Produits et services

Providing information in the field of warehouse automation; consulting in the field of warehouse automation; Warehouse automation services. Platform as a service featuring computer software platforms for automated warehouse management.

Produits et services

Downloadable computer software using artificial intelligence (AI) for automated warehouse management featuring industrial robots. Platform as a service (PAAS) featuring computer software platforms for automated warehouse management featuring industrial robots.

Produits et services

(1) Providing information in the field of warehouse automation; consulting in the field of warehouse automation; Warehouse automation services (2) Platform as a service featuring computer software platforms for automated warehouse management

Produits et services

(1) Downloadable computer software using artificial intelligence (AI) for automated warehouse management featuring industrial robots (1) Platform as a service (PAAS) featuring computer software platforms for automated warehouse management featuring industrial robots

Abrégé

A method for estimating a pose of a robot using two co-planar points on an object plane in the environment and two co-planar lines on the object plane, includes capturing with a camera on the robot an image of the object in the environment, including two observed points corresponding to the two co-planar points on the object and two observed lines corresponding to the two co-planar lines on the object; projecting onto the image plane the two co-planar points to obtain two projected points and projecting the two co-planar lines to obtain two projected lines; determining a point projection error by comparing the two projected co-planar points to corresponding observed points; determining a line projection error by comparing the two projected co-planar lines to corresponding observed lines; and estimating a current robot pose if the point projection error and the line projection error are below a predetermined error threshold.

Classes IPC  ?

• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions

Abrégé

A method for estimating a pose of a robot using two co-planar points on an object plane in the environment and two co-planar lines on the object plane, includes capturing with a camera on the robot an image of the object in the environment, including two observed points corresponding to the two co-planar points on the object and two observed lines corresponding to the two co-planar lines on the object; projecting onto the image plane the two co-planar points to obtain two projected points and projecting the two co-planar lines to obtain two projected lines; determining a point projection error by comparing the two projected co-planar points to corresponding observed points; determining a line projection error by comparing the two projected co-planar lines to corresponding observed lines; and estimating a current robot pose if the point projection error and the line projection error are below a predetermined error threshold.

Classes IPC  ?

• G06T 7/73 - Détermination de la position ou de l'orientation des objets ou des caméras utilisant des procédés basés sur les caractéristiques

Produits et services

Downloadable computer software using artificial intelligence (AI) for automated warehouse management featuring industrial robots Platform as a service (PAAS) featuring computer software platforms for automated warehouse management featuring indsutrial robots

Produits et services

providing information in the field of warehouse automation; consulting in the field of warehouse automation; Warehouse automation services Platform as a service featuring computer software platforms for automated warehouse management

Produits et services

Platform as a service featuring computer software platforms for automated warehouse management featuring industrial robots.

Produits et services

(1) Platform as a service featuring computer software platforms for automated warehouse management featuring industrial robots

Produits et services

(1) Industrial Robots (1) Subscription based rental of industrial robots for use in warehouse automation; consulting in the field of robotics; providing information in the field of robotics

Produits et services

Platform as a service featuring computer software platforms for automated warehouse management for coordination of industrial robots for processing and fulfilling orders

Produits et services

Industrial robots; automated material handling system consisting of industrial robots embedded with operating software, cameras and sensors. Recorded computer software and computer hardware for automated material handling systems.

Produits et services

(1) Industrial robots (2) Automated material handling system consisting primarily of recorded computer software and computer hardware and also including industrial robots embedded with operating software, cameras and sensors

Produits et services

Industrial robots Automated material handling system consisting primarily of recorded computer software for warehouse automation and computer hardware and also including industrial robots embedded with operating software, cameras and sensors

Produits et services

(1) Automated material handling system, namely, computer software, computer hardware and robotic systems comprised primarily of robots, operating software, cameras, and sensors all for task and labor management at distribution warehouses and manufacturing facilities. (1) Operation of industrial robots for labor management and task management at distribution warehouses and manufacturing facilities.

Produits et services

Operation of industrial robots for labor management and task management at distribution warehouses and manufacturing facilities.

Abrégé

Systems and methods are provided for robot congestion management including a robot monitoring server configured to track a location of a plurality of robots within a navigational space and a plurality of robots in communication with the robot monitoring server, each robot including a processor and a memory, the memory storing instructions that, when executed by the processor, cause the autonomous robot to determine, from a task list assigned to the robot, a first pose location corresponding to a first task, receive, from the robot monitoring server, congestion information associated with the first pose location, identify a congested state of the first pose location indicated by the congestion information, select, responsive to the identification of the congested state, a second task from the task list, and navigate to a second pose location corresponding to the second task.

Classes IPC  ?

• B25J 9/16 - Commandes à programme
• B25J 9/00 - Manipulateurs à commande programmée

Produits et services

Automated material handling system, namely, computer software, computer hardware and robotic systems comprised primarily of robots, operating software, cameras, and sensors all for processing and order fulfillment, material handling, mechanized automation, at distribution warehouses and manufacturing facilities.

Produits et services

Automated material handling system, namely, computer software, computer hardware and robotic systems comprised primarily of robots, operating software, cameras, and sensors all for processing and order fulfillment, material handling, mechanized automation, at distribution warehouses and manufacturing facilities.

Produits et services

Automated material handling system, namely, computer software, computer hardware and robotic systems comprised primarily of robots, operating software, cameras, and sensors all for processing and order fulfillment, material handling, mechanized automation, at distribution warehouses and manufacturing facilities.

Abrégé

A mobile robot (100) having a removable wheel-drive assembly, comprising a mobile base (104) having a chassis (120) and a first wheel well member (180) with a flange. There is a removable wheel drive assembly (110, 112) with a mounting bracket (140, 150). There is a motor drive unit (170) disposed on the mounting bracket (140, 150) and a wheel/tire connected to the motor drive unit (170) via an axle. There is a second wheel well member (180) on the mounting bracket (140, 150) and positioned between the motor drive unit (170) and the wheel (160). The second wheel well member (180) includes a central section (210, 216) having an aperture (182) through which the axle passes and a top surface (310). The top surface (310) of the central section (210, 216) of the second wheel well member (180) engages with the flange of the first wheel well member (180) of the mobile base (104).

Classes IPC  ?

• B62D 61/04 - Véhicules à moteur ou remorques, caractérisés par la disposition ou le nombre de roues et non prévus ailleurs, p. ex. quatre roues disposées en losange avec deux roues en tandem disposées sur l'axe longitudinal du véhicule avec deux autres roues qui sont coaxiales
• B62D 63/02 - Véhicules à moteurs
• B62D 65/04 - Assemblage d'ensembles modulaires préassemblés constitués de sous-ensembles remplissant des fonctions différentes, p. ex. moteur et capot

Abrégé

Robot charging dock includes a charge connector configured to mate with a charging port of a mobile robot. There is a charge connector frame having a front surface on which the charge connector is mounted. The front surface has a first side edge and a second side edge. There is a front cover disposed over the charge connector frame which has an aperture through which the charge connector protrudes. At least a portion of the front cover is spaced from the front surface of the charge connector frame, defining an internal region. There is an opening to the internal region formed along at least a portion of a perimeter of the aperture and there is a light source disposed in the internal region. The light source is directed toward the opening to allow the light source to illuminate charge connector.

Classes IPC  ?

• B60L 53/14 - Transfert d'énergie par conduction
• A47L 9/28 - Montage de l'équipement électrique, p. ex. adaptation ou fixation à l'aspirateurCommande des aspirateurs par des moyens électriques
• B60L 53/30 - Détails de construction des stations de charge
• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions

Abrégé

A mobile robot having a removable wheel-drive assembly, comprising a mobile base having a chassis and a first wheel well member with a flange. There is a removable wheel drive assembly with a mounting bracket. There is a motor drive unit disposed on the mounting bracket and a wheel/tire connected to the motor drive unit via an axle. There is a second wheel well member on the mounting bracket and positioned between the motor drive unit and the wheel. The second wheel well member includes a central section having an aperture through which the axle passes and a top surface. The top surface of the central section of the second wheel well member engages with the flange of the first wheel well member of the mobile base.

Classes IPC  ?

