Patents by Inventor Mark R. Cutkosky
Mark R. Cutkosky 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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Publication number: 20200046056Abstract: A protective impact device is provided that produces an approximately constant force during compression. The device distinguishes several structural features. First, the cross-sectional area in between two impact surfaces increases over the stroke distance when compression takes place. Second, a compressible fluid containing vessel, held in between two impact surfaces, defines an outer shape with a positive second derivative slope defined from one impact surface towards the other impact surface. Third, orifices allow the fluid to bleed out from the compressible vessel when an impact force causes compression of the protective impact device. The resulting approximately constant force scales more or less linearly with impact energy, regardless of impact velocity caused by the impact force. Applications include athletic equipment, automotive bumpers, aircraft landing gear, and any other application that would benefit from maximum energy absorption during an impact.Type: ApplicationFiled: February 13, 2018Publication date: February 13, 2020Inventors: Elliot W. Hawkes, David B. Camarillo, Srinivasan Arul Suresh, Mehmet Kurt, Michael G. Fanton, Mark R. Cutkosky
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Publication number: 20190210523Abstract: A haptic feedback device for a vehicle is provided that has a ring member disposed circumferentially on the steering wheel as the moving element. This allows the system to be used with a wide variety of driver hand positions on the steering wheel, as opposed to requiring the driver to grip the steering wheel only in specific locations. A linear actuator is used, and accommodating the difference between the linear actuator motion and the rotational motion of the ring member is done via elastic compliance in the system (as opposed to providing pivots, rotary joints etc.). Such elastic compliance can only accommodate a limited range of angular motion (e.g., +/?1 degree), but this small range of motion has been found to be sufficient for this haptic display application.Type: ApplicationFiled: September 8, 2017Publication date: July 11, 2019Inventors: Christopher J. Ploch, Jung Hwa Bae, Mark R. Cutkosky
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Publication number: 20190192124Abstract: A biopsy needle has a central axis and includes one or more sensing regions, each sensing region formed by a plurality of sensing optical fibers located over a particular extent of said central axis and inside the outer shell of the needle. The sensing optical fibers are coupled to a wavelength interrogator. A steerable catheter has a central axis and outer shell, the outer shell coupled to a plurality of optical fibers in sensing regions and actuation regions, the sensing regions formed over particular extents of the central axis by bonding gratings to the inner surface of the outer shell, and the actuation regions formed by coupling optical energy into shape memory alloys bonded to the outer shell.Type: ApplicationFiled: February 11, 2019Publication date: June 27, 2019Applicant: Intelligent Fiber Optic Systems, Inc.Inventors: Yong-Lae PARK, Richard James BLACK, Behzad MOSLEHI, Mark R. CUTKOSKY, Santhi ELAYAPERUMAL, Bruce DANIEL, Alan YEUNG, Vahid SOTOUDEH
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Publication number: 20190176342Abstract: The present invention provides a shear gripper device using fibrillar, gecko-inspired adhesives that have the characteristics of being non-tacky in its default state and requiring no normal force to grip a surface. The adhesion is turned “on” by the applied shear load, and “off as the shear load is removed. The shear adhesive gripper is able to grasp large, deformable or delicate objects using a delicate touch.Type: ApplicationFiled: July 7, 2017Publication date: June 13, 2019Inventors: Elliot W. Hawkes, David L. Christensen, Mark R. Cutkosky, Srinivasan Arul Suresh
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Patent number: 10316220Abstract: A controllable adhesive for non-flat surfaces is provided. The device has a conformable (i.e. flexible) film and directly cast thereto a synthetic dry adhesive film. The synthetic dry adhesive film has elastomeric wedges. The conformable film is capable to deform to a non-flat surface. In one embodiment, the controllable adhesive has a first loading mechanism at one end of the controllable adhesive to apply load to the controllable adhesive. In another embodiment, forming a gripper, the controllable adhesive has a second controllable adhesive with a second loading mechanism, such that the first and second loading mechanism face each other and join a common point of loading.Type: GrantFiled: January 12, 2016Date of Patent: June 11, 2019Assignee: The Board of Trustees of the Leland Stanford Junior UniversityInventors: Elliot W. Hawkes, David L. Christensen, Srinivasan Arul Suresh, Mark R Cutkosky
