analysis.

Published

2012

29. Two Novel Measurements for the Drive-Mode Resonant Frequency of a Micromachined Vibratory Gyroscope

Author

Kanghua Tang, Bing Luo, Mingming Jiang, Xiaofeng He, Wang Ancheng, and Xiaoping Hu

Subjects

Engineering, resonant frequency, Measure (physics), golden section, lcsh:Chemical technology, Biochemistry, Article, Analytical Chemistry, law.invention, law, micromachined vibratory gyroscope, Electronic engineering, lcsh:TP1-1185, Electrical and Electronic Engineering, Field-programmable gate array, Instrumentation, Noise (signal processing), business.industry, Track (disk drive), Mode (statistics), Gyroscope, 5S, drive mode, Atomic and Molecular Physics, and Optics, Computer data storage, business, one-dimensional search

Abstract

To investigate the drive-mode resonance frequency of a micromachined vibratory gyroscope (MVG), one needs to measure it accurately and efficiently. The conventional approach to measure the resonant frequency is by performing a sweep frequency test and spectrum analysis. The method is time-consuming and inconvenient because of the requirements of many test points, a lot of data storage and off-line analyses. In this paper, we propose two novel measurement methods, the search method and track method, respectively. The former is based on the magnitude-frequency characteristics of the drive mode, utilizing a one-dimensional search technique. The latter is based on the phase-frequency characteristics, applying a feedback control loop. Their performances in precision, noise resistivity and efficiency are analyzed through detailed simulations. A test system is implemented based on a field programmable gate array (FPGA) and experiments are carried out. By comparing with the common approach, feasibility and superiorities of the proposed methods are validated. In particular, significant efficiency improvements are achieved whereby the conventional frequency method consumes nearly 5,000 s to finish a measurement, while only 5 s is needed for the track method and 1 s for the search method.

Published

2013

30. Velocity Error Analysis of INS-Aided Satellite Receiver Third-Order Loop Based on Discrete Model

Author

Wang Ancheng, Pu-hua Wang, Xiaoping Hu, Kanghua Tang, Dong-feng Song, and Bing Luo

Subjects

Loop (topology), Third order, Discretization, Error analysis, Control theory, Continuous modelling, GNSS applications, Computer science, Satellite

Abstract

Traditionally, continuous model is usually applied to analyze the velocity error of INS-aided GNSS receiver. However, the actual implemented system is discrete. In consequence, the analysis results based on continuous model are iffy. Aimed at this problem, this paper establishes a discrete model of INS-aided third-order carrier loop according to the actual system. Then, the velocity error caused by discretization is investigated and the error mechanism is analyzed. Analysis and simulation results show that the delay of aiding information is the main error source of INS aided GNSS receiver in high dynamic scene. To improve the dynamic performance of INS-aided carrier loop efficiently, the delay of aiding information should be shortened as much as possible.

Published

2013

31. Analysis of INS Aided Signal Acquisition Based on Navigation Satellites Software Receivers

Author

Meiping Wu, Kanghua Tang, Xiaoping Hu, Liangqing Lu, and Xiaofeng He

Subjects

Signal processing, Engineering, Software, business.industry, GNSS applications, Real-time computing, Electronic engineering, Global Positioning System, Satellite navigation, Detection theory, business, Signal, Inertial navigation system

Abstract

This paper discusses the INS aided signal acquisition method based on GNSS software receivers. In order to overcome low dynamics and sensitivity to RF interference which are the two vulnerabilities of GNSS receivers, INS velocity information is used to assist the fast signal search. The research aims at analyzing the acquisition performance varying with dynamics and INS accuracy. The relation between acquisition ability, dynamics and INS velocity errors is described in theory. With simulation data, an approach of INS aided signal acquisition using FFT is demonstrated. The results show that INS aided acquisition improves dynamics and acquisition effectiveness compared to unaided methods.