• B62D 65/12 - Assemblage de sous-ensembles ou de composants avec la caisse ou entre eux, ou positionnement de sous-ensembles ou de composants par rapport à la caisse ou à d'autres sous-ensembles ou d'autres composants les sous-ensembles ou composants étant des suspensions, des freins, ou des blocs incluant une roue
• B25J 5/00 - Manipulateurs montés sur roues ou sur support mobile
• B25J 9/00 - Manipulateurs à commande programmée

Abrégé

Robot charging dock includes a charge connector configured to mate with a charging port of a mobile robot. There is a charge connector frame having a front surface on which the charge connector is mounted. The front surface has a first side edge and a second side edge. There is a front cover disposed over the charge connector frame which has an aperture through which the charge connector protrudes. At least a portion of the front cover is spaced from the front surface of the charge connector frame, defining an internal region. There is an opening to the internal region formed along at least a portion of a perimeter of the aperture and there is a light source disposed in the internal region. The light source is directed toward the opening to allow the light source to illuminate charge connector.

Classes IPC  ?

• B25J 19/00 - Accessoires adaptés aux manipulateurs, p. ex. pour contrôler, pour observerDispositifs de sécurité combinés avec les manipulateurs ou spécialement conçus pour être utilisés en association avec ces manipulateurs
• B25F 5/02 - Structure des boîtiers, corps ou poignées
• B25J 13/08 - Commandes pour manipulateurs au moyens de dispositifs sensibles, p. ex. à la vue ou au toucher
• B60L 53/30 - Détails de construction des stations de charge
• B60L 53/35 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules
• B60L 53/37 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules utilisant une détermination optique de la position, p. ex. à l'aide de caméras
• H02J 7/00 - Circuits pour la charge ou la dépolarisation des batteries ou pour alimenter des charges par des batteries
• B25J 11/00 - Manipulateurs non prévus ailleurs
• F21V 33/00 - Combinaisons structurales de dispositifs d'éclairage avec d'autres objets, non prévues ailleurs
• F21W 131/403 - Éclairage pour un usage industriel, commercial, récréatif ou militaire pour les machines
• F21Y 115/10 - Diodes électroluminescentes [LED]

Produits et services

(1) Automated material handling system, namely, computer software, computer hardware and robotic systems comprised primarily of robots, operating software, cameras, and sensors all for processing and order fulfillment, material handling, mechanized automation, at distribution warehouses and manufacturing facilities.

Produits et services

(1) Automated material handling system, namely, computer software, computer hardware and robotic systems comprised primarily of robots, operating software, cameras, and sensors all for processing and order fulfillment, material handling, mechanized automation, at distribution warehouses and manufacturing facilities.

Produits et services

(1) Automated material handling system, namely, computer software, computer hardware and robotic systems comprised primarily of robots, operating software, cameras, and sensors all for processing and order fulfillment, material handling, mechanized automation, at distribution warehouses and manufacturing facilities.

Produits et services

Automated material handling system, namely, robotic systems comprised of robots, operating software, cameras, and sensors all for processing and order fulfillment, material handling, mechanized automation, at distribution warehouses and manufacturing facilities. Computer software, computer hardware for automated material handling system for processing and order fulfillment, material handling, mechanized automation, at distribution warehouses and manufacturing facilities.

Produits et services

Automated material handling system, namely, robotic systems comprised of robots, operating software, cameras, and sensors all for processing and order fulfillment, material handling, mechanized automation, at distribution warehouses and manufacturing facilities. Computer software, computer hardware for automated material handling system for processing and order fulfillment, material handling, mechanized automation, at distribution warehouses and manufacturing facilities.

Produits et services

Automated material handling system, namely, robotic systems comprised of robots, operating software, cameras, and sensors all for processing and order fulfillment, material handling, mechanized automation, at distribution warehouses and manufacturing facilities. Computer software, computer hardware for automated material handling system for processing and order fulfillment, material handling, mechanized automation, at distribution warehouses and manufacturing facilities.

Abrégé

A system for determining pose of a lidar sensor in an environment in order to calibrate the lidar sensor. The system includes at least two calibration boards, each having a first edge and a second edge. There is a controller coupled to the lidar sensor to cause the lidar sensor to direct a lidar scan at the calibration boards. The controller causes the lidar sensor to receive a reflection of the lidar scan from the calibration boards and determine locations of a first crossing point on the first edge and a second crossing point on the second edge of the calibration boards. The controller determines a reference plane defined by the first and second crossing points of each of the calibration boards, performs a plane transform of the reference frame to obtain a lidar sensor plane and determine from the lidar sensor plane a pose of the lidar sensor.

Classes IPC  ?

• G01S 7/497 - Moyens de contrôle ou de calibrage
• G01S 17/931 - Systèmes lidar, spécialement adaptés pour des applications spécifiques pour prévenir les collisions de véhicules terrestres

Abrégé

A system for determining pose of a lidar sensor in an environment in order to calibrate the lidar sensor. The system includes at least two calibration boards, each having a first edge and a second edge. There is a controller coupled to the lidar sensor to cause the lidar sensor to direct a lidar scan at the calibration boards. The controller causes the lidar sensor to receive a reflection of the lidar scan from the calibration boards and determine locations of a first crossing point on the first edge and a second crossing point on the second edge of the calibration boards. The controller determines a reference plane defined by the first and second crossing points of each of the calibration boards, performs a plane transform of the reference frame to obtain a lidar sensor plane and determine from the lidar sensor plane a pose of the lidar sensor.

Classes IPC  ?

• G01S 7/497 - Moyens de contrôle ou de calibrage
• G01S 17/42 - Mesure simultanée de la distance et d'autres coordonnées
• G01S 7/48 - Détails des systèmes correspondant aux groupes , , de systèmes selon le groupe

Abrégé

A method for rolling shutter compensation for a camera sensor mounted on a moving vehicle includes estimating, based on a plurality of images of an object, a speed and a direction of movement of the vehicle; acquiring an additional image of the object having four corners; estimating a location of each of the four corners of the object in an image plane defined by the additional image; determining a corrected location in 3D space for each of the four corners of the object; determining a first compensated location for each of the four corners of the object in the image plane; determining a second compensated location for each of the four corners of the object in the image plane; and determining a difference between the first compensated locations of the four corners of the object and the second compensated locations of the four corners of the object.

Classes IPC  ?

• H04N 5/232 - Dispositifs pour la commande des caméras de télévision, p.ex. commande à distance
• G06T 1/00 - Traitement de données d'image, d'application générale
• G06T 7/579 - Récupération de la profondeur ou de la forme à partir de plusieurs images à partir du mouvement

Produits et services

Automated material handling system consisting primarily of industrial robots embedded with operating software and also including cameras and sensors, and the system also includes recorded computer software and computer hardware, all for order processing and fulfillment, material handling, and mechanized automation at distribution warehouses and manufacturing facilities Automated material handling system consisting primarily of recorded computer software and computer hardware, and also including industrial robots embedded with operating software, cameras and sensors, all for order processing and fulfillment, material handling, and mechanized automation at distribution warehouses and manufacturing facilities

Produits et services

Automated material handling system consisting primarily of industrial robots embedded with operating software and also including cameras and sensors, and the system also includes recorded computer software and computer hardware, all for order processing and fulfillment, material handling, and mechanized automation at distribution warehouses and manufacturing facilities Automated material handling system consisting primarily of recorded computer software and computer hardware, and also including industrial robots embedded with operating software, cameras and sensors, all for order processing and fulfillment, material handling, and mechanized automation at distribution warehouses and manufacturing facilities

Produits et services

Automated material handling system consisting primarily of industrial robots embedded with operating software and also including cameras and sensors, and the system also includes recorded computer software and computer hardware, all for order processing and fulfillment, material handling, and mechanized automation at distribution warehouses and manufacturing facilities Automated material handling system consisting primarily of recorded computer software and computer hardware, and also including industrial robots embedded with operating software, cameras and sensors, all for order processing and fulfillment, material handling, and mechanized automation at distribution warehouses and manufacturing facilities

Abrégé

A method for rolling shutter compensation for a camera sensor mounted on a moving vehicle includes estimating, based on a plurality of images of an object, a speed and a direction of movement of the vehicle; acquiring an additional image of the object having four corners; estimating a location of each of the four corners of the object in an image plane defined by the additional image; determining a corrected location in 3D space for each of the four corners of the object; determining a first compensated location for each of the four corners of the object in the image plane; determining a second compensated location for each of the four corners of the object in the image plane; and determining a difference between the first compensated locations of the four corners of the object and the second compensated locations of the four corners of the object.