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Publication number: 20190143532Abstract: Gripper pads are provided for use, augmentation or retrofitting in a robot manipulator. The gripper pads distinguish a dry adhesive layer with dry adhesive wedges that would interface with an object that is desired to be manipulated. The plurality of dry adhesive wedges is organized in a pattern such that the pattern has at least two different orientations for the direction of the plurality of wedges. The gripper pads further distinguish a sensor array underneath the dry adhesive layer. The data obtained from the sensor array provides an estimate of the shape and size of the contact between the gripper pad and the object when the dry adhesive layer is in contact with the object.Type: ApplicationFiled: November 15, 2018Publication date: May 16, 2019Inventors: Mark R. Cutkosky, Wilson Ruotolo, Jean-Philippe Roberge
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Patent number: 10267690Abstract: A capacitive force sensor is provided that includes a first support layer and a second support layer, a dielectric layer disposed between the first support layer and the second support layer, where the dielectric layer is a non-conductive elastomer that is incompressible in the a normal direction and deflects in a shear direction, a layer of parallel conductive traces disposed between and bonded to the dielectric layer and the first support layer, and a conductive layer of parallel shear channel traces having at least two distinct channels disposed between and bonded to the dielectric layer and the second support layer, where the parallel conductive traces and the parallel shear channel traces are locally parallel to each other and provide capacitive shear force measurement sensitivity while rejecting normal forces, where the normal force measurement is decoupled from the shear force measurement.Type: GrantFiled: September 13, 2017Date of Patent: April 23, 2019Assignee: The Board of Trustees of the Leland Stanford Junior UniversityInventors: Xin Alice Wu, John V Ulmen, Mark R. Cutkosky
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Publication number: 20190110536Abstract: A glove with gecko-inspired dry adhesives is provided to greatly reduce the required grasp force on heavy, smooth items. The orientation of the gecko adhesives is designed to increase shear forces between the glove and the object when lifting and manipulating. The invention additionally equips the non-gripping surfaces of the glove (e.g. back and sides) with a non-adhesive microstructure that prevents the glove from accidently adhering to surfaces during unintentional contact, even when touching otherwise sticky materials such as adhesive-coated automotive panels.Type: ApplicationFiled: December 21, 2018Publication date: April 18, 2019Inventors: Mark R. Cutkosky, Kyung Won Han, Srinivasan Arul Suresh, Andrew Jaworski, Elliot W. Hawkes
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Patent number: 10238370Abstract: A biopsy needle has a central axis and includes one or more sensing regions, each sensing region formed by a plurality of sensing optical fibers located over a particular extent of said central axis and inside the outer shell of the needle. The sensing optical fibers are coupled to a wavelength interrogator. A steerable catheter has a central axis and outer shell, the outer shell coupled to a plurality of optical fibers in sensing regions and actuation regions, the sensing regions formed over particular extents of the central axis by bonding gratings to the inner surface of the outer shell, and the actuation regions formed by coupling optical energy into shape memory alloys bonded to the outer shell.Type: GrantFiled: January 3, 2014Date of Patent: March 26, 2019Assignee: INTELLIGENT FIBER OPTIC SYSTEMS, INC.Inventors: Yong-Lae Park, Richard James Black, Behzad Moslehi, Mark R. Cutkosky, Santhi Elayaperumal, Bruce Daniel, Alan Yeung, Vahid Sotoudeh
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Patent number: 10011010Abstract: A method of towing or pushing an object using a micro-robot is provided that includes attaching a micro-robot, using a first dry adhesive, to a surface, where the dry adhesive includes micro wedges, where the micro wedges are attached to the surface when the micro wedges are in a deformed state, applying a load to the attached micro-robot, advancing the micro-robot, using a lifting element, where the lifting element includes a uni-directional footing, where the lifting element is disposed to detach the first dry adhesive and advance the micro-robot across the surface while the uni-directional footing is attached to the surface, where the detached first dry adhesive includes micro wedges in an free-standing state, where the load is advanced across the surface.Type: GrantFiled: November 25, 2015Date of Patent: July 3, 2018Assignee: The Board of Trustees of the Leland Stanford Junior UniversityInventors: David L. Christensen, Elliot W. Hawkes, Mark R Cutkosky
