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Novel Vibration Force Sensor with Hepatic Feedback for Minimal Invasive Surgery

技術優勢: Attachable to any tool Less expensive than market alternatives Adaptable to existing endo-wrist instruments Most currently existing surgical robotic arms do not feature any haptic feedback

技術應用: The Vibration Force Sensor can be used in many types of robotics and sensory applications. Particularly, the sensor can be used to give a sense of “touch” to robotic laparoscopic surgical arms. This allows the doctor to “feel” the environment around which they are operating. This invention can also be used on any structure with an anisotropic moment of inertia.

詳細技術說明: Researchers at UC San Diego have created a Vibration Force Sensor that provides haptic feedback to the surgeon operating on tele-operated surgical systems during minimally invasive surgery.This feedback includes the magnitude and direction of force applied onto the end effector of the instrument. The Vibration Force Sensor can be attached to any tool head the doctor desires and is orders of magnitude less expensive than other force sensors. With this invention, the surgeon will be better aware of the interactive forces between the surgical tool and the patient’s tissues and organs, thereby improving the safety and accuracy of the surgery.

*Abstract: Minimally Invasive Surgery (MIS) in the form of laparoscopic surgery has dramatically increased in the last decade and has led to reduced access trauma in addition to providing significant benefits for the patient via better recovery times and cosmetics. Robotic Minimally Invasive Surgery (RMIS) has also increased in popularity. Both methods require haptic feedback (sense of touch) to be successful. Current haptic feedback methods for tele-operated surgical systems involve integrated force sensors that are difficult to miniaturize, nonsterilizable, nonversatile, delicate, and costly. Haptic feedback methods such as displacement sensors and resistive sensors have a variety of shortcomings. When force is applied to the structure, there is strain, thereby, causing the electrical resistance in the strain gauge to change. Both of these methods are not adaptable to the existing endowrist instruments, and require modifications to the endowrist. Moreover, these methods often involve a tradeoff between its function in measuring the magnitude and direction of force and its cost in manufacturing; inventions involving these methods are composed of delicate and complex parts dramatically increasing the cost.

*Principal Investigation: Name: Winnie Kuang
Department:

Name: Alex Tran
Department:

Name: Michael Yip
Department:

Name: Jun Zhang
Department:

其他: State Of Development
A prototype has been developed

Intellectual Property Info
A provisional patent has been submitted and the technology is available for licensing

Tech ID/UC Case
28822/2017-089-0

Related Cases
2017-089-0

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