Classes IPC  ?

• H04N 5/232 - Dispositifs pour la commande des caméras de télévision, p.ex. commande à distance
• B60R 1/00 - Dispositions pour la visibilité optiqueDispositions de visualisation en temps réel pour les conducteurs ou les passagers utilisant des systèmes de capture d’images optiques, p. ex. des caméras ou des systèmes vidéo spécialement adaptés pour être utilisés dans ou sur des véhicules
• B25J 19/02 - Dispositifs sensibles
• B25J 9/16 - Commandes à programme
• G06T 3/00 - Transformations géométriques de l'image dans le plan de l'image
• G06T 1/00 - Traitement de données d'image, d'application générale
• B60R 11/04 - Montage des caméras pour fonctionner pendant la marcheDisposition de leur commande par rapport au véhicule

Abrégé

Systems and methods for presorting and executing robot-assisted putaway tasks in a navigational space include assigning each of a plurality of item storage arrays to one of a plurality of zones defined within the navigational space, scanning an item identifier of at least one of a plurality of unsorted items to be stored at locations throughout the warehouse, retrieving, in response to receiving identifying information corresponding to the at least one scanned unsorted item, item data describing a storage location for putaway within the warehouse of each of the at least one scanned items, determining, from the storage location, a corresponding one of the plurality of zones of the warehouse in which the storage location is located, and placing each scanned unsorted item into an interconnected container of one of the item storage arrays assigned to the corresponding one of the zones.

Classes IPC  ?

• B25J 13/08 - Commandes pour manipulateurs au moyens de dispositifs sensibles, p. ex. à la vue ou au toucher
• B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
• G06Q 10/0631 - Planification, affectation, distribution ou ordonnancement de ressources d’entreprises ou d’organisations
• G06Q 10/087 - Gestion d’inventaires ou de stocks, p. ex. exécution des commandes, approvisionnement ou régularisation par rapport aux commandes

Abrégé

A method for executing orders assigned to a plurality of robots operating in a warehouse, including receiving an order with a plurality of items, each item associated with an item location. The method includes defining a plurality of regions and identifying the regions which include at least one item location associated with the order received by the robot. The method also includes determining, from the regions identified, which regions which include at least one operator and assessing criteria relating to a current location of the robot and to the item locations associated with the regions having at least one operator. The method further includes selecting an item location to which the robot is to navigate from a current location based on an assessment of criteria relating to the current location of the robot and to the item locations associated with the regions in which are located at least one operator.

Classes IPC  ?

• G06F 7/00 - Procédés ou dispositions pour le traitement de données en agissant sur l'ordre ou le contenu des données maniées
• G06Q 50/28 - Logistique, p.ex. stockage, chargement, distribution ou expédition
• B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions
• G06Q 10/0631 - Planification, affectation, distribution ou ordonnancement de ressources d’entreprises ou d’organisations
• G06Q 10/20 - Administration de la réparation ou de la maintenance des produits

Abrégé

Processes are provided for dynamically sorting and storing items in a warehouse without the need for presorting items and without delaying or negatively impacting the efficiency of operators in the warehouse. Items are individually scanned and placed in totes of a tote-array provided on a mobile robot. An optimized route is calculated based on the items in the tote-array, and the robot navigates to a first location on the route. When the item has been put away, a replacement item is placed in the just-emptied tote of the tote-array, and an updated route is calculated. A robot capable of navigating to predefined locations for storing items is a warehouse is provided.

Classes IPC  ?

• B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
• B65G 1/04 - Dispositifs d'emmagasinage mécaniques
• B65G 1/06 - Dispositifs d'emmagasinage mécaniques avec des moyens pour que les objets se présentent à l'enlèvement dans des positions ou à des niveaux prédéterminés
• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions

Abrégé

Systems and methods for presorting and executing robot-assisted putaway tasks in a navigational space include assigning each of a plurality of item storage arrays to one of a plurality of zones defined within the navigational space, scanning an item identifier of at least one of a plurality of unsorted items to be stored at locations throughout the warehouse, retrieving, in response to receiving identifying information corresponding to the at least one scanned unsorted item, item data describing a storage location for putaway within the warehouse of each of the at least one scanned items, determining, from the storage location, a corresponding one of the plurality of zones of the warehouse in which the storage location is located, and placing each scanned unsorted item into an interconnected container of one of the item storage arrays assigned to the corresponding one of the zones.

Classes IPC  ?

• G06Q 10/00 - AdministrationGestion
• G06Q 10/08 - Logistique, p. ex. entreposage, chargement ou distributionGestion d’inventaires ou de stocks
• G06Q 50/28 - Logistique, p.ex. stockage, chargement, distribution ou expédition

Abrégé

Systems and methods are provided for robot navigation management including a server configured to define a first zone and a second, adjacent zone within an environment, a threshold along a border between the first and second zones, and a waypoint associated with the threshold. One or more autonomous robots in communication with the server are configured to determine a route from the first zone to the second zone crossing the threshold, the route including a waypoint; and navigate the robot along the route from the first zone to the second zone, including traversing the waypoint in conjunction with crossing the threshold.

Classes IPC  ?

• G05D 1/225 - Dispositions de commande à distance actionnées par des ordinateurs externes
• G05D 1/229 - Données d’entrée de commande, p. ex. points de passage
• G05D 1/639 - Résorption ou évitement de situations de blocage ou d’obstruction

Abrégé

A method for executing orders assigned to a plurality of robots operating in a warehouse, including receiving an order with a plurality of items, each item associated with an item location. The method includes defining a plurality of regions and identifying the regions which include at least one item location associated with the order received by the robot. The method also includes determining, from the regions identified, which regions which include at least one operator and assessing criteria relating to a current location of the robot and to the item locations associated with the regions having at least one operator. The method further includes selecting an item location to which the robot is to navigate from a current location based on an assessment of criteria relating to the current location of the robot and to the item locations associated with the regions in which are located at least one operator.

Classes IPC  ?

• G06Q 10/00 - AdministrationGestion
• G06Q 10/06 - Ressources, gestion de tâches, des ressources humaines ou de projetsPlanification d’entreprise ou d’organisationModélisation d’entreprise ou d’organisation
• G06Q 10/08 - Logistique, p. ex. entreposage, chargement ou distributionGestion d’inventaires ou de stocks

Abrégé

Processes are provided for dynamically sorting and storing items in a warehouse without the need for presorting items and without delaying or negatively impacting the efficiency of operators in the warehouse. Items are individually scanned and placed in totes of a tote-array provided on a mobile robot. An optimized route is calculated based on the items in the tote-array, and the robot navigates to a first location on the route. When the item has been put away, a replacement item is placed in the just-emptied tote of the tote-array, and an updated route is calculated. A robot capable of navigating to predefined locations for storing items is a warehouse is provided.

Classes IPC  ?

• G06Q 10/08 - Logistique, p. ex. entreposage, chargement ou distributionGestion d’inventaires ou de stocks

Abrégé

Systems and methods are provided for robot navigation management including a server configured to define a first zone and a second, adjacent zone within an environment, a threshold along a border between the first and second zones, and a waypoint associated with the threshold. One or more autonomous robots in communication with the server are configured to determine a route from the first zone to the second zone crossing the threshold, the route including a waypoint; and navigate the robot along the route from the first zone to the second zone, including traversing the waypoint in conjunction with crossing the threshold.

Classes IPC  ?

• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions
• B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés

Abrégé

Systems and methods for presorting and executing robot-assisted putaway tasks in a navigational space include assigning each of a plurality of item storage arrays to one of a plurality of zones defined within the navigational space, scanning an item identifier of at least one of a plurality of unsorted items to be stored at locations throughout the warehouse, retrieving, in response to receiving identifying information corresponding to the at least one scanned unsorted item, item data describing a storage location for putaway within the warehouse of each of the at least one scanned items, determining, from the storage location, a corresponding one of the plurality of zones of the warehouse in which the storage location is located, and placing each scanned unsorted item into an interconnected container of one of the item storage arrays assigned to the corresponding one of the zones.

Classes IPC  ?