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Publication number: 20180116732Abstract: A method of real-time 3D flexible needle tracking for image-guided surgery is provided that includes uploading, using a controller, a virtual model of a flexible needle to a calibrated 3D mixed reality headset, where the virtual model, establishing an initial position of a base of a flexible needle relative to a target under test, using the controller and the flexible needle, where the flexible needle includes sensors spanning from the base to along a length of the flexible needle, where the sensors communicate a position, a shape, and an orientation of the flexible needle to the controller, where the controller communicates the sensor positions to the calibrated 3D mixed-reality headset, and using the calibrated 3D mixed-reality headset to display in real-time a position and shape of the flexible needle relative to the target under test.Type: ApplicationFiled: October 18, 2017Publication date: May 3, 2018Inventors: Michael A. Lin, Jung Hwa Bae, Subashini Srinivasan, Mark R. Cutkosky, Brian A. Hargreaves, Bruce L. Daniel
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Publication number: 20180073942Abstract: A capacitive force sensor is provided that includes a first support layer and a second support layer, a dielectric layer disposed between the first support layer and the second support layer, where the dielectric layer is a non-conductive elastomer that is incompressible in the a normal direction and deflects in a shear direction, a layer of parallel conductive traces disposed between and bonded to the dielectric layer and the first support layer, and a conductive layer of parallel shear channel traces having at least two distinct channels disposed between and bonded to the dielectric layer and the second support layer, where the parallel conductive traces and the parallel shear channel traces are locally parallel to each other and provide capacitive shear force measurement sensitivity while rejecting normal forces, where the normal force measurement is decoupled from the shear force measurement.Type: ApplicationFiled: September 13, 2017Publication date: March 15, 2018Inventors: Xin Alice Wu, John V. Ulmen, Mark R. Cutkosky
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Patent number: 9908266Abstract: A method of forming synthetic dry adhesives is provided that includes using a combined wedge indenting and orthogonal machining process to form tapered mold cavities in a mold, filling the tapered mold cavities with an elastomeric adhesive, curing the elastomeric adhesive in the tapered mold cavities, and removing the elastomeric adhesive from the mold, where a plurality of tapered lamellar ridges extend from a surface of the elastomeric adhesive.Type: GrantFiled: October 27, 2015Date of Patent: March 6, 2018Assignee: The Board of Trustees of the Leland Stanford Junior UniversityInventors: Mark R. Cutkosky, Paul S Day, Eric V. Eason
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Patent number: 9871183Abstract: The present invention provides an electrostrictive element capable of preventing breakdown of a dielectric film. An electrostrictive element 1 includes a dielectric film 2 composed of an elastomer, a film electrode 3 formed inside a peripheral edge on at least one surface of the dielectric film 2 and capable of expanding and contracting so as to follow expansion and contraction of the dielectric film 2, and a frame 4 to keep the dielectric film 2 in an expansion state. The film electrode 3 includes portions 6, 7, 8 having a lower conductivity or a portion 9 having a higher rigidity than the other portion on a portion to be subjected to a greater total stress of a mechanical stress and an electrical stress than the other portion of the dielectric film 2.Type: GrantFiled: May 28, 2015Date of Patent: January 16, 2018Assignees: THE BOARD OF TRUSTEES OF THE LELAND STANFORD JUNIOR UNIVERSITY, HONDA MOTOR CO., LTD.Inventors: Mark R. Cutkosky, Atsuo Orita
