Patent application number | Description | Published |
20090177323 | COMPANION ROBOT FOR PERSONAL INTERACTION - A mobile robot guest for interacting with a human resident performs a room-traversing search procedure prior to interacting with the resident, and may verbally query whether the resident being sought is present. Upon finding the resident, the mobile robot may facilitate a teleconferencing session with a remote third party, or interact with the resident in a number of ways. For example, the robot may carry on a dialogue with the resident, reinforce compliance with medication or other schedules, etc. In addition, the robot incorporates safety features for preventing collisions with the resident; and the robot may audibly announce and/or visibly indicate its presence in order to avoid becoming a dangerous obstacle. Furthermore, the mobile robot behaves in accordance with an integral privacy policy, such that any sensor recording or transmission must be approved by the resident. | 07-09-2009 |
20090214324 | Adaptable container handling system - An adaptable handling system featuring a boundary subsystem and one or more robots. Each robot typically includes a chassis, a container lift mechanism moveable with respect to the robot chassis for transporting at least one container, a drive subsystem for maneuvering the chassis, a boundary sensing subsystem, a container detection subsystem, and a controller. The controller is responsive to the boundary sensing subsystem and the container detection subsystem and is configured to control the drive subsystem to follow a boundary once intercepted until a container is detected and turn until another container is detected. The controller then controls the container lift mechanism to place a transported container proximate the second detected container. | 08-27-2009 |
20090254218 | ROBOT CONFINEMENT - 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. | 10-08-2009 |
20110172822 | Companion Robot for Personal Interaction - A mobile robot guest for interacting with a human resident performs a room-traversing search procedure prior to interacting with the resident, and may verbally query whether the resident being sought is present. Upon finding the resident, the mobile robot may facilitate a teleconferencing session with a remote third party, or interact with the resident in a number of ways. For example, the robot may carry on a dialogue with the resident, reinforce compliance with medication or other schedules, etc. In addition, the robot incorporates safety features for preventing collisions with the resident; and the robot may audibly announce and/or visibly indicate its presence in order to avoid becoming a dangerous obstacle. Furthermore, the mobile robot behaves in accordance with an integral privacy policy, such that any sensor recording or transmission must be approved by the resident. | 07-14-2011 |
20110301757 | ADAPTABLE CONTAINER HANDLING ROBOT WITH BOUNDARY SENSING SUBSYSTEM - An adaptable container handling robot includes a chassis, a container transport mechanism, a drive subsystem for maneuvering the chassis, a boundary sensing subsystem configured to reduce adverse effects of outdoor deployment, and a controller subsystem responsive to the boundary sensing subsystem. The controller subsystem is configured to detect a boundary, control the drive subsystem to turn in a given direction to align the robot with the boundary, and control the drive subsystem to follow the boundary. | 12-08-2011 |
20120303160 | COMPANION ROBOT FOR PERSONAL INTERACTION - A mobile robot guest for interacting with a human resident performs a room-traversing search procedure prior to interacting with the resident, and may verbally query whether the resident being sought is present. Upon finding the resident, the mobile robot may facilitate a teleconferencing session with a remote third party, or interact with the resident in a number of ways. For example, the robot may carry on a dialogue with the resident, reinforce compliance with medication or other schedules, etc. In addition, the robot incorporates safety features for preventing collisions with the resident; and the robot may audibly announce and/or visibly indicate its presence in order to avoid becoming a dangerous obstacle. Furthermore, the mobile robot behaves in accordance with an integral privacy policy, such that any sensor recording or transmission must be approved by the resident. | 11-29-2012 |
20130110281 | METHODS AND SYSTEMS FOR AUTOMATED TRANSPORTATION OF ITEMS BETWEEN VARIABLE ENDPOINTS | 05-02-2013 |
20130110341 | METHODS AND SYSTEMS FOR MAINTENANCE AND OTHER PROCESSING OF CONTAINER-GROWN PLANTS USING AUTONOMOUS MOBILE ROBOTS | 05-02-2013 |
