论文信息 - Anti-Magnetic Disturbance Pedestrians Navigation System Based on MEMS Inertial Sensors

Anti-Magnetic Disturbance Pedestrians Navigation System Based on MEMS Inertial Sensors

The rapid development of the micro electromechanical system (MEMS) makes it possible to develop portable inertial positioning devices with long term accuracy. This type of devices is suitable for applications in complex environment where the satellite signals are not available. However, due to the accumulation of the attitude and orientation errors, large error in position may still exist in the recursive calculation especially in the indoor circumstance where the earth's magnetic field is disturbed seriously. Therefore, we report a new pedestrian navigation algorithm based on foot-bounded inertial sensors which could provide precise navigation results during the whole period of positioning even undergoing severe magnetic field disturbance. In particular, we also developed a real-time navigation system implementing our proposed algorithm. The experiment shows that the system could achieve about 1% relevant error.

[1] Naser El-Sheimy,et al. Tightly-Coupled Integration of WiFi and MEMS Sensors on Handheld Devices for Indoor Pedestrian Navigation , 2016, IEEE Sensors Journal.

[2] P. Veltink,et al. Compensation of magnetic disturbances improves inertial and magnetic sensing of human body segment orientation , 2005, IEEE Transactions on Neural Systems and Rehabilitation Engineering.

[3] D. Gebre-Egziabher,et al. A gyro-free quaternion-based attitude determination system suitable for implementation using low cost sensors , 2000, IEEE 2000. Position Location and Navigation Symposium (Cat. No.00CH37062).

[4] Fernando Seco Granja,et al. Indoor pedestrian navigation using an INS/EKF framework for yaw drift reduction and a foot-mounted IMU , 2010, 2010 7th Workshop on Positioning, Navigation and Communication.

[5] Eric Foxlin,et al. Pedestrian tracking with shoe-mounted inertial sensors , 2005, IEEE Computer Graphics and Applications.

[6] Fernando Seco Granja,et al. Pedestrian indoor navigation by aiding a foot-mounted IMU with RFID Signal Strength measurements , 2010, IPIN.