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Patent number: 9773969Abstract: Provided is a method of manufacturing an electrostrictive element by which an electrostrictive element including an expandable and contradictable film electrode having a thin and uniform thickness can be easily formed. In a method of manufacturing an electrostrictive element 1, screen printing is performed while a first jig 12 contacts with a face of a dielectric film 2 opposite to a face where screen printing is performed such that the first jig 12 surrounds an area where the screen printing is performed. Thus, a film electrode 3 is formed.Type: GrantFiled: May 28, 2015Date of Patent: September 26, 2017Assignees: THE BOARD OF TRUSTEES OF THE LELAND STANFORD JUNIOR UNIVERSITY, HONDA MOTOR CO., LTD.Inventors: Mark R. Cutkosky, Atsuo Orita
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Patent number: 9765837Abstract: A variable stiffness spring is provided that includes a dielectric diaphragm having a biaxially pre-strained film, where the dielectric diaphragm includes an out-of-plane stiffness at zero voltage, a first electrode disposed on a first side of the dielectric diaphragm and a second electrode disposed on a second side of the dielectric diaphragm, where the out-of-plain stiffness is relaxed by an applied voltage between the first electrode and the second electrode.Type: GrantFiled: April 10, 2013Date of Patent: September 19, 2017Assignee: The Board of Trustees of the Leland Stanford Junior UniversityInventors: Sanjay K Dastoor, Mark R Cutkosky
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Patent number: 9517610Abstract: Novel gripping structures based on van der Waals adhesive forces are disclosed. Pads covered with fibers can be activated in pairs by opposite forces, thereby enabling control of the adhesive force in an ON or OFF state. Pads can be used in groups, each comprising a group of opposite pads. The adhesive structures enable anchoring forces that can resist adverse forces from different directions. The adhesive structures can be used to enable the operation of robots on surfaces of space vehicles.Type: GrantFiled: February 11, 2014Date of Patent: December 13, 2016Assignees: CALIFORNIA INSTITUTE OF TECHNOLOGY, THE BOARD OF TRUSTEES OF THE LELAND STANFORD JUNIOR UNIVERSITYInventors: Aaron Parness, Brett A. Kennedy, Matthew C Heverly, Mark R. Cutkosky, Elliot Wright Hawkes
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Publication number: 20160351784Abstract: The present invention provides an electrostrictive element capable of preventing breakdown of a dielectric film. An electrostrictive element 1 includes a dielectric film 2 composed of an elastomer, a film electrode 3 formed inside a peripheral edge on at least one surface of the dielectric film 2 and capable of expanding and contracting so as to follow expansion and contraction of the dielectric film 2, and a frame 4 to keep the dielectric film 2 in an expansion state. The film electrode 3 includes portions 6, 7, 8 having a lower conductivity or a portion 9 having a higher rigidity than the other portion on a portion to be subjected to a greater total stress of a mechanical stress and an electrical stress than the other portion of the dielectric film 2.Type: ApplicationFiled: May 28, 2015Publication date: December 1, 2016Inventors: Mark R. Cutkosky, Atsuo Orita
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Publication number: 20160351790Abstract: Provided is a method of manufacturing an electrostrictive element by which an electrostrictive element including an expandable and contradictable film electrode having a thin and uniform thickness can be easily formed. In a method of manufacturing an electrostrictive element 1, screen printing is performed while a first jig 12 contacts with a face of a dielectric film 2 opposite to a face where screen printing is performed such that the first jig 12 surrounds an area where the screen printing is performed. Thus, a film electrode 3 is formed.Type: ApplicationFiled: May 28, 2015Publication date: December 1, 2016Inventors: Mark R. Cutkosky, Atsuo Orita
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Publication number: 20160200945Abstract: A one-way synthetic dry adhesive is provided that includes a dry adhesive material layer having an array of microwedges, where the dry adhesive layer is disposed on a substrate surface. The microwedges have a leading surface and a trailing surface, where the leading surface terminates into the trailing surface to form a wedge tip. The leading surface includes an angle up to 90 degrees with respect to the substrate surface, and the trailing edge surface includes an angle greater than the leading surface angle with respect to the substrate. The microwedges have a depth that is less than a thickness of the dry adhesive layer, and a series of siping features disposed in the dry adhesive layer, where a depth of the siping features is greater than the microwedge depth, and the series of siping features has a periodicity that is less than a periodicity of the array of microwedges.Type: ApplicationFiled: October 29, 2015Publication date: July 14, 2016Inventors: Elliot W. Hawkes, David L. Christensen, Mark R. Cutkosky