Abstract: A system for automated supplier invoice reconciliation is disclosed. The system may receive an order confirmation associated with a purchase order (PO) from a supplier system. The system may receive the PO associated with the order confirmation from a buyer system. The system may receive a first invoice associated with the PO and the order confirmation from the supplier system. The system may reconcile between the PO, the first invoice, and the order confirmation to generate a second invoice. The system may pass the second invoice to the buyer system.

Abstract: A system for automated supplier invoice reconciliation is disclosed. The system may receive an order confirmation associated with a purchase order (PO) from a supplier system. The system may receive the PO associated with the order confirmation from a buyer system. The system may receive a first invoice associated with the PO and the order confirmation from the supplier system. The system may reconcile between the PO, the first invoice, and the order confirmation to generate a second invoice. The system may pass the second invoice to the buyer system.

Abstract: The present invention provides a mobile robot configured to navigate an operating environment, that includes a machine vision system comprising a camera that captures images of the operating environment using a machine vision system; detects the presence of an occlusion obstructing a portion of the field of view of a camera based on the captured images, and generate a notification when an occlusion obstructing the portion of the field of view of the camera is detected, and maintain occlusion detection data describing occluded and unobstructed portions of images being used by the SLAM application.

Abstract: The present invention provides a mobile robot configured to navigate an operating environment, that includes a machine vision system comprising a camera that captures images of the operating environment using a machine vision system; detects the presence of an occlusion obstructing a portion of the field of view of a camera based on the captured images, and generate a notification when an occlusion obstructing the portion of the field of view of the camera is detected, and maintain occlusion detection data describing occluded and unobstructed portions of images being used by the SLAM application.

Abstract: The present invention provides a mobile robot configured to navigate an operating environment, that includes a machine vision system comprising a camera that captures images of the operating environment using a machine vision system; detects the presence of an occlusion obstructing a portion of the field of view of a camera based on the captured images, and generate a notification when an occlusion obstructing the portion of the field of view of the camera is detected, and maintain occlusion detection data describing occluded and unobstructed portions of images being used by the SLAM application.

Abstract: A mobile robot system is provided that includes a docking station having at least two pose-defining fiducial markers. The pose-defining fiducial markers have a predetermined spatial relationship with respect to one another and/or to a reference point on the docking station such that a docking path to the base station can be determined from one or more observations of the at least two pose-defining fiducial markers. A mobile robot in the system includes a pose sensor assembly. A controller is located on the chassis and is configured to analyze an output signal from the pose sensor assembly. The controller is configured to determine a docking station pose, to locate the docking station pose on a map of a surface traversed by the mobile robot and to path plan a docking trajectory.

Abstract: A method for localizing and estimating a pose of a known object in a field of view of a vision system is described, and includes developing a processor-based model of the known object, capturing a bitmap image file including an image of the field of view including the known object, extracting features from the bitmap image file, matching the extracted features with features associated with the model of the known object, localizing an object in the bitmap image file based upon the extracted features, clustering the extracted features of the localized object, merging the clustered extracted features, detecting the known object in the field of view based upon a comparison of the merged clustered extracted features and the processor-based model of the known object, and estimating a pose of the detected known object in the field of view based upon the detecting of the known object.

Abstract: Systems and method of the present invention provide for one or more server computers configured to register a domain name; receive a request to: generate a file folder linked to an online storage account owned by a user; and map a URL, comprising a sub domain concatenated to the registered domain name, to the file folder. The server(s) may be further configured to determine whether an alias for the URL, comprising the subdomain, is located in a DNS record for the domain name. The server(s) may automatically generate the file folder and map the URL to the file folder. Any HTTP requests comprising the URL received by the server(s) may be resolved to the file folder.

Abstract: The present invention provides a mobile robot configured to navigate an operating environment, that includes a machine vision system comprising a camera that captures images of the operating environment using a machine vision system; detects the presence of an occlusion obstructing a portion of the field of view of a camera based on the captured images, and generate a notification when an occlusion obstructing the portion of the field of view of the camera is detected, and maintain occlusion detection data describing occluded and unobstructed portions of images being used by the SLAM application.

Abstract: The present invention provides a mobile robot configured to navigate an operating environment, that includes a machine vision system comprising a camera that captures images of the operating environment using a machine vision system; detects the presence of an occlusion obstructing a portion of the field of view of a camera based on the captured images, and generate a notification when an occlusion obstructing the portion of the field of view of the camera is detected, and maintain occlusion detection data describing occluded and unobstructed portions of images being used by the SLAM application.

