Patents by Inventor Bhaskar S. Ramamurthy
Bhaskar S. Ramamurthy has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 8515215Abstract: A medical instrument system includes an elongate instrument body defining a longitudinal axis and capable of being twisted about its longitudinal axis and an optical fiber sensor coupled to the instrument body. A detector is operatively coupled to the optical fiber sensor and configured to detect respective light signals transmitted on the optical fiber sensor. A controller is operatively coupled to the detector and configured to determine a twist of a portion of the instrument body about its longitudinal axis based on an analysis of detected light signals.Type: GrantFiled: March 28, 2011Date of Patent: August 20, 2013Assignee: Koninklijke Philips Electronics N.V.Inventors: Robert G. Younge, Bhaskar S. Ramamurthy, Neal A. Tanner, Randall L. Schlesinger, Eric Udd
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Publication number: 20130090530Abstract: An instrument system that includes an elongate instrument body and an optical fiber sensor is provided. The optical fiber sensor includes an elongate optical fiber that is coupled to the elongate instrument body, wherein a portion of the optical fiber is coupled to the elongate instrument body in a manner to provide slack in the fiber to allow for axial extension of the elongate instrument body relative to the optical fiber.Type: ApplicationFiled: September 4, 2012Publication date: April 11, 2013Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: Bhaskar S. Ramamurthy, Neal A. Tanner, Robert G. Younge, Randall L. Schlesinger
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Publication number: 20130090552Abstract: An instrument system that includes a first optical fiber, a second optical fiber and a controller is provided. The first optical fiber is operatively coupled to an elongate body that is adapted to be placed inside a patient. The second optical fiber is operatively coupled to the patient, to an actuating element adapted to actuate the elongate body, or to a portion of an imaging system adapted to identify a location of the portion relative to the elongate body. The controller is operatively coupled to the first optical fiber and the second optical fiber and is adapted to receive a first signal from the strain sensor provided on the first optical fiber, receive a second signal from the strain sensor provided on the second optical fiber; and determine a position or orientation of the elongate body based on the first signal and based on the second signal.Type: ApplicationFiled: September 4, 2012Publication date: April 11, 2013Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: Bhaskar S. Ramamurthy, Neal A. Tanner, Robert G. Younge, Randall L. Schlesinger
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Publication number: 20130090528Abstract: A method for mapping an internal structure of a patient with an elongate body is provided. The method includes detecting, at a plurality of instances, contact between a distal portion of an elongate body and an internal structure of the patient; determining a plurality of geometric configurations of the distal portion, the plurality of geometric configurations corresponding to the plurality of instances of contact between the distal portion and the internal structure; determining a plurality of positions of the distal portion, the plurality of positions corresponding to the plurality of geometric configurations; and generating a map of the internal structure based on the plurality of positions of the distal portion.Type: ApplicationFiled: September 4, 2012Publication date: April 11, 2013Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: Bhaskar S. Ramamurthy, Neal A. Tanner, Robert G. Younge, Randall L. Schlesinger
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Publication number: 20130085332Abstract: An instrument system that includes an elongate body in a geometric configuration, an optical fiber, and a controller is provided. The optical fiber is operatively coupled to the elongate body and has a strain sensor provided on the optical fiber, wherein at least a portion of the optical fiber is in the geometric configuration. The controller is operatively coupled to the optical fiber and adapted to receive, from a source other than the optical fiber, information indicative of the geometric configuration, receive a signal from the strain sensor, and associate the signal with the geometric configuration.Type: ApplicationFiled: September 4, 2012Publication date: April 4, 2013Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: Bhaskar S. Ramamurthy, Neal A. Tanner, Robert G. Younge, Randall L. Schlesinger
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Publication number: 20130085397Abstract: An instrument system that includes an optical fiber and a controller is provided. The optical fiber is coupled to an external structure of a patient and has a strain sensor provided thereon. The controller is operatively coupled to the optical fiber and adapted to receive a signal from the strain sensor and to determine a property of respiration of the patient based on the signal.Type: ApplicationFiled: September 4, 2012Publication date: April 4, 2013Applicant: Koninklijke Philips Electronics N.V.Inventors: Bhaskar S. Ramamurthy, Neal A. Tanner, Robert G. Younge, Randall L. Schlesinger