Published

2009

32. Analysis on Algorithm of GPS Signal Non-Coherent Acquisition Scheme in MIMU/GPS Embedded Integrated Navigation

Author

Kanghua TANG, Xinsheng HUANG, Meiping WU, and Xiaoping HU

Subjects

Complementary and alternative medicine, Pharmaceutical Science, Pharmacology (medical)

Published

2007

33. Analysis of INS Aided Signal Acquisition Based on Navigation Satellites Software Receivers.

Author

Xiaofeng He, Xiaoping Hu, Kanghua Tang, Liangqing Lu, and Meiping Wu

Published

2009

34. A Novel INS and Doppler Sensors Calibration Method for Long Range Underwater Vehicle Navigation.

Author

Kanghua Tang, Jinling Wang, Wanli Li, and Wenqi Wu

Subjects

*INERTIAL navigation systems, *NAUTICAL instruments, *AUTONOMOUS underwater vehicles, *CALIBRATION, *GYROSCOPES

Abstract

Since the drifts of Inertial Navigation System (INS) solutions are inevitable and also grow over time, a Doppler Velocity Log (DVL) is used to aid the INS to restrain its error growth. Therefore, INS/DVL integration is a common approach for Autonomous Underwater Vehicle (AUV) navigation. The parameters including the scale factor of DVL and misalignments between INS and DVL are key factors which limit the accuracy of the INS/DVL integration. In this paper, a novel parameter calibration method is proposed. An iterative implementation of the method is designed to reduce the error caused by INS initial alignment. Furthermore, a simplified INS/DVL integration scheme is employed. The proposed method is evaluated with both river trial and sea trial data sets. Using 0.03°/h(1σ) ring laser gyroscopes, 5 x 10-5 g(1σ) quartz accelerometers and DVL with accuracy 0.5% V ± 0.5 cm/s, INS/DVL integrated navigation can reach an accuracy of about 1‰ of distance travelled (CEP) in a river trial and 2‰ of distance travelled (CEP) in a sea trial. [ABSTRACT FROM AUTHOR]

Published

2013

35. A Simplified Baseband Prefilter Model with Adaptive Kalman Filter for Ultra-Tight COMPASS/INS Integration.

Author

Yong Luo, Wenqi Wu, Babu, Ravindra, Kanghua Tang, and Bing Luo

Subjects

BASEBAND, ADAPTIVE control systems, KALMAN filtering, GLOBAL Positioning System, DATA integration, ALGORITHMS

Abstract

COMPASS is an indigenously developed Chinese global navigation satellite system and will share many features in common with GPS (Global Positioning System). Since the ultra-tight GPS/INS (Inertial Navigation System) integration shows its advantage over independent GPS receivers in many scenarios, the federated ultra-tight COMPASS/INS integration has been investigated in this paper, particularly, by proposing a simplified prefilter model. Compared with a traditional prefilter model, the state space of this simplified system contains only carrier phase, carrier frequency and carrier frequency rate tracking errors. A two-quadrant arctangent discriminator output is used as a measurement. Since the code tracking error related parameters were excluded from the state space of traditional prefilter models, the code/carrier divergence would destroy the carrier tracking process, and therefore an adaptive Kalman filter algorithm tuning process noise covariance matrix based on state correction sequence was incorporated to compensate for the divergence. The federated ultra-tight COMPASS/INS integration was implemented with a hardware COMPASS intermediate frequency (IF), and INS's accelerometers and gyroscopes signal sampling system. Field and simulation test results showed almost similar tracking and navigation performances for both the traditional prefilter model and the proposed system; however, the latter largely decreased the computational load. [ABSTRACT FROM AUTHOR]

Published

2012

36. A New Inertial Aid Method for High Dynamic Compass Signal Tracking Based on a Nonlinear Tracking Differentiator.

Author

Yao Guo, Wenqi Wu, and Kanghua Tang

Subjects

NATURAL satellites, DIFFERENTIATOR circuits, KALMAN filtering, ACCELERATION (Mechanics), GLOBAL Positioning System, CONTROL theory (Engineering)

Abstract

In Compass/INS integrated navigation systems, feedback inertial navigation solutions to baseband tracking loops may eliminate receiver dynamic effects, and effectively improve the tracking accuracy and sensitivity. In the conventional inertially-aided tracking loop, the satellite-receiver line-of-sight velocity is used directly to adjust local carrier frequency. However, if the inertial solution drifts, the phase tracking error will be enlarged. By using Kalman filter based carrier phase tracking loop, this paper introduces a new inertial aid method, in which the line-of-sight jerk obtained from inertial acceleration by a nonlinear tracking differentiator is used to adjust relevant parameters of the Kalman filter's process noise matrix. Validation is achieved through high dynamic Compass B3 signal with line-of-sight jerk of 10 g/s collected by a GNSS simulator. Experimental results indicate that the new inertial aid method proposed in this paper is free of the impact of the receiver dynamic and inertial errors. Therefore, when the integrated navigation system is starting or re-tracking after losing lock, the inertial error is absent from the navigation solution correction that induces large drift, and the new aid method proposed in this paper can track highly dynamic signals. [ABSTRACT FROM AUTHOR]

Published

2012