Read events capturing parcel information as a parcel is transported through a facility is received, and a configuration file mapping readers capturing the read events to workspace locations within the facility is accessed. Utilizing the read events and configuration file, one or more locations are determined for a parcel being transported through a facility. The locations may form a most likely path, or sequence of locations, through the facility. The determined locations may be utilized for generating one or more graphical user interface elements for tracking parcel and/or other operational aspects. For example, a graphical user interface may indicate errors, such as errors in the parcel's path and slowdowns, detected from the read events. Additionally, volume of parcels over time may be determined from the read events. Further, a graphical user interface may indicate employee performance based on errors and/or read events attributed to the employee.

Read events capturing parcel information as a parcel is transported through a facility is received, and a configuration file mapping readers capturing the read events to workspace locations within the facility is accessed. Utilizing the read events and configuration file, one or more locations are determined for a parcel being transported through a facility. The locations may form a most likely path, or sequence of locations, through the facility. The determined locations may be utilized for generating one or more graphical user interface elements for tracking parcel and/or other operational aspects. For example, a graphical user interface may indicate errors, such as errors in the parcel's path and slowdowns, detected from the read events. Additionally, volume of parcels over time may be determined from the read events. Further, a graphical user interface may indicate employee performance based on errors and/or read events attributed to the employee.

A smart conveyor belt web service is provided. A network device generates recipes for multiple orders. Each recipe provides sorting instructions for a conveyor system. The network device transfers an identifier for a first recipe to a queue of active recipes and sends the first recipe to a server device for the conveyor system. The network device receives a recipe-complete status message indicating completion of the first recipe. The network device deletes the indicator for the first recipe from the queue based on receiving the recipe-complete status message and transfers a second recipe to the queue of active recipes to initiate processing of another order.

Read events capturing parcel information as a parcel is transported through a facility is received, and a configuration file mapping readers capturing the read events to workspace locations within the facility is accessed. Utilizing the read events and configuration file, one or more locations are determined for a parcel being transported through a facility. The locations may form a most likely path, or sequence of locations, through the facility. The determined locations may be utilized for generating one or more graphical user interface elements for tracking parcel and/or other operational aspects. For example, a graphical user interface may indicate errors, such as errors in the parcel's path and slowdowns, detected from the read events. Additionally, volume of parcels over time may be determined from the read events. Further, a graphical user interface may indicate employee performance based on errors and/or read events attributed to the employee.

A sorting system includes a control server, multiple sorting robots, and a sorting region. The sorting region is divided into multiple sub-regions. At least one supply station and multiple delivery openings are deployed in each sub-region. Delivery openings respectively correspond to paths. The control server determines, according to path information of an item to be sorted, a target delivery opening corresponding to a path of the item, determines, from the multiple sub-regions of the sorting region, a target sub-region in which the target delivery opening is located, and allocates a delivery task to a target sorting robot among the multiple sorting robots. In response to the delivery task, the target sorting robot acquires the item from the supply station where the item is located, carries the item to the target delivery opening in the target sub-region, and delivers the same.

Systems and methods for sorting items for delivery to delivery points, using delivery point compression. Items can be sorted and sequenced for delivery by a sorting machine having a finite number of sorting destinations. For routes having more delivery points than the number of sorting destinations, delivery point compression allows sorting destination assignments that eliminate delivery points not likely to receive any items. Sorting destination assignments can be performed by a processor of the sorting machine based on expected item information and delivery point item frequency scores.

Provided is a sorting platform. The sorting platform includes a body having a first main surface and a second main surface backing onto the first main surface; a supply region disposed in a middle of the first main surface; and a delivery region disposed along an edge of the body. A conveying device receives goods in the supply region and moves along the first main surface of the body to the delivery region so that the conveying device delivers a parcel in the delivery region.

A multi-tiered automated parcel sortation system is utilized to sort parcels according to a common destination. A first tier includes an automated sorter configured to transport parcels from a source location to a release destination. A second tier includes accumulation containers each associated with a shipping destination, and the release destination within the first tier is a positioned directly above the accumulation container associated with the shipping destination of the parcel. Once transported to the release destination, a parcel is released into the accumulation container, and once the accumulation container is filled, the accumulation of parcels within the container is released into a third tier, which may include conveyors or autonomous guided vehicles with transport containers. In the third tier, the parcels are transported away for further processing.

A parcel sorter system and method. A process performed by a parcel sorter system includes receiving sorting information of a first parcel. The process includes identifying a first destination pallet corresponding to the sorting information. The first destination pallet is associated with a first carousel and a first destination chute. The process includes transporting the first parcel toward the first destination chute. The process includes, while transporting the parcel toward the first destination chute, operating the first carousel to move the first destination pallet proximate to the first destination chute. The process includes delivering the first parcel at the first destination chute for placement on the first destination pallet.

There is provided a conveyor assembly for sorting merchandise items. In one form, the conveyor assembly includes: a merchandise identification module; sortation modules each comprising a multi-directional sorting portion with two sets of rollers, a first wing including a third set of rollers, a second wing including a fourth set of rollers, and a controller configured to receive an IP address; a first, disassembled state of the sortation modules; a second, assembled state of the sortation modules; a merchandise database; and a control circuit configured to receive identifying information about an unsorted merchandise item, assign a unique IP address to each sortation module corresponding to the position of the sortation module, determine a sortation destination for the unsorted merchandise item, determine the sortation module corresponding to the sortation destination; and instruct the controller of the corresponding sortation module to divert the unsorted merchandise item to the sortation destination.