Abstract: A method for controlling fluid delivery to a medical instrument comprises releasing, from a reservoir of a known size and having fluid at a volume and a first fluid pressure, a released fluid volume of the fluid to the medical instrument. The method also comprises measuring a vented fluid volume and determining a discharged fluid volume through the medical instrument based on the released fluid volume and the vented fluid volume.

Abstract: Methods and systems for controlling articulation of a system are described. In some embodiments, a parameter related to a curvature of one or more portions of an articulable portion of elongated body may be determined. The elongated body may include a channel through which a tool may be inserted. Articulation of the articulable portion of the elongated body may be controlled based at least in part on the determined parameter in some modes of operation including when a tool is moved relative to the channel of the elongated body.

Abstract: A machine is configured to access force data generated by a force sensor, where the force sensor is communicatively coupled to a proximal portion of a flexible elongate device that has a distal portion configured to travel within an environment, and where the force sensor is configured to detect forces and generate the force data therefrom. The machine, based on the force data, identifies an insertion force encountered by the distal portion of the flexible elongate device from among the forces detected by the force sensor. The machine then, based on the identified insertion force, initiates a responsive operation performed by a control system communicatively coupled to the flexible elongate device.

Abstract: A system including a flexible catheter configured to articulate along a degree of freedom. An actuator is disposed at a proximal portion of the flexible catheter. The actuator is configured to actuate the flexible catheter along the degree of freedom. An articulation sensor is configured to provide articulation sensor signals representing articulation of the flexible catheter. An actuator sensor is configured to provide actuator sensor signals representing movement of the actuator. A controller is coupled to the actuator and configured to, based on determining that a state of a first articulation sensor signal prevents or hinders the first articulation signal from being used as a feedback signal for controlling the actuator to: determine an articulation estimate of the flexible catheter based on a model of the flexible catheter applied to a first actuator sensor signal; and, control the actuator based on the articulation estimate.

Abstract: Systems and methods for verification and calibration of robotic instruments are provided. A robotic system may include an instrument carriage to receive an elongate device, and the instrument carriage may comprise a set of drive sensors. The system may also include a tracking system configured to receive an indication that the elongate device is installed on the instrument carriage, operate a set of actuators to articulate a distal portion of the elongate device, and generate a set of drive sensor data from the set of drive sensors. The tracking system may also be configured to generate a set of articulation sensor data from a shape sensor of the elongate device, compare the set of drive sensor data to the set of articulation sensor data to generate a test profile, and determine whether the test profile corresponds to a reference profile. Corrective action may be determined.

Abstract: A method for controlling fluid delivery to a catheter comprises charging a reservoir, of a known size, with a fluid to a volume at an initial fluid pressure and releasing a released fluid volume of the fluid from the reservoir to the catheter. The method also comprises measuring a vented fluid volume and determining a discharged fluid volume through the catheter based on the released fluid volume and the vented fluid volume.