Patents by Inventor Jeffrey W. Mammen
Jeffrey W. Mammen 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: 20150020326Abstract: An autonomous coverage robot includes a chassis having forward and rearward portions and a drive system carried by the chassis. The forward portion of the chassis defines a substantially rectangular shape. The robot includes a cleaning assembly mounted on the forward portion of the chassis and a bin disposed adjacent the cleaning assembly and configured to receive debris agitated by the cleaning assembly. A bin cover is pivotally attached to a lower portion of the chassis and configured to rotate between a first, closed position providing closure of an opening defined by the bin and a second, open position providing access to the bin opening. The robot includes a body attached to the chassis and a handle disposed on an upper portion of the body. A bin cover release is actuatable from substantially near the handle.Type: ApplicationFiled: August 11, 2014Publication date: January 22, 2015Inventors: Mark Steven Schnittman, Zivthan A. Dubrovsky, Jeffrey W. Mammen, Aaron Solochek
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Publication number: 20150006015Abstract: An autonomous coverage robot system includes an active boundary responder comprising a wire powered with a modulated current placed along a perimeter of a property, at least one passive boundary responder placed on a property interior circumscribed by the active boundary responder, and an autonomous coverage robot. The robot includes a drive system carried by a body and configured to maneuver the robot across the property interior. The robot includes a signal emitter emitting a signal, where the passive boundary responder is responsive to the signal and a boundary responder detection system carried by the body. The boundary responder detector is configured to redirect the robot both in response to the responder detection system detecting an active boundary responder and in response to detecting a passive boundary responder.Type: ApplicationFiled: September 18, 2014Publication date: January 1, 2015Inventors: Paul E. Sandin, Joseph L. Jones, Daniel N. Ozick, David A. Cohen, David M. Lewis, JR., Clara Vu, Zivthan A. Dubrovsky, Joshua B. Preneta, Jeffrey W. Mammen, Duane L. Gilbert, JR., Tony L. Campbell, John Bergman, Mark J. Chiappetta
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Patent number: 8868237Abstract: An autonomous coverage robot system includes an active boundary responder comprising a wire powered with a modulated current placed along a perimeter of a property, at least one passive boundary responder placed on a property interior circumscribed by the active boundary responder, and an autonomous coverage robot. The robot includes a drive system carried by a body and configured to maneuver the robot across the property interior. The robot includes a signal emitter emitting a signal, where the passive boundary responder is responsive to the signal and a boundary responder detection system carried by the body. The boundary responder detector is configured to redirect the robot both in response to the responder detection system detecting an active boundary responder and in response to detecting a passive boundary responder.Type: GrantFiled: March 19, 2007Date of Patent: October 21, 2014Assignee: iRobot CorporationInventors: Paul E. Sandin, Joseph L. Jones, Daniel N. Ozick, David A. Cohen, David M. Lewis, Jr., Clara Vu, Zivthan A. Dubrovsky, Joshua B. Preneta, Jeffrey W. Mammen, Duane L. Gilbert, Jr., Tony L. Campbell, John Bergman, Mark J. Chiappetta
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Patent number: 8839477Abstract: An autonomous coverage robot includes a chassis having forward and rearward portions and a drive system carried by the chassis. The forward portion of the chassis defines a substantially rectangular shape. The robot includes a cleaning assembly mounted on the forward portion of the chassis and a bin disposed adjacent the cleaning assembly and configured to receive debris agitated by the cleaning assembly. A bin cover is pivotally attached to a lower portion of the chassis and configured to rotate between a first, closed position providing closure of an opening defined by the bin and a second, open position providing access to the bin opening. The robot includes a body attached to the chassis and a handle disposed on an upper portion of the body. A bin cover release is actuatable from substantially near the handle.Type: GrantFiled: December 19, 2012Date of Patent: September 23, 2014Assignee: iRobot CorporationInventors: Mark Steven Schnittman, Zivthan A. Dubrovsky, Jeffrey W. Mammen, Aaron Solochek
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Publication number: 20140249671Abstract: A power-saving robot system includes at least one peripheral device and a mobile robot. The peripheral device includes a controller having an active mode and a hibernation mode, and a wireless communication component capable of activation in the hibernation mode. A controller of the robot has an activating routine that communicates with and temporarily activates the peripheral device, via wireless communication, from the hibernation mode. In another aspect, a robot system includes a network data bridge and a mobile robot. The network data bridge includes a broadband network interface, a wireless command interface, and a data bridge component. The data bridge component extracts serial commands received via the broadband network interface from an internet protocol, applies a command protocol thereto, and broadcasts the serial commands via the wireless interface. The mobile robot includes a wireless command communication component that receives the serial commands transmitted from the network data bridge.Type: ApplicationFiled: May 12, 2014Publication date: September 4, 2014Applicant: iRobot CorporationInventors: Michael J. Halloran, Jeffrey W. Mammen, Tony L. Campbell, Jason S. Walker, Paul E. Sandin, John N. Billington, JR., Daniel N. Ozick
