MO-D-AUD B-04: Parameter Optimization for Brachytherapy Robotic Needle Insertion and Seed Deposition

Buzurović, Ivan; Podder, Tarun; Yan, Kai; Hu, Yida; Valicenti, Richard K.; Dicker, Adam P.; Yan, Yu

doi:10.1118/1.2962345

Cited by 8 publications

(3 citation statements)

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“…Influence of the external contact forces is described by factor f . Combining (13)- (17) the mathematical model of the system is…”

Section: Mathematical Frameworkmentioning

confidence: 99%

“…Generally, to improve needle placement and seed deposition in brachytherapy procedure several methods have been presented in the literature, such as parameter optimization, different needle rotation techniques, robotic insertion, force modeling, and needle steering techniques. In the previous studies, we concluded that the proper selection of the translational and rotational velocities may reduce tissue deformation and target movements by reducing insertion force [17][18][19]. Therefore, it can be concluded that the insertion force has a dominant influence on the needle insertion, seed deposition precision, and dosimetry distribution in brachytherapy procedure.…”

Section: Introductionmentioning

confidence: 99%

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Prediction Control for Brachytherapy Robotic System

Buzurović

Podder

Yan

2010

Journal of Robotics

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In contemporary brachytherapy procedure, needle placement at desired location is challenging due to a variety of reasons. We have designed and fabricated an image-guided robot-assisted brachytherapy system to improve the needle placement and seed delivery. In this article we have used two different predictive control strategies in order to investigate the needle insertion efficacy and system dynamics during prostate brachytherapy. First, we used neural network predictive control (NNPC) to predict an insertion force. The NNPC uses the linearized state-space model of the robotic system to predict future system performances. Second, we used feedforward model predictive control (MPC) which allows the controller to compensate the influence of a measured disturbance's impact immediately rather than waiting until the effect appears in the system. Feedback control problem for the contact force regulation is considered. The simulation results and experiments for both cases are presented and compared.

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“…Influence of the external contact forces is described by factor f . Combining (13)- (17) the mathematical model of the system is…”

Section: Mathematical Frameworkmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Prediction Control for Brachytherapy Robotic System

Buzurović

Podder

Yan

2010

Journal of Robotics

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“…These insertion forces are significantly responsible for needle deviation from the desired trajectory and target movement. Proper selection of the translational and rotational velocities may reduce the tissue deformation and target movement by reducing insertion force, [5]- [7]. In the current study, we used a neural network predictive controller to predict insertion force in order to achieve real- time adaptive needle control.…”

Section: Introductionmentioning

confidence: 99%

Force prediction and tracking for image-guided robotic system using neural network approach

Buzurović

Podder

Yan

2008

2008 IEEE Biomedical Circuits and Systems Conference

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In contemporary brachytherapy procedure, needle placement at desired location is challenging due to a variety of reasons. We have designed a robot-assisted brachytherapy system to improve needle placement and seed delivery. In this paper, we have used neural network (NN) for predicting insertion force during prostate brachytherapy. The NN controller computes control inputs required for optimizing the robotic system. To verify efficacy of the control system we used in-vivo motion and force measurements during actual brachytherapy needle insertion while radioactive seeds were implanted in the prostate gland, as a real-time controller input signal. Both force prediction and force tracking processes are investigated. Information about insertion force values are used to adjust other insertion parameters like insertion velocity or acceleration in order to minimize the insertion force.Index Terms -Robotic brachytherapy, neural network controller, force prediction, adaptive control system.

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Model Predictive Control of a Medical Robotic System

Buzurović

2018

Experimental and Numerical Investigations in Materials Science and Engineering

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MO-D-AUD B-04: Parameter Optimization for Brachytherapy Robotic Needle Insertion and Seed Deposition

Cited by 8 publications

References 0 publications

Prediction Control for Brachytherapy Robotic System

Prediction Control for Brachytherapy Robotic System

Force prediction and tracking for image-guided robotic system using neural network approach

Model Predictive Control of a Medical Robotic System

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