• B25J 9/00 - Manipulateurs à commande programmée
• B25J 9/16 - Commandes à programme
• B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
• B25J 13/08 - Commandes pour manipulateurs au moyens de dispositifs sensibles, p. ex. à la vue ou au toucher

Abrégé

A method for executing orders assigned to a plurality of robots operating in a warehouse, including receiving an order with a plurality of items, each item associated with an item location. The method includes defining a plurality of regions and identifying the regions which include at least one item location associated with the order received by the robot. The method also includes determining, from the regions identified, which regions which include at least one operator and assessing criteria relating to a current location of the robot and to the item locations associated with the regions having at least one operator. The method further includes selecting an item location to which the robot is to navigate from a current location based on an assessment of criteria relating to the current location of the robot and to the item locations associated with the regions in which are located at least one operator.

Classes IPC  ?

• G06Q 10/00 - AdministrationGestion
• G06Q 10/06 - Ressources, gestion de tâches, des ressources humaines ou de projetsPlanification d’entreprise ou d’organisationModélisation d’entreprise ou d’organisation
• G06Q 10/08 - Logistique, p. ex. entreposage, chargement ou distributionGestion d’inventaires ou de stocks

Abrégé

Systems and methods are provided for robot navigation management including a server configured to define a first zone and a second, adjacent zone within an environment, a threshold along a border between the first and second zones, and a waypoint associated with the threshold. One or more autonomous robots in communication with the server are configured to determine a route from the first zone to the second zone crossing the threshold, the route including a waypoint; and navigate the robot along the route from the first zone to the second zone, including traversing the waypoint in conjunction with crossing the threshold.

Classes IPC  ?

• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions

Abrégé

Processes are provided for dynamically sorting and storing items in a warehouse without the need for presorting items and without delaying or negatively impacting the efficiency of operators in the warehouse. Items are individually scanned and placed in totes of a tote-array provided on a mobile robot. An optimized route is calculated based on the items in the tote-array, and the robot navigates to a first location on the route. When the item has been put away, a replacement item is placed in the just-emptied tote of the tote-array, and an updated route is calculated. A robot capable of navigating to predefined locations for storing items is a warehouse is provided.

Classes IPC  ?

• G06Q 10/08 - Logistique, p. ex. entreposage, chargement ou distributionGestion d’inventaires ou de stocks

Abrégé

A method for predicting a collision between a mobile robot and an obstacle in an environment includes obtaining laser scan data for the mobile robot at a current location in the environment. The method also includes predicting a future location of the mobile robot in the environment and producing predicted laser scan data corresponding to the future location of the mobile robot in the environment. The method further includes assessing the predicted laser scan data relative to the mobile robot at the current location to determine whether a collision with an obstacle is predicted.

Classes IPC  ?

• B25J 9/16 - Commandes à programme
• B60R 21/013 - Circuits électriques pour déclencher le fonctionnement des dispositions de sécurité en cas d'accident, ou d'accident imminent, de véhicule comportant des moyens pour détecter les collisions, les collisions imminentes ou un renversement
• G01S 17/931 - Systèmes lidar, spécialement adaptés pour des applications spécifiques pour prévenir les collisions de véhicules terrestres
• G05D 1/242 - Moyens basés sur la réflexion des ondes générées par le véhicule
• G05D 1/43 - Commande de la position ou du cap par référence à un système à deux dimensions
• G05D 1/622 - Évitement d’obstacles
• G05D 1/646 - Suivi d’une trajectoire prédéfinie, p. ex. d’une ligne marquée sur le sol ou d’une trajectoire de vol
• G05D 1/648 - Exécution d’une tâche au sein d’une zone ou d’un espace de travail, p. ex. nettoyage
• G05D 1/65 - Suivi d’un profil de vitesse souhaité
• G05D 1/667 - Livraison ou récupération de charges utiles

Abrégé

A method for predicting a collision between a mobile robot and an obstacle in an environment includes obtaining laser scan data for the mobile robot at a current location in the environment. The method also includes predicting a future location of the mobile robot in the environment and producing predicted laser scan data corresponding to the future location of the mobile robot in the environment. The method further includes assessing the predicted laser scan data relative to the mobile robot at the current location to determine whether a collision with an obstacle is predicted.

Classes IPC  ?

• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions

Abrégé

A method for predicting a collision between a mobile robot and an obstacle in an environment includes obtaining laser scan data for the mobile robot at a current location in the environment. The method also includes predicting a future location of the mobile robot in the environment and producing predicted laser scan data corresponding to the future location of the mobile robot in the environment. The method further includes assessing the predicted laser scan data relative to the mobile robot at the current location to determine whether a collision with an obstacle is predicted.

Classes IPC  ?

• G01S 17/931 - Systèmes lidar, spécialement adaptés pour des applications spécifiques pour prévenir les collisions de véhicules terrestres
• B60R 21/013 - Circuits électriques pour déclencher le fonctionnement des dispositions de sécurité en cas d'accident, ou d'accident imminent, de véhicule comportant des moyens pour détecter les collisions, les collisions imminentes ou un renversement
• G01S 17/89 - Systèmes lidar, spécialement adaptés pour des applications spécifiques pour la cartographie ou l'imagerie
• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions

Produits et services

Charitable services, namely, academic and employment mentoring in the fields of science, technology, engineering and math (STEM), specifically in the field of robotics; charitable services, namely, providing training in the fields of science, technology, engineering and math (STEM), specifically robotics; charitable education services, namely, providing workshops and courses in the fields of science, technology, engineering and math (STEM), specifically robotics

Abrégé

A docking station for charging a robot including an electrical charger assembly affixed to the charger docking station and configured to mate with an electrical charging port on the robot when the robot is docked at the docking station for charging. There is at least one compliant member interconnecting the electrical charger assembly to a portion of the docking station to allow movement of the electrical charger assembly relative to the electrical charging port on the robot when the robot is mating with the docking station.

Classes IPC  ?

• H02J 7/00 - Circuits pour la charge ou la dépolarisation des batteries ou pour alimenter des charges par des batteries
• B60L 53/35 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules
• H01R 13/05 - Fiches ou lames élastiques
• H01R 13/62 - Moyens pour faciliter l'engagement ou la séparation des pièces de couplage ou pour les maintenir engagées

Abrégé

A method for assigning orders to a plurality of robots fulfilling orders in a warehouse with the assistance of a plurality of operators. The method includes providing a first robot of the plurality of robots to a be assigned an order set, including one or more orders to be fulfilled and assessing the locations of at least one of the plurality of robots or at least one of the plurality of operators in the warehouse. The method also includes selecting an anchor location in the warehouse and generating an order set for the first robot correlated to the anchor location in the warehouse. The method also includes assigning the order set to the first robot for fulfillment.

Classes IPC  ?

• B25J 5/00 - Manipulateurs montés sur roues ou sur support mobile
• B25J 9/18 - Commandes à programme électriques
• B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
• G06Q 10/087 - Gestion d’inventaires ou de stocks, p. ex. exécution des commandes, approvisionnement ou régularisation par rapport aux commandes

Abrégé

Systems and methods for robot assisted personnel routing including a plurality of autonomous robots operating within a navigational space, each robot including a processor and a memory storing instructions that, when executed by the processor, cause the autonomous robot to detect completion of a task operation by a human operator, receive status information corresponding to at least one other robot, the status information including at least one of a location or a wait time associated with the other robot, determine, from the status information, at least one next task recommendation for directing the human operator to a next robot for a next task operation, and render, on a display of the robot, the at least one next task recommendation for viewing by the human operator, the next task recommendation including a location of the next robot corresponding to the next task.

Classes IPC  ?

• B25J 5/00 - Manipulateurs montés sur roues ou sur support mobile
• B25J 9/18 - Commandes à programme électriques
• G06F 3/0481 - Techniques d’interaction fondées sur les interfaces utilisateur graphiques [GUI] fondées sur des propriétés spécifiques de l’objet d’interaction affiché ou sur un environnement basé sur les métaphores, p. ex. interaction avec des éléments du bureau telles les fenêtres ou les icônes, ou avec l’aide d’un curseur changeant de comportement ou d’aspect
• G06Q 10/087 - Gestion d’inventaires ou de stocks, p. ex. exécution des commandes, approvisionnement ou régularisation par rapport aux commandes
• H04L 65/40 - Prise en charge des services ou des applications

Abrégé

Systems and methods for robot assisted personnel routing including a plurality of autonomous robots operating within a navigational space, each robot including a processor and a memory storing instructions that, when executed by the processor, cause the autonomous robot to detect completion of a task operation by a human operator, receive status information corresponding to at least one other robot, the status information including at least one of a location or a wait time associated with the other robot, determine, from the status information, at least one next task recommendation for directing the human operator to a next robot for a next task operation, and render, on a display of the robot, the at least one next task recommendation for viewing by the human operator, the next task recommendation including a location of the next robot corresponding to the next task.