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Publication number: 20140207280Abstract: A computer-implemented method for receiving user commands for a remote cleaning robot and sending the user commands to the remote cleaning robot, the remote cleaning robot including a drive motor and a cleaning motor, includes displaying a user interface including a control area, and within the control area: a user-manipulable launch control group including a plurality of control elements, the launch control group having a deferred launch control state and an immediate launch control state; at least one user-manipulable cleaning strategy control element having a primary cleaning strategy control state and an alternative cleaning strategy control state; and a physical recall control group including a plurality of control elements, the physical recall control group having an immediate recall control state and a remote audible locator control state.Type: ApplicationFiled: October 5, 2013Publication date: July 24, 2014Applicant: iRobot CorporationInventors: Samuel Duffley, Jeffrey W. Mammen, Michael J. Halloran
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Publication number: 20140207282Abstract: A mobile robot includes a processor connected to a memory and a wireless network circuit, for executing routines stored in the memory and commands generated by the routines and received via the wireless network circuit. The processor drives the mobile robot to a multiplicity of accessible two dimensional locations within a household, and commands an end effector, including at least one motorized actuator, to perform mechanical work in the household. A plurality of routines include a first routine which monitors a wireless local network and detects a presence of a network entity on the wireless local network, a second routine which receives a signal from a sensor detecting an action state of one of the network entities, the action state changeable between waiting and active, and a third routine which commands the end effector to change state of performing mechanical work based on the presence and on the action state.Type: ApplicationFiled: January 21, 2014Publication date: July 24, 2014Applicant: iRobot CorporationInventors: Colin Angle, David Snelling, Melissa O'Dea, Timothy S. Farlow, Samuel Duffley, Jeffrey W. Mammen, Michael J. Halloran
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Publication number: 20140207281Abstract: A mobile robot includes a microprocessor connected to a memory and a wireless network circuit, for executing routines stored in the memory and commands generated by the routines and received via the wireless network circuit. The microprocessor drives the mobile robot to a multiplicity of accessible two dimensional locations within a household, and commands an end effector, including at least one motorized actuator, to perform mechanical work in the household. A plurality of routines include a first routine which monitors a wireless local network and detects a presence of a network entity on the wireless local network, a second routine which receives a signal from a sensor detecting an action state of one of the network entities, the action state changeable between waiting and active, and a third routine which commands the end effector to change state of performing mechanical work based on the presence and on the action state.Type: ApplicationFiled: January 17, 2014Publication date: July 24, 2014Applicant: iRobot CorporationInventors: Colin Angle, David Snelling, Melissa O'Dea, Timothy S. Farlow, Samuel Duffley, Jeffrey W. Mammen, Michael J. Halloran
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Patent number: 8781627Abstract: A robot lawmnower includes a body, a drive system carried by the body, at least one caster wheel supporting the body, a grass cutter carried by the body, a controller in communication with the drive system, and a bump sensor in communication with the controller. The controller is configured to maneuver the robot to turn in place and to redirect the robot in response to the bump sensor sensing contact with an obstacle. The drive system is configured to maneuver the robot across a lawn and includes differentially driven right and left drive wheels positioned rearward of a transverse center axis defined by the body. The at least one caster wheel is positioned substantially forward of the right and left drive wheels, and the grass cutter is positioned at least partially forward of the right and left drive wheels and at least partially behind the at least one caster wheel.Type: GrantFiled: June 19, 2009Date of Patent: July 15, 2014Assignee: iRobot CorporationInventors: Paul E. Sandin, Joseph L. Jones, Daniel N. Ozick, David A. Cohen, David M. Lewis, Jr., Clara Vu, Zivthan A. Dubrovsky, Joshua B. Preneta, Jeffrey W. Mammen, Duane L. Gilbert, Jr., Tony L. Campbell, John Bergman, Mark J. Chiappetta
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Patent number: 8761931Abstract: A power-saving robot system includes at least one peripheral device and a mobile robot. The peripheral device includes a controller having an active mode and a hibernation mode, and a wireless communication component capable of activation in the hibernation mode. A controller of the robot has an activating routine that communicates with and temporarily activates the peripheral device, via wireless communication, from the hibernation mode. In another aspect, a robot system includes a network data bridge and a mobile robot. The network data bridge includes a broadband network interface, a wireless command interface, and a data bridge component. The data bridge component extracts serial commands received via the broadband network interface from an internet protocol, applies a command protocol thereto, and broadcasts the serial commands via the wireless interface. The mobile robot includes a wireless command communication component that receives the serial commands transmitted from the network data bridge.Type: GrantFiled: May 14, 2013Date of Patent: June 24, 2014Assignee: iRobot CorporationInventors: Michael J. Halloran, Jeffrey W. Mammen, Tony L. Campbell, Jason S. Walker, Paul E. Sandin, John N. Billington, Jr., Daniel N. Ozick
