Patents by Inventor Callum Lamb
Callum Lamb 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: 20230152946Abstract: In one general aspect, a method can include causing display of a webpage within a display area of a browser, and causing display of a search area indicator associated with an area of the webpage. The method can include receiving a selection of the search area indicator. In response to the selection of the search area indicator being received the method can include defining an image corresponding to the area, and triggering a search query based on the image. The method can include receiving a search result in response to the search query, and causing display of the search result in a search result area outside of the display area where the search result area is within the browser.Type: ApplicationFiled: November 16, 2022Publication date: May 18, 2023Inventors: Yana Yushkina, Benjamin Goldberger, Peter Boström, Jason Edward Dishlip, Nicholas Sexton, Mark Chang, John Oliver Por, Carlos Marin Capriles, Hyun Ji Bae, Greg Schechter, Allison Stanfield, Timothy Parsons, David Wu, Juan Mojica, Tina Lin Zeng, Callum Lamb, Joseph Engel, Samantha Chen, Thomas Lukaszewicz, Frank Goodman
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Publication number: 20220110775Abstract: A lower-leg exoskeleton that includes an actuator configured to be worn about a portion a leg of a user that is below the knee of the user; and a foot structure coupled to a first actuator end of the actuator, the foot structure configured to surround a portion of the foot of the user. The foot structure includes one or more sidewalls configured to extend around the foot of the user and including one or more sidewall attachment points for connecting to a base portion, and a base portion configured to reside at a base of the foot of the user and including one or more base attachment points coupling with the one or more sidewall attachment points.Type: ApplicationFiled: December 21, 2021Publication date: April 14, 2022Inventors: Brenton Piercy, Tim Swift, Giancarlo Nucci, Callum Lamb, Pete Lynn, Saul Griffith, Leanne Luce
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Patent number: 11266561Abstract: A method of performing a fit test on an actuator unit coupled to a user. The method includes actuating the actuator unit; determining a first configuration of the actuator unit generated during the actuating the actuator unit; determining a second configuration of the actuator unit generated during the actuating the actuator unit; determining a change in configuration of the actuator unit based at least in part on the difference between the first and second configuration; and determining that the change in configuration corresponds to an improper fit of the actuator unit to the user.Type: GrantFiled: August 19, 2020Date of Patent: March 8, 2022Assignee: ROAM ROBOTICS INC.Inventors: Callum Lamb, Kevin Kemper, Tim Swift
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Patent number: 11213417Abstract: A lower-leg exoskeleton that includes an inflatable actuator configured to be worn over a front portion of a leg of a user and configured to be disposed directly adjacent to and surrounding a joint of the leg of the user. The inflatable actuator is configured, when worn by the user, to receive and transmit an actuator load generated by the inflatable actuator around the joint of the user to a load contact point. Inflation of the inflatable actuator generates a moment about the joint of the user to cause flexion of the leg of the user.Type: GrantFiled: December 9, 2019Date of Patent: January 4, 2022Assignee: ROAM ROBOTICS INC.Inventors: Brenton Piercy, Tim Swift, Giancarlo Nucci, Callum Lamb, Pete Lynn, Saul Griffith, Leanne Luce
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Publication number: 20210370494Abstract: An exoskeleton system comprising a leg actuator unit that is configured to be coupled to a leg of a user. The leg actuator unit includes: an upper arm and a lower arm that are rotatably coupled via a rotatable joint, the rotatable joint configured to be positioned at a knee of the user with the upper arm coupled about an upper-leg portion of the user above the knee and with the lower arm coupled about a lower-leg portion of the user below the knee. The upper arm is configured to be coupled to the upper-leg portion above the knee via a first set of couplers that includes a first upper-leg coupler, the lower arm is configured to be coupled to the lower-leg portion below the knee via a second set of couplers that includes one or more lower-leg couplers associated with a lower-leg brace, and an actuator extends between the upper arm and lower arm, the actuator configurable to move the upper arm and lower arm.Type: ApplicationFiled: May 27, 2021Publication date: December 2, 2021Inventors: Garrett Hurley, Ashley Swartz, Phil Long, Ronald Lam, Monica Ha, Callum Lamb, Collin Smith, Linus Park, Kevin Conrad Kemper, Timothy Alan Swift
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Patent number: 10966895Abstract: A method of performing a fit test on an actuator unit coupled to a user. The method includes determining a first configuration of the actuator unit generated in response to actuating the actuator unit while the user is performing one or more movements for the fit test; determining a change from the first configuration of the actuator unit while the user is performing the one or more movements for the fit test; determining that the change from the first configuration corresponds to an improper fit of the actuator unit coupled the user; and generating an improper fit indication that indicates improper fit of at least leg actuator units coupled the user.Type: GrantFiled: April 22, 2020Date of Patent: April 6, 2021Assignee: ROAM ROBOTICS INC.Inventors: Callum Lamb, Kevin Kemper, Tim Swift
