A fully autonomous delivery station, including a management unit for receiving orders for goods, and a housing including one or more storage devices containing goods to be delivered, a moving collector moving between the one or more storage devices for collecting the goods, and kiosk used by a user of the delivery station for receiving the goods outside the housing.

A pack wall carton selection and replenishment system comprising: a delivery cart with a delivery cart controller configured to receive information representing a replenishment shipping carton to be retrieved from a shipping carton supply area and delivered to a pack wall, provide for retrieving one or more shipping cartons from the shipping carton supply area, actuate a cart indicator assembly to identify a cart partition where to place the retrieved shipping cartons on the delivery cart, actuate a delivery cart indicator assembly to identify the replenishment shipping carton to be placed on the pack wall; and, a pack wall controller in communication with the delivery cart controller configured to receive an order item information, actuate a first pack wall indicator assembly to indicate a desired shipping carton to be used for packing an items represented by the order item information.

A semi-autonomous processing system for processing objects is disclosed. The semi-autonomous processing system includes an input conveyance system for moving objects to a presentation area, a perception system including perception units that are directed toward a detection area for providing perception data regarding an object in the presentation area, at least two transport systems, each of which is adapted to receive the object and move the object in either of reciprocal directions, and a manual workstation area between the perception area the at least two transport systems.

A picking system, a manual picking method, as well as a window-conveyor system for a manually picking goods through a picker in accordance with a picking order, wherein the window-conveyor system comprises: a conveying device for transporting the goods along a conveying path, wherein the conveying device is movable, preferably continuously and discontinuously, and wherein the conveying device includes a conveying area, on which the goods can be deposited; a lighting device configured to indicate in an order-specific manner a portion of the conveying area in terms of an order-specific window by means of light visually distinguishable from a rest of the conveying area configured to divide the conveying area into the order-specific window and the rest, and further configured to generate controlling signals for the lighting device and output the same, which cause the lighting device to indicate the order-specific window visually distinguishable on the conveying device.

Easy learning of the position of a placement part of an automated warehouse is made possible. An automated warehouse system includes a plurality of placement parts in which to place an object to be transported and which are fixed to an automated warehouse, each placement part having marked thereon an identification code representing identification information for identifying that placement part. A crane is equipped with an image taking section configured to take an image. A control device is configured to: detect, from an image taken by the image taking section and including the identification code of the placement part, the identification information represented by the identification code; and store the identification information having been detected and crane position information concerning a position where the crane is located when the image is taken, with the identification information having been detected and the crane position information being associated with each other.

Embodiments of the present invention include a system and methods for archiving and/or retrieving specimens. Embodiments of the system of the present invention include a movement mechanism, an archival structure, and a software program. Embodiments of the device are configured to acquire a specimen, transport the specimen to a unique location in the archival structure, and store information regarding specimen identification and storage location.

A method and system for piece-picking or piece put-away within a logistics facility. The system includes a central server and at least one mobile manipulation robot. The central server is configured to communicate with the robots to send and receive piece-picking data which includes a unique identification for each piece to be picked, a location within the logistics facility of the pieces to be picked, and a route for the robot to take within the logistics facility. The robots can then autonomously navigate and position themselves within the logistics facility by recognition of landmarks by at least one of a plurality of sensors. The sensors also provide signals related to detection, identification, and location of a piece to be picked or put-away, and processors on the robots analyze the sensor information to generate movements of a unique articulated arm and end effector on the robot to pick or put-away the piece.

According to one embodiment, a server includes a product position storage unit configured to store a storage position of a product in association with each product, a cart position storage unit configured to store a position of a cart, a cart determining unit configured to determine a cart positioned closest to a product-to-pick ordered from an ordering party, based on the storage position of the product and the position of the cart, and a product information transmitting unit configured to transmit information on the product-to-pick to a cart terminal attached to the determined cart for display thereof.

Systems/Methods are provided for reducing picking operation errors. Task instruction is received about an item to be picked. A unique identifier is received for a pick location where the item is located. A unique identifier signal is received from a computing device at the pick location. A sensor thereof is commanded to output a signal in response to detecting unique identifier signal. The outputted signal represents an ambient magnetic field measurement in the sensor's vicinity received and monitored to detect change. Vehicle motion information is received from a motion detector. A notification whether the vehicle is at the correct pick location where item is located or the incorrect pick location is outputted.

A method for picking orders (22a . . . 22e) in a storage and order-picking system (1a, 1b) is provided, which comprises an article storage (2), a loading station (3), a sorting unit (4), a packing station (5), an overhead conveyor system (7a . . . 7f) and a control system (8). At the loading station (3), articles (22a . . . 22e) are transferred from a loading aid (23, 24, 25a . . . 25c) into a transport means (28a, 28b) and at the packing station (5) from a transport means (28a, 28b) into a shipping loading aid (30). In this regard, transporting an article (22a . . . 22e) out of the article storage (2) to the loading station (3) takes place individually and independently of the other picking orders for each picking order. Furthermore, transporting the transport means (28a, 28b) from the loading station (3) into the sorting unit (4) also takes place individually and independently of the other picking order and directly for each picking order. Furthermore, a storage and order-picking system (1a, 1b) for performing the method is provided.