Abstract: An electrical device including a first cylindrical capacitor, a first terminal electrically coupled to one end of the first capacitor, a first electrical line electrically coupled to the first terminal and a first annular conductive end shield formed over the first terminal and being electrically coupled to the first terminal and the one end of the first capacitor, where the first end shield has a greater diameter than the diameter of the first capacitor. The device also includes a second cylindrical capacitor, a second terminal electrically coupled to one end of the second capacitor, a second electrical line electrically coupled to the second terminal and a second annular conductive end shield formed over the second terminal and being electrically coupled to the second terminal and the one end of the second capacitor, where the second end shield has a greater diameter than the diameter of the second capacitor.

Abstract: The present invention relates to a system and apparatus for implementing a method for identifying tube parameters of a curved tube of an active cannula for operating on a target in a patient. The method includes the step (a) of acquiring a model of the patient anatomy including the target. The method also includes the step (b) of selecting a set of parameters characterizing a curved tube. The method also includes the step (c) of computing a workspace for an active cannula having the selected curved tube parameters. The method also includes the step (d) of comparing the workspace to the anatomical model to determine the degree to which an active cannula having the selected curved tube parameters covers the target. The method also includes the step (e) of repeating steps (b) through (d) through a defined number of curved tube parameter sets. The method also includes the step (f) of identifying the curved tube parameters that provide an active cannula with an optimal degree of target coverage.

Abstract: The present invention relates to a system and apparatus for implementing a method for identifying tube parameters of a curved tube of an active cannula for operating on a target in a patient. The method includes the step (a) of acquiring a model of the patient anatomy including the target. The method also includes the step (b) of selecting a set of parameters characterizing a curved tube. The method also includes the step (c) of computing a workspace for an active cannula having the selected curved tube parameters. The method also includes the step (d) of comparing the workspace to the anatomical model to determine the degree to which an active cannula having the selected curved tube parameters covers the target. The method also includes the step (e) of repeating steps (b) through (d) through a defined number of curved tube parameter sets. The method also includes the step (f) of identifying the curved tube parameters that provide an active cannula with an optimal degree of target coverage.

Abstract: A surgical robot system includes a support structure for positioning relative to a patient. The support structure includes a plurality of mounting structures. One or more robotic tool cassettes that are configured to interchangeably connect with any of the mounting structures. Each tool cassette includes a concentric tube manipulator and a transmission for operating the concentric tube manipulator. The support structure also includes a tube collector including a tube assembly associated with each of the mounting structures. The tube assemblies are configured to receive the concentric tube manipulators and guide the manipulators to extend along predetermined trajectories relative to each other.

Abstract: A surgical robot system includes a support structure for positioning relative to a patient. The support structure includes a plurality of mounting structures. One or more robotic tool cassettes that are configured to interchangeably connect with any of the mounting structures. Each tool cassette includes a concentric tube manipulator and a transmission for operating the concentric tube manipulator. The support structure also includes a tube collector including a tube assembly associated with each of the mounting structures. The tube assemblies are configured to receive the concentric tube manipulators and guide the manipulators to extend along predetermined trajectories relative to each other.

Abstract: The present invention relates to a system and apparatus for implementing a method for identifying tube parameters of a curved tube of an active cannula for operating on a target in a patient. The method includes the step (a) of acquiring a model of the patient anatomy including the target. The method also includes the step (b) of selecting a set of parameters characterizing a curved tube. The method also includes the step (c) of computing a workspace for an active cannula having the selected curved tube parameters. The method also includes the step (d) of comparing the workspace to the anatomical model to determine the degree to which an active cannula having the selected curved tube parameters covers the target. The method also includes the step (e) of repeating steps (b) through (d) through a defined number of curved tube parameter sets. The method also includes the step (f) of identifying the curved tube parameters that provide an active cannula with an optimal degree of target coverage.