A system for performing measurements in storage containers for storing items includes a framework structure. The storage containers are stored in an automated storage system. The framework structure forms a three-dimensional storage grid structure for storing the storage containers. The grid structure forms vertical storage columns each having a horizontal area defined by the size of an access opening to the vertical storage columns between rails of a rail system. The rail system is arranged on top of the framework structure. The rail system provides available routes for container handling vehicles handling and transferring the storage containers to and from the storage columns. Each vehicle includes a vehicle controller communicating with a central computer system controlling the operation of the storage system. A container handling platform of a container handling vehicle includes measuring equipment configured to perform measurements in containers and includes a communication unit configured to communicate measurement data to a computer system.

Equipment for the logistics of slab-shaped articles comprising one supplying plane of at least one slab-shaped article; one robotic gripping group of the slab-shaped article; a (tangible) movement component/unit/device/machine (or the like) of the gripping group along one direction of movement; a plurality of temporary storage stations of the slab-shaped article; one supporting frame of the slab-shaped article supported as an integral part to the movement component/unit/device/machine; and one unloading station of the supporting frame; wherein the gripping group is adapted to: take the slab-shaped article from the supplying plane; place the slab-shaped article on one of the storage stations; and take the slab-shaped article from one of the storage stations to place it on the supporting frame.

Some embodiments are directed to a method for retrieving garments within an automatic warehouse. The method may include maintaining sets of garments in enclosures, the enclosures are positioned on shelfs of the automatic warehouse. Each set of garments is located within an enclosure of the enclosures, and is hung on hangers located within the enclosure; accessing a selected enclosure of the enclosures, by a first robot. The selected enclosure encloses a garment of interest; obtaining the selected enclosure by the first robot; and providing the enclosure to an interface point within the automatic warehouse, by the first robot.

An automated storage and retrieval facility includes a container dispenser which transfers one or more containers into a tote. Once loaded into a tote, the one or more containers may receive goods to fulfill an order. Once filled with goods, the containers may be accessed by customers for transport away from the facility. The container dispenser may include a table configured to move over an opening of a tote to dispense more than one container at different positions within the tote. The container dispenser may be integrated within a storage area of the automated storage and retrieval facility. Alternatively, the container dispenser may be part of workstation positioned away from the storage area.

According to the embodiments illustrated herein, a method is disclosed. The method comprises receiving, by a computing device comprising a processor, an input from an operator device, wherein the input facilitates determining a task to be performed. Further, the method comprises activating, by the computing device, a first light device associated with a first location in a workplace in response to receiving the input, wherein the first location is associated with the task to be performed. Furthermore, the method comprises receiving, by the computing device, a first voice input from the operator device, indicative of an exception encountered during execution of the task. Additionally, the method includes modifying the task, in response to determining that the first voice input is indicative of the exception encountered during execution of the task.

An object processing system is disclosed that includes a plurality of track sections, and a plurality of remotely actuatable carriers for controlled movement along at least portions of the plurality of track sections, wherein each of the remotely controllable carriers is adapted to support and transport an object processing bin.

An online shopping concierge system identifies a set of delivery orders and a set of delivery agents associated with a location. The system allocates the orders among the agents, each agent being allocated at least one order. The system obtains agent progress data describing travel progress of the agents to the location, and order preparation progress data describing progress of preparing the orders for delivery. The system periodically updates the allocation of the orders among the agents based on the agent progress data and the order preparation progress data. This involves re-allocating at least one order to a different delivery agent. When a first agent arrives at the location, the system assigns to the first agent the orders allocated to the first agent. The system then removes the first agent from the set of available delivery agents, and removes the assigned delivery orders from the set of delivery orders.

A measuring system for monitoring atmospheric conditions in an automated storage and retrieval system including a framework structure. The framework structure forms a three-dimensional storage grid structure for storing storage containers for storing items. The grid structure forms vertical storage columns each having a horizontal area defined by the size of an access opening of the vertical storage columns. A rail system is arranged on the framework structure defining the circumference of each access opening on top of each storage column. The rail system provides available routes for container handling vehicles handling and transferring the storage containers to and from the storage columns. The at least one container handling vehicle has at least one rechargeable power source. A container handling platform has a first set of grippers for handling the storage containers. The measuring system includes at least one box-shaped measuring unit of the same size and features as a storage container. The box-shaped measuring unit includes measuring equipment for measuring at least one atmospheric condition within the grid structure, a transmitter for transmitting measurement data to a computer system, at least one rechargeable power source, and a data recorder for recording the measurement data. The box-shaped measuring unit includes at least one piece of measuring equipment on all sides of the box-shaped measuring unit.

The disclosure relates to a method for traffic routing of transportation means in a high-bay warehouse, comprising at least two storage levels, at least one level of transport with at least one option for a transportation means for accessing and/or leaving the level of transport.

The present invention appropriately evaluates the quality of communications, and optimizes the allocation of conveyance instructions by a control device. The control device (10) is provided with: a communication quality determination unit (12) that determines the quality of wireless communications on the basis of a communication state of a telegram from a conveyance robot (20); and an instruction state determination unit (13) that determines, according to the quality of the wireless communications, an instruction state pertaining to whether to transmit an instruction for controlling the conveyance robot.