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Publication number: 20200375836Abstract: A method of performing a fit test on an actuator unit coupled to a user. The method includes actuating the actuator unit; determining a first configuration of the actuator unit generated during the actuating the actuator unit; determining a second configuration of the actuator unit generated during the actuating the actuator unit; determining a change in configuration of the actuator unit based at least in part on the difference between the first and second configuration; and determining that the change in configuration corresponds to an improper fit of the actuator unit to the user.Type: ApplicationFiled: August 19, 2020Publication date: December 3, 2020Inventors: Callum Lamb, Kevin Kemper, Tim Swift
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Patent number: 10780012Abstract: A method of performing a fit test on an actuator unit coupled to a user. The method includes determining a first configuration of the actuator unit while the actuator unit is in an un-actuating state and while the user is in a fit test position; actuating the actuator unit; determining a second configuration of the actuator unit generated in response to the actuating the leg actuator unit; determining a change in configuration of the actuator unit based at least in part on the difference between the first and second configuration; and determining that the change in configuration corresponds to an improper fit of the actuator unit to the user.Type: GrantFiled: August 29, 2018Date of Patent: September 22, 2020Assignee: Roam Robotics Inc.Inventors: Callum Lamb, Kevin Kemper, Tim Swift
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Publication number: 20200246211Abstract: A method of performing a fit test on an actuator unit coupled to a user. The method includes determining a first configuration of the actuator unit generated in response to actuating the actuator unit while the user is performing one or more movements for the fit test; determining a change from the first configuration of the actuator unit while the user is performing the one or more movements for the fit test; determining that the change from the first configuration corresponds to an improper fit of the actuator unit coupled the user; and generating an improper fit indication that indicates improper fit of at least leg actuator units coupled the user.Type: ApplicationFiled: April 22, 2020Publication date: August 6, 2020Inventors: Callum Lamb, Kevin Kemper, Tim Swift
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Publication number: 20200138604Abstract: A lower-leg exoskeleton that includes an inflatable actuator configured to be worn over a front portion of a leg of a user and configured to be disposed directly adjacent to and surrounding a joint of the leg of the user. The inflatable actuator is configured, when worn by the user, to receive and transmit an actuator load generated by the inflatable actuator around the joint of the user to a load contact point. Inflation of the inflatable actuator generates a moment about the joint of the user to cause flexion of the leg of the user.Type: ApplicationFiled: December 9, 2019Publication date: May 7, 2020Inventors: Brenton Piercy, Tim Swift, Giancarlo Nucci, Callum Lamb, Pete Lynn, Saul Griffith, Leanne Luce
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Patent number: 10543110Abstract: A lower-leg exoskeleton including an inflatable actuator that is configured to be worn over a front portion of a foot of a user; a rigid foot structure coupled to the inflatable actuator that is configured to surround a portion of a foot of the user; and a rigid shin structure coupled to the inflatable actuator and configured to engage the shin of the user. When worn by a user, the lower-leg exoskeleton can receive and transmit an actuator load generated by the inflatable actuator to a load contact point defined by the rigid foot structure which is forward of the heel of a user. Inflation of the inflatable actuator can generate a moment about the ankle of a user to cause flexion of the foot of the user.Type: GrantFiled: March 28, 2016Date of Patent: January 28, 2020Assignee: ROAM ROBOTICS INC.Inventors: Brenton Piercy, Tim Swift, Giancarlo Nucci, Callum Lamb, Pete Lynn, Saul Griffith, Leanne Luce
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Publication number: 20190060157Abstract: A method of performing a fit test on an actuator unit coupled to a user. The method includes determining a first configuration of the actuator unit while the actuator unit is in an un-actuating state and while the user is in a fit test position; actuating the actuator unit; determining a second configuration of the actuator unit generated in response to the actuating the leg actuator unit; determining a change in configuration of the actuator unit based at least in part on the difference between the first and second configuration; and determining that the change in configuration corresponds to an improper fit of the actuator unit to the user.Type: ApplicationFiled: August 29, 2018Publication date: February 28, 2019Inventors: Callum Lamb, Kevin Kemper, Tim Swift
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Publication number: 20160278948Abstract: A lower-leg exoskeleton including an inflatable actuator that is configured to be worn over a front portion of a foot of a user; a rigid foot structure coupled to the inflatable actuator that is configured to surround a portion of a foot of the user; and a rigid shin structure coupled to the inflatable actuator and configured to engage the shin of the user. When worn by a user, the lower-leg exoskeleton can receive and transmit an actuator load generated by the inflatable actuator to a load contact point defined by the rigid foot structure which is forward of the heel of a user. Inflation of the inflatable actuator can generate a moment about the ankle of a user to cause flexion of the foot of the user.Type: ApplicationFiled: March 28, 2016Publication date: September 29, 2016Inventors: Brenton Piercy, Tim Swift, Giancarlo Nucci, Callum Lamb, Pete Lynn, Saul Griffith, Leanne Luce