Shape Tracking and Feedback Control of Cardiac Catheter Using MRI-Guided Robotic Platform—Validation With Pulmonary Vein Isolation Simulator in MRI

Dong, Ziyang; Wang, Xiaomei; Fang, Ge; He, Zhuoliang; Ho, Justin; Cheung, Chim-Lee; Tang, Wai Lun; Xie, Xiaochen; Liang, Liyuan; Chang, Hing‐Chiu; Ching, Chi Keong; Kwok, Ka‐Wai

doi:10.1109/tro.2022.3154691

Cited by 31 publications

(12 citation statements)

References 55 publications

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“…The further advanced multicore fiber using OFDR technique can even eliminate the local/global interaction effect on a similar pose/configuration estimation, such as impulsive or continuous interaction-induced deformation. Examples can be found in bronchoscopy (e.g., ion endoluminal system, Intuitive Surgical, Inc.) and catheterization platforms [22], [23], [43]. The FBG sensing could still be robust against pulsatile liquid flow or sudden contact with the surrounding.…”

Section: Discussionmentioning

confidence: 99%

Learning-Based Visual-Strain Fusion for Eye-in-Hand Continuum Robot Pose Estimation and Control

et al. 2023

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Image processing has significantly extended the practical value of the eye-in-hand camera, enabling and promoting its applications for quantitative measurement. However, fully visionbased pose estimation methods sometimes encounter difficulties in handling cases with deficient features. In this article, we fuse visual information with the sparse strain data collected from a single-core fiber inscribed with fiber Bragg gratings (FBGs) to facilitate continuum robot pose estimation. An improved extreme learning machine algorithm with selective training data updates is implemented to establish and refine the FBG-empowered (Femp) pose estimator online. The integration of F-emp pose estimation can improve sensing robustness by reducing the number of times that visual tracking is lost given moving visual obstacles and varying lighting. In particular, this integration solves pose estimation failures under full occlusion of the tracked features or complete darkness. Utilizing the fused pose feedback, a hybrid controller incorporating kinematics and data-driven algorithms is proposed to accomplish fast convergence with high accuracy. The online-learning error compensator can improve the target tracking performance with a 52.3%-90.1% error reduction compared with Manuscript

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Section: Discussionmentioning

confidence: 99%

Learning-Based Visual-Strain Fusion for Eye-in-Hand Continuum Robot Pose Estimation and Control

et al. 2023

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“…Several studies have shown that using a closed-loop control strategy with feedback information can significantly increase control accuracy, stability, and robustness in lowfrequency environments [110][111][112][113]. However, for extremely miniaturized continuous robotics, feedback control poses significant technical problems in sensor integration.…”

Section: Control Methodsmentioning

confidence: 99%

A Survey on Design, Actuation, Modeling, and Control of Continuum Robot

et al. 2022

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In this paper, we describe the advances in the design, actuation, modeling, and control field of continuum robots. After decades of pioneering research, many innovative structural design and actuation methods have arisen. Untethered magnetic robots are a good example; its external actuation characteristic allows for miniaturization, and they have gotten a lot of interest from academics. Furthermore, continuum robots with proprioceptive abilities are also studied. In modeling, modeling approaches based on continuum mechanics and geometric shaping hypothesis have made significant progress after years of research. Geometric exact continuum mechanics yields apparent computing efficiency via discrete modeling when combined with numerical analytic methods such that many effective model-based control methods have been realized. In the control, closed-loop and hybrid control methods offer great accuracy and resilience of motion control when combined with sensor feedback information. On the other hand, the advancement of machine learning has made modeling and control of continuum robots easier. The data-driven modeling technique simplifies modeling and improves anti-interference and generalization abilities. This paper discusses the current development and challenges of continuum robots in the above fields and provides prospects for the future.

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“…To enhance the performance of the platform, kinematic model-based and model-free control methods were tested [69], and a continuous motor was integrated to accomplish long-range insertion [70]. Recently, utilizing the 3-D curvature reconstruction provided by multicore fiber Bragg grating (FBG) techniques, a learning-based modeling method is developed and implemented on this robotic platform to achieve feedback control of the cardiac catheter [191].…”

Section: E Mri-guided Robots For Cardiac Interventionsmentioning

confidence: 99%

State of the Art and Future Opportunities in MRI-Guided Robot-Assisted Surgery and Interventions

Kwok

Cleary

et al. 2022

Proc. IEEE

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Shape Tracking and Feedback Control of Cardiac Catheter Using MRI-Guided Robotic Platform—Validation With Pulmonary Vein Isolation Simulator in MRI

Cited by 31 publications

References 55 publications

Learning-Based Visual-Strain Fusion for Eye-in-Hand Continuum Robot Pose Estimation and Control

Learning-Based Visual-Strain Fusion for Eye-in-Hand Continuum Robot Pose Estimation and Control

A Survey on Design, Actuation, Modeling, and Control of Continuum Robot

State of the Art and Future Opportunities in MRI-Guided Robot-Assisted Surgery and Interventions

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