Classes IPC  ?

• B25J 13/06 - Postes de commande, p. ex. pupitres, tableaux de contrôle
• B25J 9/00 - Manipulateurs à commande programmée
• B25J 9/16 - Commandes à programme

Abrégé

Systems and methods are provided for robot congestion management including a robot monitoring server configured to track a location of a plurality of robots within a navigational space and a plurality of robots in communication with the robot monitoring server, each robot including a processor and a memory, the memory storing instructions that, when executed by the processor, cause the autonomous robot to determine, from a task list assigned to the robot, a first pose location corresponding to a first task, receive, from the robot monitoring server, congestion information associated with the first pose location, identify a congested state of the first pose location indicated by the congestion information, select, responsive to the identification of the congested state, a second task from the task list, and navigate to a second pose location corresponding to the second task.

Classes IPC  ?

• B25J 9/16 - Commandes à programme
• B25J 9/00 - Manipulateurs à commande programmée

Abrégé

A method for recommending a tote type for an operator to select for use in robot induction process, wherein the robot operates under the control of a warehouse management system to fulfill orders, each order including one or more items and each item being located in a warehouse. The method includes grouping one or more orders from an order queue to form at least one order set. The method also includes identifying, based on a characteristic of the at least one order set, a preferred tote type to be assigned to the robot to carry the order set on the robot. The method further includes communicating to an operator the preferred tote type to enable the operator to select from a plurality of totes a tote of the preferred tote type to assign to the robot for execution of the order.

Classes IPC  ?

• G06Q 10/00 - AdministrationGestion
• G06Q 10/08 - Logistique, p. ex. entreposage, chargement ou distributionGestion d’inventaires ou de stocks

Abrégé

A method for assigning orders to a plurality of robots fulfilling orders in a warehouse with the assistance of a plurality of operators. The method includes providing a first robot of the plurality of robots to a be assigned an order set, including one or more orders to be fulfilled and assessing the locations of at least one of the plurality of robots or at least one of the plurality of operators in the warehouse. The method also includes selecting an anchor location in the warehouse and generating an order set for the first robot correlated to the anchor location in the warehouse. The method also includes assigning the order set to the first robot for fulfillment.

Classes IPC  ?

• G06Q 10/08 - Logistique, p. ex. entreposage, chargement ou distributionGestion d’inventaires ou de stocks
• G06Q 50/28 - Logistique, p.ex. stockage, chargement, distribution ou expédition

Abrégé

Systems and methods are provided for robot congestion management including a robot monitoring server configured to track a location of a plurality of robots within a navigational space and a plurality of robots in communication with the robot monitoring server, each robot including a processor and a memory, the memory storing instructions that, when executed by the processor, cause the autonomous robot to determine, from a task list assigned to the robot, a first pose location corresponding to a first task, receive, from the robot monitoring server, congestion information associated with the first pose location, identify a congested state of the first pose location indicated by the congestion information, select, responsive to the identification of the congested state, a second task from the task list, and navigate to a second pose location corresponding to the second task.

Classes IPC  ?

• G06Q 10/08 - Logistique, p. ex. entreposage, chargement ou distributionGestion d’inventaires ou de stocks
• G06Q 50/28 - Logistique, p.ex. stockage, chargement, distribution ou expédition

Abrégé

A method for recommending a tote type for an operator to select for use in robot induction process, wherein the robot operates under the control of a warehouse management system to fulfill orders, each order including one or more items and each item being located in a warehouse. The method includes grouping one or more orders from an order queue to form at least one order set. The method also includes identifying, based on a characteristic of the at least one order set, a preferred tote type to be assigned to the robot to carry the order set on the robot. The method further includes communicating to an operator the preferred tote type to enable the operator to select from a plurality of totes a tote of the preferred tote type to assign to the robot for execution of the order.

Classes IPC  ?

• B25J 9/18 - Commandes à programme électriques
• B25J 11/00 - Manipulateurs non prévus ailleurs
• B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
• G06Q 10/087 - Gestion d’inventaires ou de stocks, p. ex. exécution des commandes, approvisionnement ou régularisation par rapport aux commandes

Abrégé

A method for executing an order with a plurality of items assigned to a first robot of a plurality of robots operating in a warehouse with the assistance of a plurality of operators. The method includes navigating the first robot to a first location in the warehouse proximate a location of a first item in the order and pausing for an operator of to assist the first robot to execute a function. The method includes determining if the first robot has been paused for greater than a maximum dwell time without being assisted by an operator. If it has been, the method causes the first robot to leave the first location without completing the function on the first item and causing the first robot to proceed to a second location proximate a storage a second item to execute a function.

Classes IPC  ?

• G06Q 10/087 - Gestion d’inventaires ou de stocks, p. ex. exécution des commandes, approvisionnement ou régularisation par rapport aux commandes

Abrégé

Systems and methods are provided for robot congestion management including a robot monitoring server configured to track a location of a plurality of robots within a navigational space and a plurality of robots in communication with the robot monitoring server, each robot including a processor and a memory, the memory storing instructions that, when executed by the processor, cause the autonomous robot to determine, from a task list assigned to the robot, a first pose location corresponding to a first task, receive, from the robot monitoring server, congestion information associated with the first pose location, identify a congested state of the first pose location indicated by the congestion information, select, responsive to the identification of the congested state, a second task from the task list, and navigate to a second pose location corresponding to the second task.

Classes IPC  ?

• B25J 5/00 - Manipulateurs montés sur roues ou sur support mobile
• B25J 9/18 - Commandes à programme électriques
• G06Q 10/087 - Gestion d’inventaires ou de stocks, p. ex. exécution des commandes, approvisionnement ou régularisation par rapport aux commandes
• G08G 9/00 - Systèmes de commande du trafic de véhicules, dans lesquels le type de véhicule est sans importance ou d'un type non spécifié
• H04L 65/40 - Prise en charge des services ou des applications

Abrégé

Systems and methods for proximate robot object detection and avoidance are provided herein which include a receiver in electronic communication with an autonomous robot and configured to receive a broadcast message from a beacon, a processor, and a memory, the memory storing instructions that, when executed by the processor, cause the autonomous robot to detect, based on the received broadcast message, a proximity of the beacon to the autonomous robot, determine, from the received broadcast message, a beacon status, the beacon status indicating whether the beacon is stationary, approaching the autonomous robot, or withdrawing from the autonomous robot, identify, according to the detected proximity and the determined beacon status, a corresponding proximity operation, and control the autonomous robot to stop an ordinary operation and operate according to the identified proximity operation.

Classes IPC  ?

• G05D 1/246 - Dispositions pour déterminer la position ou l’orientation utilisant des cartes d’environnement, p. ex. localisation et cartographie simultanées [SLAM]
• G05D 1/247 - Dispositions pour déterminer la position ou l’orientation utilisant des signaux fournis par des sources artificielles extérieures au véhicule, p. ex. balises de navigation
• G05D 1/622 - Évitement d’obstacles
• G05D 1/65 - Suivi d’un profil de vitesse souhaité
• G05D 1/661 - Amarrage à une station de base
• G05D 1/667 - Livraison ou récupération de charges utiles

Abrégé

Systems and methods for proximate robot object detection and avoidance are provided herein which include a receiver in electronic communication with an autonomous robot and configured to receive a broadcast message from a beacon, a processor, and a memory, the memory storing instructions that, when executed by the processor, cause the autonomous robot to detect, based on the received broadcast message, a proximity of the beacon to the autonomous robot, determine, from the received broadcast message, a beacon status, the beacon status indicating whether the beacon is stationary, approaching the autonomous robot, or withdrawing from the autonomous robot, identify, according to the detected proximity and the determined beacon status, a corresponding proximity operation, and control the autonomous robot to stop an ordinary operation and operate according to the identified proximity operation.

Classes IPC  ?

