A system for automatic filling of medication organizers comprises i) a storage unit for medication containers that is accessible from a first side thereof, ii) a plurality of medication organizer filling units, each having a temporary storage rack that is accessible from a side of the medication filling units that faces the storage unit, and iii) a container handling system that is positioned between the storage unit and the temporary storage racks and that is movable between the storage unit and each of the temporary storage racks for transferring selected medication containers therebetween. The system allows minimizing idle times by moving medication containers between the storage unit and temporary storage racks simultaneously to the filling process.

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 dynamic storage wall with reconfigurable storage cubbies and methods of operating the storage wall are provided for a storage facility. The storage wall includes a shelf with multiple storage cubbies and one or more repositionable dividers defining boundaries between the cubbies. The storage wall includes a Time of Flight (ToF) sensor array adjacent to the shelf for measuring positions of each of the repositionable dividers. The ToF is also adapted for recognizing when an item has been retrieved from or placed at either of said storage locations. A workflow control system with a computer is connected to the sensor array. The control system utilizes data from the ToF sensor array to determine when a repositionable divider has been moved and/or when an item has been retrieved from a storage location. The system may automatically or manually recognize when a divider is moved and that new measurement is required.

A warehousing/shipping-operation support system selects, for a first article in a warehousing/shipping operation, by using acquired positional information of an operator, a sign closer to a position of the operator among signs in the vicinity of a storage location of the article, and the warehousing/shipping-operation support system selects, for a second and following articles, by using the storage-location information of the article whose warehousing/shipping has been completed as the positional information of the operator, a sign closer to the position of the operator among the signs in the vicinity of the storage location of the article.

In various embodiments, a goods to operator workstation is provided. The goods to operator workstation include an upper level. The upper level includes an upper level conveyor and one or more upper level container bays configured to receive and present one of the one or more upper level containers. The goods to operator workstation also includes at least one connector panel extending from the upper level. The goods to operator workstation further includes a lower level coupled to the at least one connector panel. The lower level is configured to receive one or more lower level containers. A gap is defined between the upper level and lower level that is sized to allow the one or more lower containers to be placed on the lower level. A method of operating the goods to operator workstation is also included.

A picking and dispatching system includes: a control center, terminals carried by users, and handling devices. The control center is configured to: determine an item storage space of a to-be-picked item included in each of to-be-picked orders, and plan paths for each user and each handling device to reach the item storage space; match, according to each planned path and assigned to-be-picked order, a user and a handling device for picking, to determine to-be-selected tasks, and determine a moment at which a user and a handling device cooperate to pick from the item storage space; determine a target task from the to-be-selected tasks, and send the target task to a terminal and a handling device; assign, according to the target task sent to the handling device, a to-be-picked order to the handling device, and update the stored assignment result of the to-be-picked orders.

An automated storage and retrieval system stores multi-stock bins each holding different stock-keeping units (SKUs). Records dynamically track which SKUs are in each bin. A controller tracks a stock waitlist indicating quantities of SKUs still required to be delivered to a workstation in order to fulfil current orders assigned to the workstation. When a robot is available, the controller selects a multi-stock bin that has a highest number of unique ones of the required SKUs indicated on the stock waitlist and commands the robot to fetch and deliver the selected bin to the workstation. For new orders, the controller may determine if direct assignment can be done to a workstation without additional bins being scheduled. For other pending orders, the controller may assume each pending order is assigned to the workstation and then pick the order that would require a lowest number of bins to be delivered to the workstation.

A system for automatic filling of medication organizers comprises i) a storage unit for medication containers that is accessible from a first side thereof ii) a plurality of medication organizer filling units, each having a temporary storage rack that is accessible from a side of the medication filling units that faces the storage unit, and iii) a container handling system that is positioned between the storage unit and the temporary storage racks and that is movable between the storage unit and each of the temporary storage racks for transferring selected medication containers therebetween. The system allows minimizing idle times by moving medication containers between the storage unit and temporary storage racks simultaneously to the filling process.

Apparatus for moving articles and sorting them between one or more destination stations (S1, S2, S3), comprising at least one hooking member (11), configured to accommodate hanging, or hooked, hooking means (15) bearing the articles to be sorted, and on which one or more hooking sectors (17; 17a, 17b, 17c) are defined, and a movement member (12), configured to move the articles. The apparatus also comprises a sorting device (13; 13a, 13b, 13c), configured to selectively assume at least two operating conditions in a manner that is coordinated with the movement of the hooking sectors (17; 17a, 17b, 17c).

A visible-light based display system may be used to project visual guidance to picking and/or stowing agents in a materials handling facility dependent on their current location. The system may comprise a plurality of fixed-location display devices and/or mobile display devices coupled to a control system. The control system may send messages to particular ones of the display devices for projection of visual guidance usable to direct an agent to a particular inventory area in which an item is to be stowed or from which an item is to be picked, to identify a particular position within an inventory area, and/or to identify a particular item stored within an inventory area. The messages may include location, position, and/or descriptive information associated with an item to be stowed or picked. The projected visual guidance may include light or laser beams, text, graphics and/or images, and may be agent-specific, item-specific, and/or order-specific.