Patents by Inventor Fuji Lai
Fuji Lai 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: 20210074423Abstract: A tele-presence system that includes a cart. The cart includes a robot face that has a robot monitor, a robot camera, a robot speaker, a robot microphone, and an overhead camera. The system also includes a remote station that is coupled to the robot face and the overhead camera. The remote station includes a station monitor, a station camera, a station speaker and a station microphone. The remote station can display video images captured by the robot camera and/or overhead camera. By way of example, the cart can be used in an operating room, wherein the overhead camera can be placed in a sterile field and the robot face can be used in a non-sterile field. The user at the remote station can conduct a teleconference through the robot face and also obtain a view of a medical procedure through the overhead camera.Type: ApplicationFiled: November 11, 2020Publication date: March 11, 2021Inventors: David Stuart, Daniel Steven Sanchez, Fuji Lai, Kevin Hanrahan, Charles S. Jordan, David Roe, James Rosenthal, Amante Mangaser, Blair Whitney, Derek Walters
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Publication number: 20210008722Abstract: Devices, systems, and methods for social behavior of a telepresence robot are disclosed herein. A telepresence robot may include a drive system, a control system, an object detection system, and a social behaviors component. The drive system is configured to move the telepresence robot. The control system is configured to control the drive system to drive the telepresence robot around a work area. The object detection system is configured to detect a human in proximity to the telepresence robot. The social behaviors component is configured to provide instructions to the control system to cause the telepresence robot to operate according to a first set of rules when a presence of one or more humans is not detected and operate according to a second set of rules when the presence of one or more humans is detected.Type: ApplicationFiled: September 21, 2020Publication date: January 14, 2021Inventors: Marco Pinter, Fuji Lai, Daniel Steven Sanchez, James Ballantyne, David Bjorn Roe, Yulun Wang, Charles S. Jordan, Orjeta Taka, Cheuk Wah Wong
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Patent number: 10892052Abstract: The present disclosure describes various aspects of remote presence interfaces (RPIs) for use on portable electronic devices (PEDs) to interface with remote presence devices. An RPI may allow a user to interact with a telepresence device, view a live video feed, provide navigational instructions, and/or otherwise interact with the telepresence device. The RPI may allow a user to manually, semi-autonomously, or autonomously control the movement of the telepresence device. One or more panels associated with a video feed, patient data, calendars, date, time, telemetry data, PED data, telepresence device data, healthcare facility information, healthcare practitioner information, menu tabs, settings controls, and/or other features may be utilized via the RPI.Type: GrantFiled: May 13, 2020Date of Patent: January 12, 2021Assignees: INTOUCH TECHNOLOGIES, INC., IROBOT CORPORATIONInventors: Charles S. Jordan, Andy Young, Mei Sheng Ng, Yair Lurie, Fuji Lai, Timothy C. Wright, Cody Herzog, Blair Whitney, Bill Rizzi, James Ballantyne, Yulun Wang, Cheuk Wah Wong, Justin H. Kearns, Orjeta Taka, Ramchandra Karandikar
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Patent number: 10882180Abstract: A robotic system that can be used to treat a patient. The robotic system includes a mobile robot that has a camera. The mobile robot is controlled by a remote station that has a monitor. A physician can use the remote station to move the mobile robot into view of a patient. An image of the patient is transmitted from the robot camera to the remote station monitor. A medical personnel at the robot site can enter patient information into the system through a user interface. The patient information can be stored in a server. The physician can access the information from the remote station. The remote station may provide graphical user interfaces that display the patient information and provide both a medical tool and a patient management plan.Type: GrantFiled: November 11, 2019Date of Patent: January 5, 2021Assignee: TELADOC HEALTH, INC.Inventors: Timothy C. Wright, Fuji Lai, Marco Pinter, Yulun Wang
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Patent number: 10887545Abstract: A tele-presence system that includes a cart. The cart includes a robot face that has a robot monitor, a robot camera, a robot speaker, a robot microphone, and an overhead camera. The system also includes a remote station that is coupled to the robot face and the overhead camera. The remote station includes a station monitor, a station camera, a station speaker and a station microphone. The remote station can display video images captured by the robot camera and/or overhead camera. By way of example, the cart can be used in an operating room, wherein the overhead camera can be placed in a sterile field and the robot face can be used in a non-sterile field. The user at the remote station can conduct a teleconference through the robot face and also obtain a view of a medical procedure through the overhead camera.Type: GrantFiled: March 20, 2017Date of Patent: January 5, 2021Assignee: TELADOC HEALTH, INC.Inventors: David Stuart, Daniel Steven Sanchez, Fuji Lai, Kevin Hanrahan, Charles S. Jordan, David Roe, James Rosenthal, Amante Mangaser, Blair Whitney, Derek Walters