• B25J 9/16 - Commandes à programme
• B25J 5/00 - Manipulateurs montés sur roues ou sur support mobile
• B66F 9/06 - Dispositifs pour lever ou descendre des marchandises volumineuses ou lourdes aux fins de chargement ou de déchargement se déplaçant, avec leurs charges, sur des roues ou sur un dispositif analogue, p. ex. chariots élévateurs à fourche

Abrégé

A method for executing an order with a plurality of items assigned to a first robot of a plurality of robots operating in a warehouse with the assistance of a plurality of operators. The method includes navigating the first robot to a first location in the warehouse proximate a location of a first item in the order and pausing for an operator of to assist the first robot to execute a function. The method includes determining if the first robot has been paused for greater than a maximum dwell time without being assisted by an operator. If it has been, the method causes the first robot to leave the first location without completing the function on the first item and causing the first robot to proceed to a second location proximate a storage a second item to execute a function.

Classes IPC  ?

• G06Q 10/00 - AdministrationGestion

Abrégé

Systems and methods for robot assisted personnel routing including a plurality of autonomous robots operating within a navigational space, each robot including a processor and a memory storing instructions that, when executed by the processor, cause the autonomous robot to detect completion of a task operation by a human operator, receive status information corresponding to at least one other robot, the status information including at least one of a location or a wait time associated with the other robot, determine, from the status information, at least one next task recommendation for directing the human operator to a next robot for a next task operation, and render, on a display of the robot, the at least one next task recommendation for viewing by the human operator, the next task recommendation including a location of the next robot corresponding to the next task.

Classes IPC  ?

• G06Q 10/08 - Logistique, p. ex. entreposage, chargement ou distributionGestion d’inventaires ou de stocks
• G06Q 50/28 - Logistique, p.ex. stockage, chargement, distribution ou expédition

Abrégé

Systems and methods for proximate robot object detection and avoidance are provided herein which include a receiver in electronic communication with an autonomous robot and configured to receive a broadcast message from a beacon, a processor, and a memory, the memory storing instructions that, when executed by the processor, cause the autonomous robot to detect, based on the received broadcast message, a proximity of the beacon to the autonomous robot, determine, from the received broadcast message, a beacon status, the beacon status indicating whether the beacon is stationary, approaching the autonomous robot, or withdrawing from the autonomous robot, identify, according to the detected proximity and the determined beacon status, a corresponding proximity operation, and control the autonomous robot to stop an ordinary operation and operate according to the identified proximity operation.

Classes IPC  ?

• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions

Abrégé

Methods and systems are provided for improving operator performance by robot gamification, the method including parking a robot at a pose location within a navigational space, identifying, by a sensor in electronic communication with an interactive display device, an operator located within a zone proximate the robot for acquiring an item to be picked, receiving, at the interactive display device, operator performance data associated with the acquiring of the item, and rendering, on the interactive display device in response to the received operator performance data, at least one graphic representation of operator achievement within a gamified performance tracking environment.

Classes IPC  ?

• G06Q 10/0639 - Analyse des performances des employésAnalyse des performances des opérations d’une entreprise ou d’une organisation
• G06Q 10/087 - Gestion d’inventaires ou de stocks, p. ex. exécution des commandes, approvisionnement ou régularisation par rapport aux commandes
• G06V 40/10 - Corps d’êtres humains ou d’animaux, p. ex. occupants de véhicules automobiles ou piétonsParties du corps, p. ex. mains

Abrégé

A method for assigning orders to a plurality of robots fulfilling orders in a warehouse with the assistance of a plurality of operators. The method includes providing a first robot of the plurality of robots to a be assigned an order set, including one or more orders to be fulfilled and assessing the locations of at least one of the plurality of robots or at least one of the plurality of operators in the warehouse. The method also includes selecting an anchor location in the warehouse and generating an order set for the first robot correlated to the anchor location in the warehouse. The method also includes assigning the order set to the first robot for fulfillment.

Classes IPC  ?

• B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
• G06Q 10/08 - Logistique, p. ex. entreposage, chargement ou distributionGestion d’inventaires ou de stocks
• B25J 5/00 - Manipulateurs montés sur roues ou sur support mobile
• B25J 9/16 - Commandes à programme
• B65G 1/04 - Dispositifs d'emmagasinage mécaniques
• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions
• G05B 19/418 - Commande totale d'usine, c.-à-d. commande centralisée de plusieurs machines, p. ex. commande numérique directe ou distribuée [DNC], systèmes d'ateliers flexibles [FMS], systèmes de fabrication intégrés [IMS], productique [CIM]

Abrégé

A method for recommending a tote type for an operator to select for use in robot induction process, wherein the robot operates under the control of a warehouse management system to fulfill orders, each order including one or more items and each item being located in a warehouse. The method includes grouping one or more orders from an order queue to form at least one order set. The method also includes identifying, based on a characteristic of the at least one order set, a preferred tote type to be assigned to the robot to carry the order set on the robot. The method further includes communicating to an operator the preferred tote type to enable the operator to select from a plurality of totes a tote of the preferred tote type to assign to the robot for execution of the order.

Classes IPC  ?

• B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
• G05D 1/00 - Commande de la position, du cap, de l'altitude ou de l'attitude des véhicules terrestres, aquatiques, aériens ou spatiaux, p. ex. utilisant des pilotes automatiques
• G06Q 10/08 - Logistique, p. ex. entreposage, chargement ou distributionGestion d’inventaires ou de stocks

Abrégé

Methods and systems are provided for improving operator performance by robot gamification, the method including parking a robot at a pose location within a navigational space, identifying, by a sensor in electronic communication with an interactive display device, an operator located within a zone proximate the robot for acquiring an item to be picked, receiving, at the interactive display device, operator performance data associated with the acquiring of the item, and rendering, on the interactive display device in response to the received operator performance data, at least one graphic representation of operator achievement within a gamified performance tracking environment.

Classes IPC  ?

• G06Q 10/06 - Ressources, gestion de tâches, des ressources humaines ou de projetsPlanification d’entreprise ou d’organisationModélisation d’entreprise ou d’organisation

Abrégé

A method for executing an order with a plurality of items assigned to a first robot of a plurality of robots operating in a warehouse with the assistance of a plurality of operators. The method includes navigating the first robot to a first location in the warehouse proximate a location of a first item in the order and pausing for an operator of to assist the first robot to execute a function. The method includes determining if the first robot has been paused for greater than a maximum dwell time without being assisted by an operator. If it has been, the method causes the first robot to leave the first location without completing the function on the first item and causing the first robot to proceed to a second location proximate a storage a second item to execute a function.

Classes IPC  ?

• B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
• G06Q 10/08 - Logistique, p. ex. entreposage, chargement ou distributionGestion d’inventaires ou de stocks
• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions
• B25J 9/16 - Commandes à programme

Abrégé

A method for customer assisted robot picking includes navigating a robot to a pose location within a retail space in proximity to an item to be picked, the retail space having items for purchase by customers, the robot identifying, by a sensor in communication with the robot, a customer located within a zone proximate the robot, communicating to the customer information identifying the item to be picked, detecting presentation of the item by the customer for identification, and updating customer performance data stored in a customer account to include data corresponding to picking of the item by the customer.

Classes IPC  ?

• G06Q 10/0639 - Analyse des performances des employésAnalyse des performances des opérations d’une entreprise ou d’une organisation
• G06Q 10/083 - Expédition
• G06Q 10/087 - Gestion d’inventaires ou de stocks, p. ex. exécution des commandes, approvisionnement ou régularisation par rapport aux commandes
• G06Q 30/0208 - Commerce ou échange de biens ou de services contre des incitations ou des récompenses

Abrégé

A method for customer assisted robot picking includes navigating a robot to a pose location within a retail space in proximity to an item to be picked, the retail space having items for purchase by customers, the robot identifying, by a sensor in communication with the robot, a customer located within a zone proximate the robot, communicating to the customer information identifying the item to be picked, detecting presentation of the item by the customer for identification, and updating customer performance data stored in a customer account to include data corresponding to picking of the item by the customer.

Classes IPC  ?

• G06Q 10/06 - Ressources, gestion de tâches, des ressources humaines ou de projetsPlanification d’entreprise ou d’organisationModélisation d’entreprise ou d’organisation
• G06Q 10/08 - Logistique, p. ex. entreposage, chargement ou distributionGestion d’inventaires ou de stocks
• G06Q 30/02 - MarketingEstimation ou détermination des prixCollecte de fonds
• G06Q 50/28 - Logistique, p.ex. stockage, chargement, distribution ou expédition

Abrégé

A method for customer assisted robot picking includes navigating a robot to a pose location within a retail space in proximity to an item to be picked, the retail space having items for purchase by customers, the robot identifying, by a sensor in communication with the robot, a customer located within a zone proximate the robot, communicating to the customer information identifying the item to be picked, detecting presentation of the item by the customer for identification, and updating customer performance data stored in a customer account to include data corresponding to picking of the item by the customer.