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Publication number: 20140102062Abstract: A robot lawnmower includes a body and a drive system carried by the body and configured to maneuver the robot across a lawn. The robot also includes a grass cutter and a swath edge detector, both carried by the body. The swath edge detector is configured to detect a swath edge between cut and uncut grass while the drive system maneuvers the robot across the lawn while following a detected swath edge. The swath edge detector includes a calibrator that monitors uncut grass for calibration of the swath edge detector. In some examples, the calibrator comprises a second swath edge detector.Type: ApplicationFiled: December 12, 2013Publication date: April 17, 2014Applicant: IROBOT CORPORATIONInventors: Paul E. Sandin, Joseph L. Jones, Daniel N. Ozick, David A. Cohen, David M. Lewis, JR., Clara Vu, Zivthan A. Dubrovsky, Joshua B. Preneta, Jeffrey W. Mammen, Duane L. Gilbert, Tony L. Campbell, John Bergman
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Publication number: 20140102061Abstract: A robot lawnmower includes a body and a drive system carried by the body and configured to maneuver the robot across a lawn. The robot also includes a grass cutter and a swath edge detector, both carried by the body. The swath edge detector is configured to detect a swath edge between cut and uncut grass while the drive system maneuvers the robot across the lawn while following a detected swath edge. The swath edge detector includes a calibrator that monitors uncut grass for calibration of the swath edge detector. In some examples, the calibrator comprises a second swath edge detector.Type: ApplicationFiled: December 12, 2013Publication date: April 17, 2014Applicant: IROBOT CORPORATIONInventors: Paul E. Sandin, Joseph L. Jones, Daniel N. Ozick, David A. Cohen, David M. Lewis, JR., Clara Vu, Zivthan A. Dubrovsky, Joshua B. Preneta, Jeffrey W. Mammen, Duane L. Gilbert, Tony L. Campbell, John Bergman
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Publication number: 20140095008Abstract: A robot lawnmower includes a body and a drive system carried by the body and configured to maneuver the robot across a lawn. The robot also includes a grass cutter and a swath edge detector, both carried by the body. The swath edge detector is configured to detect a swath edge between cut and uncut grass while the drive system maneuvers the robot across the lawn while following a detected swath edge. The swath edge detector includes a calibrator that monitors uncut grass for calibration of the swath edge detector. In some examples, the calibrator comprises a second swath edge detector.Type: ApplicationFiled: December 12, 2013Publication date: April 3, 2014Applicant: iRobot CorporationInventors: Paul E. Sandin, Joseph L. Jones, Daniel N. Ozick, David A. Cohen, David M. Lewis, JR., Clara Vu, Zivthan A. Dubrovsky, Joshua B. Preneta, Jeffrey W. Mammen, Duane L. Gilbert, Tony L. Campbell, John Bergman
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Patent number: 8634960Abstract: A robot lawnmower includes a body and a drive system carried by the body and configured to maneuver the robot across a lawn. The robot also includes a grass cutter and a swath edge detector, both carried by the body. The swath edge detector is configured to detect a swath edge between cut and uncut grass while the drive system maneuvers the robot across the lawn while following a detected swath edge. The swath edge detector includes a calibrator that monitors uncut grass for calibration of the swath edge detector. In some examples, the calibrator comprises a second swath edge detector.Type: GrantFiled: March 19, 2007Date of Patent: January 21, 2014Assignee: iRobot CorporationInventors: Paul E. Sandin, Joseph L. Jones, Daniel N. Ozick, David A. Cohen, David M. Lewis, Jr., Clara Vu, Zivthan A. Dubrovsky, Joshua B. Preneta, Jeffrey W. Mammen, Duane L. Gilbert, Jr., Tony L. Campbell, John Bergman
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Patent number: 8606401Abstract: A navigation beacon controls movement of a mobile robot in first and second areas. The navigation beacon includes a portable housing, a power source, and an emitter. The emitter is operable to emit a gateway marking emission when the robot is within a field of detection that extends between the areas. The gateway marking emission is detectable by the robot and prevents the robot from moving from one of the areas, through the field of detection, to the other of the areas. A switch is operable to switch the navigation beacon to be in an OFF mode in which the gateway beacon emitter is in an OFF state, a confinement mode in which the gateway beacon emitter is in an ON state, and a navigation mode in which the gateway beacon emitter is in the ON state and automatically switches to the OFF state in response to a predetermined condition.Type: GrantFiled: July 1, 2010Date of Patent: December 10, 2013Assignee: iRobot CorporationInventors: Daniel N. Ozick, Andrea M. Okerholm, Jeffrey W. Mammen, Michael J. Halloran, Paul E. Sandin, Chikyung Won
