Your search keyword '"Dong, Shuda"' showing total 10 results

1. A Robust Tri-Electromagnet-Based 6-DoF Pose Tracking System Using an Error-State Kalman Filter.

Author

Dong, Shuda and Wang, Heng

Subjects

*KALMAN filtering, *ELECTROMAGNETS, *MAGNETIC measurements, *NONLINEAR estimation, *MAGNETIC sensors

Abstract

Magnetic pose tracking is a non-contact, accurate, and occlusion-free method that has been increasingly employed to track intra-corporeal medical devices such as endoscopes in computer-assisted medical interventions. In magnetic pose-tracking systems, a nonlinear estimation algorithm is needed to recover the pose information from magnetic measurements. In existing pose estimation algorithms such as the extended Kalman filter (EKF), the 3-DoF orientation in the S 3 manifold is normally parametrized as unit quaternions and simply treated as a vector in the Euclidean space, which causes a violation of the unity constraint of quaternions and reduces pose tracking accuracy. In this paper, a pose estimation algorithm based on the error-state Kalman filter (ESKF) is proposed to improve the accuracy and robustness of electromagnetic tracking systems. The proposed system consists of three electromagnetic coils for magnetic field generation and a tri-axial magnetic sensor attached to the target object for field measurement. A strategy of sequential coil excitation is developed to separate the magnetic fields from different coils and reject magnetic disturbances. Simulation and experiments are conducted to evaluate the pose tracking performance of the proposed ESKF algorithm, which is also compared with standard EKF and constrained EKF. It is shown that the ESKF can effectively maintain the quaternion unity and thus achieve a better tracking accuracy, i.e., a Euclidean position error of 2.23 mm and an average orientation angle error of 0.45°. The disturbance rejection performance of the electromagnetic tracking system is also experimentally validated. [ABSTRACT FROM AUTHOR]

Published

2024

2. A Compact and Robust 6-DoF Pose Tracking System Using Magnetic-Inertial Sensors and a Single Uniaxial Electromagnetic Coil

Author

Dong, Shuda, primary and Wang, Heng, additional

Published

2024

3. Active 6-DoF Electromagnetic Pose Tracking Using Orientation Control of the Magnetic Source

Author

Shen, Yile, primary, Dong, Shuda, additional, Liu, Dekang, additional, Zhang, Kaixiang, additional, and Wang, Heng, additional

Published

2023

4. Cross-Linked Polybenzimidazoles Containing Porous Organic Cages for High-Temperature Proton Conduction

Author

Dong, Shuda, primary and Feng, Xiao, additional

Published

2023

5. A Virtual Ultrasonography Simulator for Skill Training Using Magnetic-Inertial Probe Tracking

Author

Wang, Heng, Dong, Shuda, Yang, Qi, Han, Jiancheng, He, Ze'an, He, Yihua, and Wang, Shuangyi

Abstract

Simulation-based ultrasonography training has been proven to be effective for novice practitioners to acquire operation skills. However, existing simulators are cumbersome, expensive, and sometimes fail to provide intuitive and interactive training experience. In this article, a compact, inexpensive, and interactive ultrasonography simulator is developed using magnetic-inertial 6-degree of freedom (DoF) probe pose tracking and virtual ultrasound image generation. Embedded with magnetic and inertial sensors, the sham ultrasound probe is tracked by fusing magnetic measurement of a single electromagnet embedded in the phantom and inertial measurement of the probe. Then the virtual scan plane is determined according to the estimated probe pose to slice the digital anatomical model for virtual image generation, providing visual feedback for skill training. The probe tracking accuracy is experimentally validated to be sufficiently accurate for correct image generation with the RMS position error of 3.67 mm and average orientation error of 0.74$^\circ $. The interactive performance of the simulator is evaluated by volunteer tests, showing shortened task completion time (40.68 s versus 50.46 s) and slightly improved accuracy of reaching target views compared to the slider control method. It is also shown that an inexperienced operator can learn to successfully acquire standard and diagnostic views of fetal hearts with congenital diseases. Due to intuitive freehand interaction, accurate probe tracking, and real-time visual guidance of ultrasound images and three-dimensional (3-D) virtual scene of the probe and anatomy, the proposed simulator can provide immersive training experience for quick ultrasound skill acquirement.

Published

2024

6. Covalent organic framework–based porous ionomers for high-performance fuel cells

Author

Zhang, Qingnuan, primary, Dong, Shuda, additional, Shao, Pengpeng, additional, Zhu, Yuhao, additional, Mu, Zhenjie, additional, Sheng, Dafei, additional, Zhang, Teng, additional, Jiang, Xin, additional, Shao, Ruiwen, additional, Ren, Zhixin, additional, Xie, Jing, additional, Feng, Xiao, additional, and Wang, Bo, additional

Published

2022

7. Overview of Power Controllable Reactor Technology

Author

Liu, Wenye, Luo, Longfu, Dong, Shuda, and Lou, Yunge

Published

2012

8. Cobalt-Catalyzed Decarbonylative C(8)-Acyloxylation of 1-Naphthalamine Derivatives with α-Oxocarboxylic Acids

Author

Wang, Chaoyu, primary, Dong, Shuda, primary, Zhu, Tianyang, primary, Liu, Yuqin, primary, Wu, Zihan, primary, and Feng, Ruokun, primary

Published

2022

9. Analysis of the Characteristics of the New Converter Transformer Based on the Matrix Model

Author

Tran, Thanh Ngoc, primary, Luo, Longfu, additional, Xu, Jiazhu, additional, Dong, Shuda, additional, Zhang, Zhiwen, additional, Zhao, Zhiyu, additional, and Nguyen, Manhhung, additional

Published

2012

10. A New Phase Shifting Transformer for Multipulse Rectifiers

Author

Tran, ThanhNgoc, primary, Luo, Longfu, additional, Xu, Jiazhu, additional, Nguyen, ManhHung, additional, Zhang, Zhiwen, additional, and Dong, Shuda, additional

Published

2012