Classes IPC  ?

• G06K 15/00 - Dispositions pour produire une présentation visuelle permanente des données de sortie
• G06Q 30/06 - Transactions d’achat, de vente ou de crédit-bail
• B25J 11/00 - Manipulateurs non prévus ailleurs
• G06K 9/00 - Méthodes ou dispositions pour la lecture ou la reconnaissance de caractères imprimés ou écrits ou pour la reconnaissance de formes, p.ex. d'empreintes digitales
• G06K 19/077 - Détails de structure, p. ex. montage de circuits dans le support
• G06Q 10/08 - Logistique, p. ex. entreposage, chargement ou distributionGestion d’inventaires ou de stocks
• G06Q 30/02 - MarketingEstimation ou détermination des prixCollecte de fonds

Abrégé

Systems and methods for contextually mapping zones within a space for regulating robotic navigation within the space include defining, by at least one fiducial marker positioned within the space, a zone within the space, associating a rule with the zone, the rule at least partially dictating operation of one or more robots within the zone, and operating the one or more robots within the zone consistent with the rule.

Classes IPC  ?

• G05D 1/225 - Dispositions de commande à distance actionnées par des ordinateurs externes
• G05D 1/244 - Dispositions pour déterminer la position ou l’orientation utilisant des aides à la navigation passive extérieures au véhicule, p. ex. marqueurs, réflecteurs ou moyens magnétiques
• G06Q 10/087 - Gestion d’inventaires ou de stocks, p. ex. exécution des commandes, approvisionnement ou régularisation par rapport aux commandes

Abrégé

Systems and methods for contextually mapping zones within a space for regulating robotic navigation within the space include defining, by at least one fiducial marker positioned within the space, a zone within the space, associating a rule with the zone, the rule at least partially dictating operation of one or more robots within the zone, and operating the one or more robots within the zone consistent with the rule.

Classes IPC  ?

• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions
• G06Q 10/00 - AdministrationGestion

Abrégé

Systems and methods for contextually mapping zones within a space for regulating robotic navigation within the space include defining, by at least one fiducial marker positioned within the space, a zone within the space, associating a rule with the zone, the rule at least partially dictating operation of one or more robots within the zone, and operating the one or more robots within the zone consistent with the rule.

Classes IPC  ?

• G01C 21/20 - Instruments pour effectuer des calculs de navigation
• G05D 1/00 - Commande de la position, du cap, de l'altitude ou de l'attitude des véhicules terrestres, aquatiques, aériens ou spatiaux, p. ex. utilisant des pilotes automatiques
• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions
• G06Q 10/08 - Logistique, p. ex. entreposage, chargement ou distributionGestion d’inventaires ou de stocks

Abrégé

A method and system for data retrieval in an enterprise portal application. The method and system include receiving, in a data access layer, a request for object data from a business logic layer. The method and system further includes validating, by a schema layer in communication with the data access layer, that cache data of a cache and data of one or more databases of the enterprise portal application are synchronized. The cache data may include table data and index data of the one or more databases of the enterprise portal application. The method and system further include retrieving, if the cache is validated, table data from the cache, and returning the object data to the business logic layer, the object data corresponding to the retrieved table data.

Classes IPC  ?

• G06F 16/27 - Réplication, distribution ou synchronisation de données entre bases de données ou dans un système de bases de données distribuéesArchitectures de systèmes de bases de données distribuées à cet effet
• G06F 16/2455 - Exécution des requêtes
• G06F 16/22 - IndexationStructures de données à cet effetStructures de stockage

Abrégé

A system and method for synchronizing database changes in an enterprise portal application. The system has a cache storing cache data having table data and index data of one or more databases. A schema layer generates schema objects representing the schema of the databases of the cache data. A change management system and a schema layer validates a cache of one or more databases and synchronizes the cache data to the databases by receiving a changeset, comparing the changeset to the schema data, verifying that the changeset is compatible with the cache data and the schema data, and passing the changeset to the cache for updating the cache data or for refreshing the schema data by the schema layer.

Classes IPC  ?

• G06F 16/27 - Réplication, distribution ou synchronisation de données entre bases de données ou dans un système de bases de données distribuéesArchitectures de systèmes de bases de données distribuées à cet effet
• G06F 16/21 - Conception, administration ou maintenance des bases de données
• G06F 16/23 - Mise à jour
• G06F 16/2455 - Exécution des requêtes

Abrégé

A retainer device for removably connecting a first tote to a second tote in a stacked arrangement includes an elongated body member including a top surface, a bottom surface, and a channel disposed in the bottom surface and extending along a length of the elongated body member. There is a leg member affixed to the elongated body member at a first angle with respect to the top surface of the elongated body member and extending at least partially along the length of the elongated body member. There is also at least one foot member having a top surface; the at least one foot member affixed to the leg member at a second angle such that the top surface of at least one foot member faces the bottom surface of the elongated body member to define a region for receiving portions of the first and second totes.

Classes IPC  ?

• B65D 21/02 - Réceptacles de forme spéciale ou pourvus de garnitures ou de pièces de fixation, pour faciliter l'emboîtement, le gerbage ou l'assemblage

Abrégé

A method for performing tasks on items located in a space using a robot, includes receiving an order to perform a task on at least one item and obtaining a pose associated with the at least one item. The pose is in a coordinate system defined by the space and the pose is where the task is to be performed on the at least one item. The method includes navigating the robot toward the pose associated with the at least one item and detecting, when in proximity to the pose, if the pose is obstructed by an object. If the pose is obstructed by an object, halting the robot at a location spaced from the pose and then causing the robot to provide a first signal indicating that the robot is in a holding mode at the location spaced from the pose.

Classes IPC  ?

• B25J 5/00 - Manipulateurs montés sur roues ou sur support mobile
• G05D 1/00 - Commande de la position, du cap, de l'altitude ou de l'attitude des véhicules terrestres, aquatiques, aériens ou spatiaux, p. ex. utilisant des pilotes automatiques
• B25J 9/16 - Commandes à programme
• B65G 1/137 - Dispositifs d'emmagasinage mécaniques avec des aménagements ou des moyens de commande automatique pour choisir les objets qui doivent être enlevés
• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions
• G05B 19/12 - Commande à programme autre que la commande numérique, c.-à-d. dans des automatismes à séquence ou dans des automates à logique utilisant des supports d'enregistrement

Abrégé

A method for performing tasks on items located in a space using a robot, includes receiving an order to perform a task on at least one item and obtaining a pose associated with the at least one item. The pose is in a coordinate system defined by the space and the pose is where the task is to be performed on the at least one item. The method includes navigating the robot toward the pose associated with the at least one item and detecting, when in proximity to the pose, if the pose is obstructed by an object. If the pose is obstructed by an object, halting the robot at a location spaced from the pose and then causing the robot to provide a first signal indicating that the robot is in a holding mode at the location spaced from the pose.

Classes IPC  ?

• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions
• B25J 9/00 - Manipulateurs à commande programmée

Abrégé

Methods and systems are provided for improving operator performance by robot gamification, the method including parking a robot at a pose location within a navigational space, identifying, by a sensor in electronic communication with an interactive display device, an operator located within a zone proximate the robot for acquiring an item to be picked, receiving, at the interactive display device, operator performance data associated with the acquiring of the item, and rendering, on the interactive display device in response to the received operator performance data, at least one graphic representation of operator achievement within a gamified performance tracking environment.

Classes IPC  ?