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Publication number: 20130253701Abstract: A power-saving robot system includes at least one peripheral device and a mobile robot. The peripheral device includes a controller having an active mode and a hibernation mode, and a wireless communication component capable of activation in the hibernation mode. A controller of the robot has an activating routine that communicates with and temporarily activates the peripheral device, via wireless communication, from the hibernation mode. In another aspect, a robot system includes a network data bridge and a mobile robot. The network data bridge includes a broadband network interface, a wireless command interface, and a data bridge component. The data bridge component extracts serial commands received via the broadband network interface from an internet protocol, applies a command protocol thereto, and broadcasts the serial commands via the wireless interface. The mobile robot includes a wireless command communication component that receives the serial commands transmitted from the network data bridge.Type: ApplicationFiled: May 14, 2013Publication date: September 26, 2013Applicant: iRobot CorporationInventors: Michael J. Halloran, Jeffrey W. Mammen, Tony L. Campbell, Jason S. Walker, Paul E. Sandin, John N. Billington, JR., Daniel N. Ozick
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Patent number: 8380350Abstract: An autonomous mobile robot system for bounded areas including a navigation beacon and an autonomous coverage robot. The navigation beacon has a gateway beacon emitter arranged to transmit a gateway marking emission with the navigation beacon disposed within a gateway between the first bounded area and an adjacent second bounded area. The autonomous coverage robot includes a beacon emission sensor responsive to the beacon emission, and a drive system configured to maneuver the robot about the first bounded area in a cleaning mode in which the robot is redirected in response to detecting the gateway marking emission. The drive system is also configured to maneuver the robot through the gateway into the second bounded area in a migration mode.Type: GrantFiled: December 23, 2008Date of Patent: February 19, 2013Assignee: iRobot CorporationInventors: Daniel N. Ozick, Andrea M. Okerholm, Jeffrey W. Mammen, Michael J. Halloran, Paul E. Sandin, Chikyung Won
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Patent number: 8374721Abstract: A power-saving robot system includes at least one peripheral device and a mobile robot. The peripheral device includes a controller having an active mode and a hibernation mode, and a wireless communication component capable of activation in the hibernation mode. A controller of the robot has an activating routine that communicates with and temporarily activates the peripheral device, via wireless communication, from the hibernation mode. In another aspect, a robot system includes a network data bridge and a mobile robot. The network data bridge includes a broadband network interface, a wireless command interface, and a data bridge component. The data bridge component extracts serial commands received via the broadband network interface from an internet protocol, applies a command protocol thereto, and broadcasts the serial commands via the wireless interface. The mobile robot includes a wireless command communication component that receives the serial commands transmitted from the network data bridge.Type: GrantFiled: December 4, 2006Date of Patent: February 12, 2013Assignee: iRobot CorporationInventors: Michael J. Halloran, Jeffrey W. Mammen, Tony L. Campbell, Jason S. Walker, Paul E. Sandin, John N. Billington, Jr., Daniel N. Ozick
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Patent number: 8370985Abstract: An autonomous coverage robot includes a chassis having forward and rearward portions and a drive system carried by the chassis. The forward portion of the chassis defines a substantially rectangular shape. The robot includes a cleaning assembly mounted on the forward portion of the chassis and a bin disposed adjacent the cleaning assembly and configured to receive debris agitated by the cleaning assembly. A bin cover is pivotally attached to a lower portion of the chassis and configured to rotate between a first, closed position providing closure of an opening defined by the bin and a second, open position providing access to the bin opening. The robot includes a body attached to the chassis and a handle disposed on an upper portion of the body. A bin cover release is actuatable from substantially near the handle.Type: GrantFiled: September 26, 2011Date of Patent: February 12, 2013Assignee: iRobot CorporationInventors: Mark Schnittman, Zivthan A. Dubrovsky, Jeffrey W. Mammen, Aaron Solochek
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Patent number: 8347444Abstract: An autonomous coverage robot includes a chassis having forward and rearward portions and a drive system carried by the chassis. The forward portion of the chassis defines a substantially rectangular shape. The robot includes a cleaning assembly mounted on the forward portion of the chassis and a bin disposed adjacent the cleaning assembly and configured to receive debris agitated by the cleaning assembly. A bin cover is pivotally attached to a lower portion of the chassis and configured to rotate between a first, closed position providing closure of an opening defined by the bin and a second, open position providing access to the bin opening. The robot includes a body attached to the chassis and a handle disposed on an upper portion of the body. A bin cover release is actuatable from substantially near the handle.Type: GrantFiled: September 26, 2011Date of Patent: January 8, 2013Assignee: iRobot CorporationInventors: Mark Schnittman, Zivthan A. Dubrovsky, Jeffrey W. Mammen, Aaron Solochek