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Publication number: 20200356101Abstract: A telepresence robot may include a drive system, a control system, an imaging system, and a mapping module. The mapping module may access a map of an area and tags associated with the area. In various embodiments, each tag may include tag coordinates and tag information, which may include a tag annotation. A tag identification system may identify tags within a predetermined range of the current position and the control system may execute an action based on an identified tag whose tag information comprises a telepresence robot action modifier. The telepresence robot may rotate an upper portion independent from a lower portion. A remote terminal may allow an operator to control the telepresence robot using any combination of control methods, including by selecting a destination in a live video feed, by selecting a destination on a map, or by using a joystick or other peripheral device.Type: ApplicationFiled: March 12, 2020Publication date: November 12, 2020Inventors: Yulun Wang, Charles S. Jordan, Tim Wright, Michael Chan, Marco Pinter, Kevin Hanrahan, Daniel Sanchez, James Ballantyne, Cody Herzog, Blair Whitney, Fuji Lai, Kelton Temby, Eben Christopher Rauhut, Justin H. Kearns, Cheuk Wah Wong, Timothy Sturtevant Farlow
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Patent number: 10780582Abstract: Devices, systems, and methods for social behavior of a telepresence robot are disclosed herein. A telepresence robot may include a drive system, a control system, an object detection system, and a social behaviors component. The drive system is configured to move the telepresence robot. The control system is configured to control the drive system to drive the telepresence robot around a work area. The object detection system is configured to detect a human in proximity to the telepresence robot. The social behaviors component is configured to provide instructions to the control system to cause the telepresence robot to operate according to a first set of rules when a presence of one or more humans is not detected and operate according to a second set of rules when the presence of one or more humans is detected.Type: GrantFiled: May 21, 2019Date of Patent: September 22, 2020Assignee: INTOUCH TECHNOLOGIES, INC.Inventors: Marco Pinter, Fuji Lai, Daniel Steven Sanchez, James Ballantyne, David Bjorn Roe, Yulun Wang, Charles S. Jordan, Orjeta Taka, Cheuk Wah Wong
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Publication number: 20200273565Abstract: The present disclosure describes various aspects of remote presence interfaces (RPIs) for use on portable electronic devices (PEDs) to interface with remote presence devices. An RPI may allow a user to interact with a telepresence device, view a live video feed, provide navigational instructions, and/or otherwise interact with the telepresence device. The RPI may allow a user to manually, semi-autonomously, or autonomously control the movement of the telepresence device. One or more panels associated with a video feed, patient data, calendars, date, time, telemetry data, PED data, telepresence device data, healthcare facility information, healthcare practitioner information, menu tabs, settings controls, and/or other features may be utilized via the RPI.Type: ApplicationFiled: May 13, 2020Publication date: August 27, 2020Inventors: Charles S. Jordan, Andy Young, Mei Sheng Ng, Yair Lurie, Fuji Lai, Timothy C. Wright, Cody Herzog, Blair Whitney, Bill Rizzi, James Ballantyne, Yulun Wang, Cheuk Wah Wong, Justin H. Kearns, Orjeta Taka, Ramchandra Karandikar
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Publication number: 20200215683Abstract: A robotic system that can be used to treat a patient. The robotic system includes a mobile robot that has a camera. The mobile robot is controlled by a remote station that has a monitor. A physician can use the remote station to move the mobile robot into view of a patient. An image of the patient is transmitted from the robot camera to the remote station monitor. A medical personnel at the robot site can enter patient information into the system through a user interface. The patient information can be stored in a server. The physician can access the information from the remote station. The remote station may provide graphical user interfaces that display the patient information and provide both a medical tool and a patient management plan.Type: ApplicationFiled: November 11, 2019Publication date: July 9, 2020Inventors: Timothy C. Wright, Fuji Lai, Marco Pinter, Yulun Wang
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Publication number: 20200198142Abstract: The present disclosure describes various clinical workflows and other methods that utilize a telemedicine device in a healthcare network. According to various embodiments, a healthcare practitioner may utilize a remote presence interfaces (RPIs) on a remote access device (RAD), such as a portable electronic device (PED) to interface with a telemedicine device. The healthcare practitioner may directly interface with a display interface of a telemedicine device or utilize the RPI on a RAD. The present disclosure provides various clinical workflows involving a telemedicine device to view patient data during a telepresence session, perform rounds to visit multiple patients, monitor a patient, allow for remote visitations by companions, and various other clinical workflow methods.Type: ApplicationFiled: March 2, 2020Publication date: June 25, 2020Inventors: Fuji Lai, Timothy C. Wright, Yair Lurie, Yulun Wang
