2021
DOI: 10.1002/aisy.202100144
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Mobile Ultrasound Tracking and Magnetic Control for Long‐Distance Endovascular Navigation of Untethered Miniature Robots against Pulsatile Flow

Abstract: Long‐distance endovascular navigation of miniature robots under the guidance of medical imaging modalities is essential for microrobotic targeted delivery in the human body. Herein, a scheme on this topic based on mobile ultrasound (US) tracking and magnetic control is proposed. Considering the narrow 2D imaging of a US probe and the fast decay of the magnetic field, the US probe is integrated with three electromagnetic coils for simultaneous long‐distance tracking and control of untethered miniature robots. T… Show more

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Cited by 18 publications
(15 citation statements)
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“…In this work, we report a closed-loop control strategy to navigate the USHD in physiological fluid with dynamic flow rates using ultrasound imaging. Compared with other USHD in the blood vessel phantom, [10,18,29] we model the dynamic flow as the bounded exogenous disturbance signal and quantify the ultrasound images noise using CNR, and then we analyze closed-loop control characterization of the USHD inside a blood vessel phantom at different penetration depths with dynamic flow. In addition, our PMR system has large workplace, and we don't need to consider the problem of electromagnetic coil heating, so it can be used to drive the USHD for a long time.…”
Section: Discussionmentioning
confidence: 99%
See 2 more Smart Citations
“…In this work, we report a closed-loop control strategy to navigate the USHD in physiological fluid with dynamic flow rates using ultrasound imaging. Compared with other USHD in the blood vessel phantom, [10,18,29] we model the dynamic flow as the bounded exogenous disturbance signal and quantify the ultrasound images noise using CNR, and then we analyze closed-loop control characterization of the USHD inside a blood vessel phantom at different penetration depths with dynamic flow. In addition, our PMR system has large workplace, and we don't need to consider the problem of electromagnetic coil heating, so it can be used to drive the USHD for a long time.…”
Section: Discussionmentioning
confidence: 99%
“…∠m∶ ¼ ∠BðpÞ. (10) The relationship between the applied field and the orientation of the USHD can be used to design a closed-loop control system to change field rotation axis and orients it toward the desired reference position. In this case, a prescribed trajectory along the vessel will provide waypoints.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…Briefly, the requirement for two layers with distinct physical properties, such as Young's modulus, coefficient of thermal expansion, density, and pH, leads to constraints associated with material selection and extended printing times [20][21][22][23]. Utiliz- Using a delta-driven structure, multiple coils are strategically positioned close to the starting point of the designated track [17][18][19]. These coils generate the required magnetic field to align the microrobot for motion.…”
Section: Magnetic Microrobotmentioning
confidence: 99%
“…[71,112,113] Another platform is the DeltaMag system, which integrates an array of three electromagnets into a parallel manipulator (Figure 5f ). [114][115][116] The enlarged workspace is realized by motion control, and the field generation is achieved by current control. It has the ability to produce both static and dynamic magnetic fields.…”
Section: Platform With Flexible Field Generationmentioning
confidence: 99%