Inventor
STUART JOHN MICHAEL
US34 patents
⚠️ This page may combine multiple inventors who share the name “STUART JOHN MICHAEL”. Patents are grouped by organization below to help distinguish them — per-person disambiguation is on the roadmap.
STRYKER CORP
25 patentsUS10512509B2Dec 24, 2019
Systems and methods for establishing virtual constraint boundaries
STRYKER CORP123 citations99
US10314661B2Jun 11, 2019
Surgical robotic system and method for controlling an instrument feed rate
STRYKER CORP80 citations99
US9480534B2Nov 1, 2016
Navigation system and method for removing a volume of tissue from a patient
STRYKER CORP151 citations99
US10426560B2Oct 1, 2019
Robotic system and method for reorienting a surgical instrument moving along a tool path
STRYKER CORP29 citations98
US9820818B2Nov 21, 2017
System and method for controlling a surgical manipulator based on implant parameters
STRYKER CORP88 citations98
US9603665B2Mar 28, 2017
Systems and methods for establishing virtual constraint boundaries
STRYKER CORP53 citations98
US9566122B2Feb 14, 2017
Robotic system and method for transitioning between operating modes
STRYKER CORP105 citations98
US9566125B2Feb 14, 2017
Surgical manipulator having a feed rate calculator
STRYKER CORP46 citations98
US9226796B2Jan 5, 2016
Method for detecting a disturbance as an energy applicator of a surgical instrument traverses a cutting path
STRYKER CORP122 citations98
US9119655B2Sep 1, 2015
Surgical manipulator capable of controlling a surgical instrument in multiple modes
STRYKER CORP624 citations98
US9681920B2Jun 20, 2017
Robotic system and method for reorienting a surgical instrument moving along a tool path
STRYKER CORP42 citations97
US11179210B2Nov 23, 2021
Surgical manipulator and method for controlling pose of an instrument based on virtual rigid body modelling
STRYKER CORP10 citations94
US10537441B2Jan 21, 2020
Bone pads
STRYKER CORP24 citations94
US9427334B2Aug 30, 2016
Bone pads
STRYKER CORP15 citations93
US10420619B2Sep 24, 2019
Surgical manipulator and method for transitioning between operating modes
STRYKER CORP10 citations92
US11639001B2May 2, 2023
Robotic system and method for reorienting a surgical instrument
STRYKER CORP6 citations86
US11464579B2Oct 11, 2022
Systems and methods for establishing virtual constraint boundaries
STRYKER CORP6 citations86
US11672620B2Jun 13, 2023
Robotic system and method for removing a volume of material from a patient
STRYKER CORP3 citations84
US9579216B2Feb 28, 2017
Bone pads
STRYKER CORP7 citations84
US12364561B2Jul 22, 2025
Hand-held pendant for controlling a surgical robotic manipulator in a semi-autonomous mode
STRYKER CORP0 citations63
US11918305B2Mar 5, 2024
Systems and methods for establishing virtual constraint boundaries
STRYKER CORP0 citations63
US11318027B2May 3, 2022
Bone pads
STRYKER CORP0 citations63
US12484984B2Dec 2, 2025
Surgical systems and methods for dynamic virtual boundary adjustment
STRYKER CORP0 citations62
US12004836B2Jun 11, 2024
Surgical manipulator and method of operating the same using virtual rigid body modeling preliminary
STRYKER CORP0 citations60
US9937059B2Apr 10, 2018
Bone pads
STRYKER CORP0 citations52
MAKO SURGICAL CORP
8 patentsUS10098704B2Oct 16, 2018
System and method for manipulating an anatomy
MAKO SURGICAL CORP48 citations98
US9812035B2Nov 7, 2017
System and method for demonstrating planned autonomous manipulation of an anatomy
MAKO SURGICAL CORP26 citations94
US11083531B2Aug 10, 2021
System and method for manipulating an anatomy
MAKO SURGICAL CORP4 citations84
US10743952B2Aug 18, 2020
System and method for manipulating an anatomy
MAKO SURGICAL CORP3 citations84
US12035986B2Jul 16, 2024
System and method for manipulating an anatomy
MAKO SURGICAL CORP1 citations73
US11723732B2Aug 15, 2023
System and method for manipulating an anatomy
MAKO SURGICAL CORP1 citations73
US9921712B2Mar 20, 2018
System and method for providing substantially stable control of a surgical tool
MAKO SURGICAL CORP3 citations72
US12274520B2Apr 15, 2025
System and method for manipulating an anatomy
MAKO SURGICAL CORP0 citations63