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Publication number: 20130085333Abstract: An instrument system that includes an elongate body, a first optical fiber, a second optical fiber, and a controller is provided. The first optical fiber is operatively coupled to the elongate body and has a first strain sensor provided on the first optical fiber. The second optical fiber is not directly coupled to the elongate body and has a second strain sensor provided on the second optical fiber. The controller is operatively coupled to the first optical fiber and to the second optical fiber. The controller is adapted to receive a first signal from the first strain sensor and to receive a second signal from the second strain sensor. The first optical fiber has a different size than the second optical fiber.Type: ApplicationFiled: September 4, 2012Publication date: April 4, 2013Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: Bhaskar S. Ramamurthy, Neal A. Tanner, Robert G. Younge, Randall L. Schlesinger
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Publication number: 20130085331Abstract: An instrument system that includes an elongate body, an optical fiber, and a controller is provided. The optical fiber is operatively coupled to the elongate body and has a plurality of strain sensors provided on the optical fiber. The controller is operatively coupled to the optical fiber and adapted to obtain signals from one of the plurality of strain sensors more frequently than from another of the plurality of strain sensors and to determine a position of the elongate body based on the obtained signals from the one of the plurality of strain sensors.Type: ApplicationFiled: September 4, 2012Publication date: April 4, 2013Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: Bhaskar S. Ramamurthy, Neal A. Tanner, Robert G. Younge, Randall L. Schlesinger
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Publication number: 20130085382Abstract: An instrument system that includes an elongate body, an optical fiber, a localization sensor and a controller is provided. The optical fiber is operatively coupled to the elongate body and has a strain sensor provided on the optical fiber. The localization sensor is operatively coupled to the elongate body. The controller is operatively coupled to the optical fiber and to the localization sensor and is adapted to receive a first signal from the strain sensor, receive a second signal from the localization sensor, and determine a position or orientation of the elongate body based on the first signal and the second signal.Type: ApplicationFiled: September 4, 2012Publication date: April 4, 2013Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: Bhaskar S. Ramamurthy, Neal A. Tanner, Robert G. Younge, Randall L. Schlesinger
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Publication number: 20130085334Abstract: An instrument system that includes an elongate body, an optical fiber, and a controller is provided. The optical fiber is operatively coupled to the elongate body and has a plurality of strain sensors provided on the optical fiber. Each of the plurality of strain sensors has a reflectivity, wherein one of the plurality of strain sensors has a different reflectivity than another one of the plurality of strain sensors. The controller is operatively coupled to the optical fiber and adapted to: receive one or more signals from the plurality of strain sensors; and determine a position of the elongate body based on the one or more signals.Type: ApplicationFiled: September 4, 2012Publication date: April 4, 2013Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: Bhaskar S. Ramamurthy, Neal A. Tanner, Robert G. Younge, Randall L. Schlesinger
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Publication number: 20130085330Abstract: An instrument system that includes an elongate body, a first optical fiber, a second optical fiber, and a controller is provided. The first optical fiber is operatively coupled to the elongate body and has a first strain sensor provided on the first optical fiber. The second optical fiber is operatively coupled to the elongate body and has a second strain sensor provided on the second optical fiber. The controller is operatively coupled to the first optical fiber and the second optical fiber and is adapted to receive a first signal from the first strain sensor and a second signal from the second strain sensor and to compare the first signal with the second signal.Type: ApplicationFiled: September 4, 2012Publication date: April 4, 2013Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: Bhaskar S. Ramamurthy, Neal A. Tanner, Robert G. Younge, Randall L. Schlesinger
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Publication number: 20130083310Abstract: An instrument system that includes an image capture device, an elongate body, an optical fiber and a controller is provided. The elongate body is operatively coupled to the image capture device. The optical fiber is operatively coupled to the elongate body and has a strain sensor provided on the optical fiber. The controller is operatively coupled to the optical fiber and adapted to receive a signal from the strain sensor and to determine a position or orientation of the image capture device based on the signal.Type: ApplicationFiled: September 4, 2012Publication date: April 4, 2013Applicant: Koninklijke Philips Electronics N.V.Inventors: Bhaskar S. Ramamurthy, Nael A. Tanner, Robert G. Younge, Randall L. Schlesinger
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Publication number: 20120323115Abstract: A method for tracking an elongate body is provided. The method includes determining a spatial relationship between an elongate body and an optical fiber, wherein the optical fiber is located in a structure having a substantially constant shape; receiving a signal from a strain sensor provided on the optical fiber; and determining, based on the signal, whether a position of the optical fiber relative to the structure has changed.Type: ApplicationFiled: August 24, 2012Publication date: December 20, 2012Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: Robert G. Younge, Bhaskar S. Ramamurthy, Randall L. Schlesinger, Neal A. Tanner