20130181544 | EMERGENCY STOP METHOD AND SYSTEM FOR AUTONOMOUS MOBILE ROBOTS - An emergency stop system for an autonomous mobile robot includes a base unit connected to the robot and an element engageable by a user extending from the base unit. The element is movably held by the base unit in an operation mode position. The base unit includes a mechanism for detecting the presence of the element in the operation mode position and triggering an emergency stop of the robot when the element is moved out of the operation mode position by the user. | 07-18-2013 |
20140039680 | Companion Robot For Personal Interaction - A mobile robot that includes a robot body, a drive system having one or more wheels supporting the robot body to maneuver the robot across a floor surface, and a riser having a proximal end and a distal end. The proximal end of the riser disposed on the robot body. The robot also includes a head disposed on the distal end of the riser. The head includes a display and a camera disposed adjacent the display. | 02-06-2014 |
20140095007 | COMPANION ROBOT FOR PERSONAL INTERACTION - A mobile robot guest for interacting with a human resident performs a room-traversing search procedure prior to interacting with the resident, and may verbally query whether the resident being sought is present. Upon finding the resident, the mobile robot may facilitate a teleconferencing session with a remote third party, or interact with the resident in a number of ways. For example, the robot may carry on a dialogue with the resident, reinforce compliance with medication or other schedules, etc. In addition, the robot incorporates safety features for preventing collisions with the resident; and the robot may audibly announce and/or visibly indicate its presence in order to avoid becoming a dangerous obstacle. Furthermore, the mobile robot behaves in accordance with an integral privacy policy, such that any sensor recording or transmission must be approved by the resident. | 04-03-2014 |
20140095008 | Lawn Care Robot - 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. | 04-03-2014 |
20140102061 | Lawn Care Robot - 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. | 04-17-2014 |
20140102062 | Lawn Care Robot - 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. | 04-17-2014 |
20140142757 | COMPANION ROBOT FOR PERSONAL INTERACTION - A mobile robot guest for interacting with a human resident performs a room-traversing search procedure prior to interacting with the resident, and may verbally query whether the resident being sought is present. Upon finding the resident, the mobile robot may facilitate a teleconferencing session with a remote third party, or interact with the resident in a number of ways. For example, the robot may carry on a dialogue with the resident, reinforce compliance with medication or other schedules, etc. In addition, the robot incorporates safety features for preventing collisions with the resident; and the robot may audibly announce and/or visibly indicate its presence in order to avoid becoming a dangerous obstacle. Furthermore, the mobile robot behaves in accordance with an integral privacy policy, such that any sensor recording or transmission must be approved by the resident. | 05-22-2014 |
20140316557 | METHODS AND SYSTEMS FOR MAINTENANCE AND OTHER PROCESSING OF CONTAINER-GROWN PLANTS USING AUTONOMOUS MOBILE ROBOTS - A system is provided for processing container-grown plants positioned in a given area. The system includes a processing station positioned in the area for processing the container-grown plants. It also includes one or more autonomous mobile container handling robots configured to: (i) travel to a source location in the area and pick up a container-grown plant, (ii) transport the container-grown plant to the processing station where a process is performed on the container-grown plant, (iii) transport the container-grown plant from the processing station to a destination location in the area, (iv) deposit the container-grown plant at the destination location, and (v) repeat (i) through (iv) for a set of container-grown plants in the source location. | 10-23-2014 |
20150057800 | AUTONOMOUS ROBOT AUTO-DOCKING AND ENERGY MANAGEMENT SYSTEMS AND METHODS - A method for energy management in a robotic device includes providing a base station for mating with the robotic device, determining a quantity of energy stored in an energy storage unit of the robotic device, and performing a predetermined task based at least in part on the quantity of energy stored. Also disclosed are systems for emitting avoidance signals to prevent inadvertent contact between the robot and the base station, and systems for emitting homing signals to allow the robotic device to accurately dock with the base station. | 02-26-2015 |