The present disclosure is also directed to a system for managing inventory within a dispenser that is configured to maintain a known inventory and is configured to transmit inventory values from the dispenser so that other users can review the inventory values. Also, the dispenser is configured to be accessed by users locally and through an internet connection so that the inventory can be reviewed.

Provided herein is a methods, apparatus, and system for the configuration of customizable trays for the storage and dispensing of articles. Methods may include: receiving an indication of a plurality of articles to be stored in a tray; determining a plurality of bins corresponding to the plurality of articles; generating a layout of the bins on the tray; identifying locations of the plurality of articles within the bins on the tray; and causing the tray to be configured according to the layout of the plurality of bins on the tray. Methods may include: receiving an indication of an article to be loaded into a bin of the plurality of bins; receiving a unique identifier of the bin of the plurality of bins into which the article is loaded; and storing, in a memory, a correlation between the unique identifier of the bin and the article loaded into the bin.

An identifier associated with one or more assets is obtained in response to a reader component reading a tag associated with one or more assets as the one or more assets traverse a conveyor apparatus. At least partially in response to the obtaining of the identifier, a storage unit of a plurality of storage units is caused to automatically rotate to a loading location to receive the one or more assets.

An inventory management system includes pick stations, automated vehicles having an onboard power source, a first drive system configured to horizontally displace the vehicle, a second drive system configured to vertically displace the vehicle along a guide system, and a platform for supporting an item during displacement of the vehicle. A first plurality of storage locations store inventory items at a first zone of vehicle operation and a second plurality of storage areas store inventory items at a second zone of vehicle operation. A first pick station is closer to the first storage locations than to the second storage locations, Vehicles are configured to transfer a selected item from one of the second plurality of storage locations to the first pick station or to transfer the selected item from the second plurality of storage locations to the first plurality of storage locations.

Coordinated conveyors in an automated system. In an embodiment, the system comprises transport conveyor(s) and storage conveyors, wherein each storage conveyor comprises a plurality of segments configured to hold at least one item, and a portion that is aligned with a portion of a transport conveyor, such that items are moveable from the storage conveyor to the transport conveyor. Software module(s), executed by a processor, receive an instruction to collect item(s) at a single destination location, and, for each of the item(s), identify a segment on a storage conveyor on which the item is held, control that storage conveyor to align the segment with the transport conveyor, move the item from the segment onto the transport conveyor, control the transport conveyor to align the item with the destination location, and move the item from the transport conveyor to the destination location.

System includes an article supply location including a plurality of articles, and an overhead rail network with a plurality of rail sections. A self-guided and self-propelled hanging vehicle travels in both directions along the plurality of rail sections. The hanging vehicle has a first position in which a carrier containing at least one selected article is engaged with the hanging vehicle and a second position in which the carrier is detached from the hanging vehicle. The system further includes a controller. The controller determines a first delivery location among a plurality of delivery locations to deliver, with the hanging vehicle, the selected article based on a destination determined for the selected article. The controller further directs delivery of the carrier at the first delivery location by manipulation of the hanging vehicle from the first position to the second position.

A system and method are disclosed relating to an automated store or system including an automated fulfillment section having a storage structure for storing fungible and/or non-fungible goods. The fungible and/or non-fungible goods may be retrieved from storage in response to a customer order. The system and method of the present technology allows retrieved fungible and/or non-fungible goods to be sorted and packed in accordance with stored customer preferences.

Embodiments of the present disclosure can provide an automated mass rearing system for insect larvae. The automated mass rearing system can facilitate hatching, feeding, monitoring the growth and emergence of insect larvae and pupae. In some embodiments, the automated mass rearing system can include a production unit, a transportation unit, a storage unit, a dispensing unit, and a monitoring unit. In some embodiments, this automated mass rearing system can facilitate mass mosquito growth from egg hatching all the way through to full adults or certain stages in between such as the larvae rearing process (i.e., from larvae to pupae) with little or no human intervention. By automating the rearing and transportation of insect eggs, larvae, and pupae, deaths or developmental issues can be minimized. Various techniques and apparatuses are used in this automation that causes minimal disturbance to the insects during development, and thereby maximizing survival rate and fitness of the insects.

A processing system for processing objects using a programmable motion device is disclosed. The processing system includes a perception unit for perceiving identifying indicia representative of an identity of a plurality of objects received from an input conveyance system, and an acquisition system for acquiring an object from the plurality of objects at an input area using an end effector of the programmable motion device. The programmable motion device is adapted for assisting in the delivery of the object to an identified processing location. The identified processing location is associated with the identifying indicia and the identified processing location is provided as one of a plurality of processing locations. The system also includes a delivery system for receiving the object in a carrier and for delivering the object toward the identified processing location.

A material handling system having object handling and transportation devices and method of receiving objects into a warehouse having a material handling system includes scanning a machine readable code of an incoming load forming at least a portion of an order and comparing the machine readable code with an order file listing objects on the incoming load. For each object on the load, object data including a 3D image and product code of the object removed from the incoming load is received with an image capture station and reconciled with the order file. Each object is identified by comparing the 3D image of the object captured with the image capture station with the 3D images in the database. The material handling system is controlled as a function of the identity of the objects being handled and transported by the material handling system.