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Patent number: 10658083Abstract: The present disclosure describes various aspects of remote presence interfaces (RPIs) for use on portable electronic devices (PEDs) to interface with remote telepresence devices. An RPI may allow a user to interact with a telepresence device, view a live video feed, provide navigational instructions, and/or otherwise interact with the telepresence device. The RPI may allow a user to manually, semi-autonomously, or autonomously control the movement of the telepresence device. One or more panels associated with a video feed, patient data, calendars, date, time, telemetry data, PED data, telepresence device data, healthcare facility information, healthcare practitioner information, menu tabs, settings controls, and/or other features may be utilized via the RPI.Type: GrantFiled: July 25, 2018Date of Patent: May 19, 2020Assignee: INTOUCH TECHNOLOGIES, INC.Inventors: Charles S. Jordan, Andy Young, Mei Sheng Ng, Yair Lurie, Fuji Lai, Timothy C. Wright, Cody Herzog, Blair Whitney, Bill Rizzi, James Ballantyne, Yulun Wang, Cheuk Wah Wong, Justin Kearns, Orjeta Taka, Ramchandra Karandikar
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Patent number: 10603792Abstract: The present disclosure describes various clinical workflows and other methods that utilize a telemedicine device in a healthcare network. According to various embodiments, a healthcare practitioner may utilize a remote presence interfaces (RPIs) on a remote access device (RAD), such as a portable electronic device (PED) to interface with a telemedicine device. The healthcare practitioner may directly interface with a display interface of a telemedicine device or utilize the RPI on a RAD. The present disclosure provides various clinical workflows involving a telemedicine device to view patient data during a telepresence session, perform rounds to visit multiple patients, monitor a patient, allow for remote visitations by companions, and various other clinical workflow methods.Type: GrantFiled: November 21, 2014Date of Patent: March 31, 2020Assignee: INTOUCH TECHNOLOGIES, INC.Inventors: Fuji Lai, Timothy C. Wright, Yair Lurie, Yulun Wang
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Patent number: 10591921Abstract: A telepresence robot may include a drive system, a control system, an imaging system, and a mapping module. The mapping module may access a map of an area and tags associated with the area. In various embodiments, each tag may include tag coordinates and tag information, which may include a tag annotation. A tag identification system may identify tags within a predetermined range of the current position and the control system may execute an action based on an identified tag whose tag information comprises a telepresence robot action modifier. The telepresence robot may rotate an upper portion independent from a lower portion. A remote terminal may allow an operator to control the telepresence robot using any combination of control methods, including by selecting a destination in a live video feed, by selecting a destination on a map, or by using a joystick or other peripheral device.Type: GrantFiled: September 29, 2017Date of Patent: March 17, 2020Assignee: INTOUCH TECHNOLOGIES, INC.Inventors: Yulun Wang, Charles S. Jordan, Tim Wright, Michael Chan, Marco Pinter, Kevin Hanrahan, Daniel Sanchez, James Ballantyne, Cody Herzog, Blair Whitney, Fuji Lai, Kelton Temby, Eben Christopher Rauhut, Justin H. Kearns, Cheuk Wah Wong, Timothy Sturtevant Farlow
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Publication number: 20200009736Abstract: Devices, systems, and methods for social behavior of a telepresence robot are disclosed herein. A telepresence robot may include a drive system, a control system, an object detection system, and a social behaviors component. The drive system is configured to move the telepresence robot. The control system is configured to control the drive system to drive the telepresence robot around a work area. The object detection system is configured to detect a human in proximity to the telepresence robot. The social behaviors component is configured to provide instructions to the control system to cause the telepresence robot to operate according to a first set of rules when a presence of one or more humans is not detected and operate according to a second set of rules when the presence of one or more humans is detected.Type: ApplicationFiled: May 21, 2019Publication date: January 9, 2020Inventors: Marco Pinter, Fuji Lai, Daniel Steven Sanchez, James Ballantyne, David Bjorn Roe, Yulun Wang, Charles S. Jordan, Orjeta Taka, Cheuk Wah Wong
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Publication number: 20190375102Abstract: A telepresence robot may include a drive system, a control system, an imaging system, and a mapping module. The mapping module may access a plan view map of an area and tags associated with the area. In various embodiments, each tag may include tag coordinates and tag information, which may include a tag annotation. A tag identification system may identify tags within a predetermined range of the current position and the control system may execute an action based on an identified tag whose tag information comprises a telepresence robot action modifier. The telepresence robot may rotate an upper portion independent from a lower portion. A remote terminal may allow an operator to control the telepresence robot using any combination of control methods, including by selecting a destination in a live video feed, by selecting a destination on a plan view map, or by using a joystick or other peripheral device.Type: ApplicationFiled: August 21, 2019Publication date: December 12, 2019Inventors: Yulun Wang, Charles S. Jordan, Tim Wright, Michael Chan, Marco Pinter, Kevin Hanrahan, Daniel Sanchez, James Ballantyne, Cody Herzog, Blair Whitney, Fuji Lai, Kelton Temby, Eben Christopher Rauhut, Justin H. Kearns, Cheuk Wah Wong, Timothy Sturtevant Farlow