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Publication number: 20120323075Abstract: A method for measuring bending is provided. The method includes receiving a reflected signal from a strain sensor provided on an optical fiber; determining a spectral profile of the reflected signal; and determining bending of the optical fiber based on a comparison of the spectral profile of the reflected signal with a predetermined spectral profile.Type: ApplicationFiled: August 24, 2012Publication date: December 20, 2012Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: Robert G. Younge, Bhaskar S. Ramamurthy, Neal A. Tanner, Randall L. Schlesinger, Eric Udd
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Publication number: 20120321243Abstract: An instrument system that includes an elongate body, an optical fiber, and a detector is provided. The elongate body is capable of being twisted. The optical fiber includes a first portion coupled to the elongate body and a second portion having a curved shape adapted to reduce transfer of twisting or bending from the elongate body to the second portion, the second portion having a strain sensor provided thereon. The detector is coupled to the optical fiber and adapted to receive a signal from the strain sensor.Type: ApplicationFiled: August 24, 2012Publication date: December 20, 2012Inventors: Robert G. Younge, Bhaskar S. Ramamurthy, Neal A. Tanner, Randall L. Schlesinger, Eric Udd
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Publication number: 20120323116Abstract: An instrument system that includes an elongate body, an optical fiber and a controller is provided. The optical fiber is at least partially separate from the elongate body. The controller is operatively coupled to the elongate body and to the optical fiber and the controller is adapted to receive a signal from the optical fiber, detect movement of the optical fiber based on the signal; and update a position of the elongate body relative to the optical fiber based on the detected movement.Type: ApplicationFiled: August 24, 2012Publication date: December 20, 2012Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: Robert G. Younge, Bhaskar S. Ramamurthy, Randall L. Schlesinger, Neal A. Tanner
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Publication number: 20120316432Abstract: An instrument system that includes an elongate body and an optical fiber is provided. The elongate body has a longitudinal axis and capable of being twisted about the longitudinal axis. The optical fiber is operatively coupled with the elongate body and having a strain sensor provided thereon. The strain sensor is configured to indicate twist of the elongate body.Type: ApplicationFiled: August 24, 2012Publication date: December 13, 2012Applicant: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: Robert G. Younge, Bhaskar S. Ramamurthy, Neal A. Tanner, Randall L. Schlesinger, Eric Udd
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Patent number: 8290571Abstract: A method and system for maintaining calibration of a distributed localization system are presented. After a baseline calibration of sensors distributed on a working instrument and reference instrument, if movement of the reference instrument is detected, shape sensing data from a Bragg shape sensing fiber also coupled to the reference instrument may be utilized to recalibrate the localization system. The reference instrument preferably is located intraoperatively in a relatively constrained anatomical environment, such as in the coronary sinus of the heart, to prevent significant movement.Type: GrantFiled: July 22, 2009Date of Patent: October 16, 2012Assignee: Koninklijke Philips Electronics N.V.Inventors: Robert G. Younge, Bhaskar S. Ramamurthy, Randall L. Schlesinger, Neal A. Tanner
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Publication number: 20110295247Abstract: Systems and methods are described for automating aspects of minimally invasive therapeutic treatment of patients. In one embodiment a robotic catheter system may comprise a controller including a master input device; and an electromechanically steerable elongate instrument having a proximal interface portion and a distal portion, the proximal interface portion being configured to be operatively coupled to an electromechanical instrument driver in communication with the controller, the distal portion being configured to be interactively navigated adjacent internal tissue structures of a patient's body in response to signals from the controller; wherein the distal portion of the elongate instrument comprises an antenna operatively coupled to the controller, and wherein the controller is configured to determine the temperature of structures adjacent to the distal portion of the elongate instrument utilizing radiometry analysis.Type: ApplicationFiled: July 9, 2010Publication date: December 1, 2011Applicant: Hansen Medical, Inc.Inventors: Randall L. Schlesinger, Christopher R. Carlson, Federico Barbagli, Bhaskar S. Ramamurthy, Matthew J. Roelle, Christopher M. Sewell, Daniel T. Wallace, Robert G. Younge
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Patent number: 8050523Abstract: A medical instrument system includes an elongate flexible instrument body with an optical fiber substantially encapsulated in a wall of the instrument body, the optical fiber including one or more fiber gratings. A detector is operatively coupled to the optical fiber and configured to detect respective light signals reflected by the one or more fiber gratings. A controller is operatively coupled to the detector, and configured to determine a twist of at least a portion of the instrument body based on detected reflected light signals. The instrument may be a guide catheter and may be robotically or manually controlled.Type: GrantFiled: April 18, 2008Date of Patent: November 1, 2011Assignee: Koninklijke Philips Electronics N.V.Inventors: Robert G. Younge, Bhaskar S. Ramamurthy, Neal Tanner, Randall L. Schlesinger, Eric Udd