• B25J 9/16 - Commandes à programme
• G06Q 10/06 - Ressources, gestion de tâches, des ressources humaines ou de projetsPlanification d’entreprise ou d’organisationModélisation d’entreprise ou d’organisation
• G06K 9/00 - Méthodes ou dispositions pour la lecture ou la reconnaissance de caractères imprimés ou écrits ou pour la reconnaissance de formes, p.ex. d'empreintes digitales
• H04W 4/80 - Services utilisant la communication de courte portée, p. ex. la communication en champ proche, l'identification par radiofréquence ou la communication à faible consommation d’énergie

Abrégé

A mobile robot (18) configured to drive on a surface with irregularities, comprising: a chassis having a front end facing a forward direction of travel, a back end, a first side, and a second side. There is a first drive wheel (40) rigidly affixed to the chassis proximate the first side and interconnected to a motor to propel it. There is a second drive wheel (42) rigidly affixed to the chassis proximate the second side and interconnected to a motor to propel it. A first caster assembly (44) is rigidly affixed to the chassis proximate the front end and includes a first caster wheel configured to rotate about a first swivel axis. A second caster assembly (46) is rigidly affixed to the chassis proximate the back end and includes a second caster wheel configured to rotate about a second swivel axis and it includes a compliant member to absorb the irregularities.

Classes IPC  ?

• B62D 61/04 - Véhicules à moteur ou remorques, caractérisés par la disposition ou le nombre de roues et non prévus ailleurs, p. ex. quatre roues disposées en losange avec deux roues en tandem disposées sur l'axe longitudinal du véhicule avec deux autres roues qui sont coaxiales

Abrégé

A mobile robot configured to drive on a surface with irregularities, comprising: a chassis having a front end facing a forward direction of travel, a back end, a first side, and a second side. There is a first drive wheel rigidly affixed to the chassis proximate the first side and interconnected to a motor to propel it. There is a second drive wheel rigidly affixed to the chassis proximate the second side and interconnected to a motor to propel it. A first caster assembly is rigidly affixed to the chassis proximate the front end and includes a first caster wheel configured to rotate about a first swivel axis. A second caster assembly is rigidly affixed to the chassis proximate the back end and includes a second caster wheel configured to rotate about a second swivel axis and it includes a compliant member to absorb the irregularities.

Classes IPC  ?

• B60B 33/04 - Roues à pivot en général réglables
• B60G 11/18 - Suspensions élastiques caractérisées par la disposition, l'emplacement ou le type des ressorts ayant des ressorts à barre de torsion uniquement
• B62D 21/11 - Châssis, c.-à-d. armature sur laquelle une carrosserie peut être montée avec des moyens élastiques pour la suspension
• B62D 21/18 - Châssis, c.-à-d. armature sur laquelle une carrosserie peut être montée caractérisés par le type de véhicule et non couverts par les groupes
• B25J 5/00 - Manipulateurs montés sur roues ou sur support mobile
• B25J 19/00 - Accessoires adaptés aux manipulateurs, p. ex. pour contrôler, pour observerDispositifs de sécurité combinés avec les manipulateurs ou spécialement conçus pour être utilisés en association avec ces manipulateurs
• B25J 19/02 - Dispositifs sensibles
• B60G 3/02 - Suspensions élastiques pour une seule roue avec un seul bras articulé
• B62D 61/04 - Véhicules à moteur ou remorques, caractérisés par la disposition ou le nombre de roues et non prévus ailleurs, p. ex. quatre roues disposées en losange avec deux roues en tandem disposées sur l'axe longitudinal du véhicule avec deux autres roues qui sont coaxiales

Abrégé

A method, system, and wheeled base for navigating a robot for docking with a charger docking station (500). The robot (18) receives an initial pose (604) associated with a robot charger docking station (500) and a mating pose (602) associated with the robot charger docking station (500). The robot (18) first navigates from a location to an initial pose (604) using scan matching to a first map. The robot performs a second navigation (742) from the initial pose (604) to the mating pose (602) using scan matching to a second map, thereby causing an electrical charging port of the robot to mate with an electrical charging assembly of the robot charger docking station (500). Localization during charger docking may use a higher resolution map than when navigating to the docking station. Localizing against the robot charger docking station may be performed on a higher resolution map of the docking station alone.

Classes IPC  ?

• B60L 53/14 - Transfert d'énergie par conduction
• B60L 53/36 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules par le positionnement du véhicule
• G05D 1/242 - Moyens basés sur la réflexion des ondes générées par le véhicule
• G05D 1/246 - Dispositions pour déterminer la position ou l’orientation utilisant des cartes d’environnement, p. ex. localisation et cartographie simultanées [SLAM]
• G05D 1/648 - Exécution d’une tâche au sein d’une zone ou d’un espace de travail, p. ex. nettoyage
• G05D 1/661 - Amarrage à une station de base

Abrégé

A method and system for docking a robot with a charger docking station, including receiving an initial pose and receiving a mating pose associated with the robot charger docking station, performing a first navigation from a location to the initial pose, and performing a second navigation of the robot from the initial pose to the mating pose. The second navigation may proceed substantially along an arc path from the initial pose to the mating pose, thereby, upon arriving at the mating pose, an electrical charging port of the robot mates with an electrical charging assembly. The arc path may be associated with a section of a unique circle having a radius and a center equidistant from the initial pose and the mating pose. Controlling for error may include a proportional control and/or weighted control or switching between the controls to maintain an error below a threshold.

Classes IPC  ?

• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions

Abrégé

A method, system, and wheeled base for navigating a robot for docking with a charger docking station (500). The robot (18) receives an initial pose (604) associated with a robot charger docking station (500) and a mating pose (602) associated with the robot charger docking station (500). The robot (18) first navigates from a location to an initial pose (604) using scan matching to a first map. The robot performs a second navigation (742) from the initial pose (604) to the mating pose (602) using scan matching to a second map, thereby causing an electrical charging port of the robot to mate with an electrical charging assembly of the robot charger docking station (500). Localization during charger docking may use a higher resolution map than when navigating to the docking station. Localizing against the robot charger docking station may be performed on a higher resolution map of the docking station alone.

Classes IPC  ?

• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions

Abrégé

A method and system for docking a robot with a charger docking station, including receiving an initial pose and receiving a mating pose associated with the robot charger docking station, performing a first navigation from a location to the initial pose, and performing a second navigation of the robot from the initial pose to the mating pose. The second navigation may proceed substantially along an arc path from the initial pose to the mating pose, thereby, upon arriving at the mating pose, an electrical charging port of the robot mates with an electrical charging assembly. The arc path may be associated with a section of a unique circle having a radius and a center equidistant from the initial pose and the mating pose. Controlling for error may include a proportional control and/or weighted control or switching between the controls to maintain an error below a threshold.

Classes IPC  ?

• G05D 1/661 - Amarrage à une station de base
• G05D 13/02 - Commande de la vitesse linéaireCommande de la vitesse angulaireCommande de l'accélération ou de la décélération, p. ex. d'une machine motrice Détails
• H02J 7/00 - Circuits pour la charge ou la dépolarisation des batteries ou pour alimenter des charges par des batteries

Abrégé

A method and system for docking a robot with a charger docking station, including receiving an initial pose and receiving a mating pose associated with the robot charger docking station, performing a first navigation from a location to the initial pose, and performing a second navigation of the robot from the initial pose to the mating pose. The second navigation may proceed substantially along an arc path from the initial pose to the mating pose, thereby, upon arriving at the mating pose, an electrical charging port of the robot mates with an electrical charging assembly. The arc path may be associated with a section of a unique circle having a radius and a center equidistant from the initial pose and the mating pose. Controlling for error may include a proportional control and/or weighted control or switching between the controls to maintain an error below a threshold.

Classes IPC  ?

• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions
• B60L 53/35 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules

Abrégé

A method, system, and wheeled base for navigating a robot for docking with a charger docking station. The robot receives an initial pose associated with a robot charger docking station and a mating pose associated with the robot charger docking station. The robot first navigates from a location to an initial pose using scan matching to a first map. The robot performs a second navigation from the initial pose to the mating pose using scan matching to a second map, thereby causing an electrical charging port of the robot to mate with an electrical charging assembly of the robot charger docking station. Localization during charger docking may use a higher resolution map than when navigating to the docking station. Localizing against the robot charger docking station may be performed on a higher resolution map of the docking station alone.

Classes IPC  ?

• G05D 1/02 - Commande de la position ou du cap par référence à un système à deux dimensions
• H02J 7/00 - Circuits pour la charge ou la dépolarisation des batteries ou pour alimenter des charges par des batteries
• B60L 53/14 - Transfert d'énergie par conduction
• B60L 53/36 - Moyens pour l’ajustement automatique ou assisté de la position relative des dispositifs de charge et des véhicules par le positionnement du véhicule