Abstract: A mobile robot system is provided that includes a docking station having at least two pose-defining fiducial markers. The pose-defining fiducial markers have a predetermined spatial relationship with respect to one another and/or to a reference point on the docking station such that a docking path to the base station can be determined from one or more observations of the at least two pose-defining fiducial markers. A mobile robot in the system includes a pose sensor assembly. A controller is located on the chassis and is configured to analyze an output signal from the pose sensor assembly. The controller is configured to determine a docking station pose, to locate the docking station pose on a map of a surface traversed by the mobile robot and to path plan a docking trajectory.

Abstract: Systems and methods provide an ability to split multiple email addresses having the same email domain across a plurality of email service providers. A first email server receives a forwarded email message from a second email server, the forwarded email message including an original domain and an intermediary domain, the intermediary domain added by the second email server. The first email server removes the intermediary domain from the recipient address and delivers the email message to a corresponding email account that is serviced by the first email server.

Abstract: A method for localizing and estimating a pose of a known object in a field of view of a vision system is described, and includes developing a processor-based model of the known object, capturing a bitmap image file including an image of the field of view including the known object, extracting features from the bitmap image file, matching the extracted features with features associated with the model of the known object, localizing an object in the bitmap image file based upon the extracted features, clustering the extracted features of the localized object, merging the clustered extracted features, detecting the known object in the field of view based upon a comparison of the merged clustered extracted features and the processor-based model of the known object, and estimating a pose of the detected known object in the field of view based upon the detecting of the known object.

Abstract: A mobile robot system is provided that includes a docking station having at least two pose-defining fiducial markers. The pose-defining fiducial markers have a predetermined spatial relationship with respect to one another and/or to a reference point on the docking station such that a docking path to the base station can be determined from one or more observations of the at least two pose-defining fiducial markers. A mobile robot in the system includes a pose sensor assembly. A controller is located on the chassis and is configured to analyze an output signal from the pose sensor assembly. The controller is configured to determine a docking station pose, to locate the docking station pose on a map of a surface traversed by the mobile robot and to path plan a docking trajectory.

Abstract: A mobile robot system is provided that includes a docking station having at least two pose-defining fiducial markers. The pose-defining fiducial markers have a predetermined spatial relationship with respect to one another and/or to a reference point on the docking station such that a docking path to the base station can be determined from one or more observations of the at least two pose-defining fiducial markers. A mobile robot in the system includes a pose sensor assembly. A controller is located on the chassis and is configured to analyze an output signal from the pose sensor assembly. The controller is configured to determine a docking station pose, to locate the docking station pose on a map of a surface traversed by the mobile robot and to path plan a docking trajectory.

Abstract: A mobile robot system is provided that includes a docking station having at least two pose-defining fiducial markers. The pose-defining fiducial markers have a predetermined spatial relationship with respect to one another and/or to a reference point on the docking station such that a docking path to the base station can be determined from one or more observations of the at least two pose-defining fiducial markers. A mobile robot in the system includes a pose sensor assembly. A controller is located on the chassis and is configured to analyze an output signal from the pose sensor assembly. The controller is configured to determine a docking station pose, to locate the docking station pose on a map of a surface traversed by the mobile robot and to path plan a docking trajectory.

Abstract: The present invention provides a mobile robot configured to navigate an operating environment, that includes a machine vision system comprising a camera that captures images of the operating environment using a machine vision system; detects the presence of an occlusion obstructing a portion of the field of view of a camera based on the captured images, and generate a notification when an occlusion obstructing the portion of the field of view of the camera is detected, and maintain occlusion detection data describing occluded and unobstructed portions of images being used by the SLAM application.

Abstract: Systems and methods provide an ability to split multiple email addresses having the same email domain across a plurality of email service providers. A first email server receives a forwarded email message from a second email server, the forwarded email message including an original domain and an intermediary domain, the intermediary domain added by the second email server. The first email server removes the intermediary domain from the recipient address and delivers the email message to a corresponding email account that is serviced by the first email server.

Abstract: Systems and method of the present invention provide for one or more server computers configured to identify, within a database, an invitee the invitee's attendance status for an electronic calendar event; generate a control panel comprising a selectable list of a plurality of attendance statuses, including the attendance status of the at least one invitee; transmit the control panel to a client computer; receive a selection of the attendance status of the at least one invitee and a message content for the electronic message; and transmit the electronic message to the at least one invitee.

Abstract: Systems and method of the present invention provide for one or more server computers configured to receive a start date and a recurrence interval for an electronic calendar event; generate a recurrence preview calendar comprising a graphical representation of a plurality of dates arranged to represent days and weeks within at least one month; highlight, within the recurrence preview calendar, the start date and at least one of the plurality of dates after the start date occurring at the recurrence interval; and transmit the recurrence preview calendar to a client computer.