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Patent number: 10471588Abstract: A robotic system that can be used to treat a patient. The robotic system includes a mobile robot that has a camera. The mobile robot is controlled by a remote station that has a monitor. A physician can use the remote station to move the mobile robot into view of a patient. An image of the patient is transmitted from the robot camera to the remote station monitor. A medical personnel at the robot site can enter patient information into the system through a user interface. The patient information can be stored in a server. The physician can access the information from the remote station. The remote station may provide graphical user interfaces that display the patient information and provide both a medical tool and a patient management plan.Type: GrantFiled: March 28, 2012Date of Patent: November 12, 2019Assignee: INTOUCH TECHNOLOGIES, INC.Inventors: Timothy C. Wright, Fuji Lai, Marco Pinter, Yulun Wang
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Patent number: 10399223Abstract: A telepresence robot may include a drive system, a control system, an imaging system, and a mapping module. The mapping module may access a plan view map of an area and tags associated with the area. In various embodiments, each tag may include tag coordinates and tag information, which may include a tag annotation. A tag identification system may identify tags within a predetermined range of the current position and the control system may execute an action based on an identified tag whose tag information comprises a telepresence robot action modifier. The telepresence robot may rotate an upper portion independent from a lower portion. A remote terminal may allow an operator to control the telepresence robot using any combination of control methods, including by selecting a destination in a live video feed, by selecting a destination on a plan view map, or by using a joystick or other peripheral device.Type: GrantFiled: March 1, 2017Date of Patent: September 3, 2019Assignee: InTouch Technologies, Inc.Inventors: Yulun Wang, Charles S. Jordan, Tim Wright, Michael Chan, Marco Pinter, Kevin Hanrahan, Daniel Sanchez, James Ballantyne, Cody Herzog, Blair Whitney, Fuji Lai, Kelton Temby, Eben Christopher Rauhut, Justin H. Kearns, Cheuk Wah Wong, Timothy Sturtevant Farlow
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Patent number: 10328576Abstract: Devices, systems, and methods for social behavior of a telepresence robot are disclosed herein. A telepresence robot may include a drive system, a control system, an object detection system, and a social behaviors component. The drive system is configured to move the telepresence robot. The control system is configured to control the drive system to drive the telepresence robot around a work area. The object detection system is configured to detect a human in proximity to the telepresence robot. The social behaviors component is configured to provide instructions to the control system to cause the telepresence robot to operate according to a first set of rules when a presence of one or more humans is not detected and operate according to a second set of rules when the presence of one or more humans is detected.Type: GrantFiled: September 29, 2017Date of Patent: June 25, 2019Assignee: InTouch Technologies, Inc.Inventors: Marco Pinter, Fuji Lai, Daniel Steven Sanchez, James Ballantyne, David Bjorn Roe, Yulun Wang, Charles S. Jordan, Orjeta Taka, Cheuk Wah Wong
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Publication number: 20190066839Abstract: The present disclosure describes various aspects of remote presence interfaces (RPIs) for use on portable electronic devices (PEDs) to interface with remote telepresence devices. An RPI may allow a user to interact with a telepresence device, view a live video feed, provide navigational instructions, and/or otherwise interact with the telepresence device. The RPI may allow a user to manually, semi-autonomously, or autonomously control the movement of the telepresence device. One or more panels associated with a video feed, patient data, calendars, date, time, telemetry data, PED data, telepresence device data, healthcare facility information, healthcare practitioner information, menu tabs, settings controls, and/or other features may be utilized via the RPI.Type: ApplicationFiled: July 25, 2018Publication date: February 28, 2019Inventors: Charles S. Jordan, Andy Young, Mei Sheng Ng, Yair Lurie, Fuji Lai, Timothy C. Wright, Cody Herzog, Blair Whitney, Bill Rizzi, James Ballantyne, Yulun Wang, Cheuk Wah Wong, Justin Kearns, Orjeta Taka, Ramchandra Karandikar
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Publication number: 20180311812Abstract: A robot system that can move about two or more patient beds. The robot includes a monitor and an infrared camera that are coupled to a mobile platform. The robot also includes a controller that is programmed to autonomously move the mobile platform from one patient to another patient and process images captured by the infrared camera to determine if one or more of the patients needs assistance. By way of example, the robot can determine whether a patient is out of a bed, or in a position wherein they may fall out of the bed. The robot may be coupled to a remote station that allows an operator to move the robot and conduct a videoconference with the patient. The image captured by the infrared robot camera can be utilized to analyze blood flow of the patient. The robot can also be utilized to perform neurological analysis.Type: ApplicationFiled: July 6, 2018Publication date: November 1, 2018Inventors: Marco Pinter, Fuji Lai, Yulun Wang, H. Neal Reynolds