Systems, apparatuses, and methods for restoring shopping space conditions are provided. A system for restoring shopping space conditions comprises a motorized transport unit comprising at least one sensor, and a central computer system comprising a wireless transceiver for communicating with the motorized transport unit. The central computer system being configured to: identify a section of a shopping space having a dropped item, instruct the motorized transport unit to travel to the section of the shopping space and collect information associated with the dropped item using the at least one sensor, determine a characteristic of the dropped item in the section of the shopping space using the at least one sensor of the motorized transport unit, and select a cleaning task from a plurality of cleaning tasks based on the characteristic of the dropped item.

Systems, apparatuses, and methods for restoring shopping space conditions are provided. A system for restoring shopping space conditions comprises a motorized transport unit comprising at least one sensor, and a central computer system comprising a wireless transceiver for communicating with the motorized transport unit. The central computer system being configured to: identify a section of a shopping space having a dropped item, instruct the motorized transport unit to travel to the section of the shopping space and collect information associated with the dropped item using the at least one sensor, determine a characteristic of the dropped item in the section of the shopping space using the at least one sensor of the motorized transport unit, and select a cleaning task from a plurality of cleaning tasks based on the characteristic of the dropped item.

A car seat holder is used to support a portable infant car seat by providing a flexible support. The apparatus comprises a first support, a second support, and a canvas. The first support and the second support are elongated members that extend across a shopping cart. The first support and the second support are rigid members that distribute the weight of an infant carriage device. The canvas is a flexible surface that extends from the first support to the second support across the shopping cart. The canvas provides a mechanism for transmitting the weight of the infant carriage device to the first support and the second support. In this way, the first support and second support hold the canvas in optimal position for holding an infant car seat. This arrangement frees up space within a shopping cart.

A car seat holder is used to support a portable infant car seat by providing a flexible support. The apparatus comprises a first support, a second support, and a canvas. The first support and the second support are elongated members that extend across a shopping cart. The first support and the second support are rigid members that distribute the weight of an infant carriage device. The canvas is a flexible surface that extends from the first support to the second support across the shopping cart. The canvas provides a mechanism for transmitting the weight of the infant carriage device to the first support and the second support. In this way, the first support and second support hold the canvas in optimal position for holding an infant car seat. This arrangement frees up space within a shopping cart.

Methods and apparatuses are provided for use in monitoring product placement within a shopping facility. Some embodiments provide an apparatus configured to determine product placement conditions within a shopping facility, comprising: a transceiver configured to wirelessly receive communications; a product monitoring control circuit coupled with the transceiver; a memory coupled with the control circuit and storing computer instructions that when executed by the control circuit cause the control circuit to: obtain a composite three-dimensional (3D) scan mapping corresponding to at least a select area of the shopping facility and based on a series of 3D scan data; evaluate the 3D scan mapping to identify multiple product depth distances; and identify, from the evaluation of the 3D scan mapping, when one or more of the multiple product depth distances is greater than a predefined depth distance threshold from the reference offset distance of the product support structure.

Methods and apparatuses are provided for use in monitoring product placement within a shopping facility. Some embodiments provide an apparatus configured to determine product placement conditions within a shopping facility, comprising: a transceiver configured to wirelessly receive communications; a product monitoring control circuit coupled with the transceiver; a memory coupled with the control circuit and storing computer instructions that when executed by the control circuit cause the control circuit to: obtain a composite three-dimensional (3D) scan mapping corresponding to at least a select area of the shopping facility and based on a series of 3D scan data; evaluate the 3D scan mapping to identify multiple product depth distances; and identify, from the evaluation of the 3D scan mapping, when one or more of the multiple product depth distances is greater than a predefined depth distance threshold from the reference offset distance of the product support structure.

Some embodiments provide systems and methods to assist product stocking on a sales floor of a retail shopping facility. In some implementations, a system comprises a plurality of motorized transport units that are each configured to perform multiple different types of tasks at a retail shopping facility; and a central computer system configured to coordinate the plurality of motorized transport units in performing the multiple different tasks comprising instruct a motorized transport unit to retrieve a specified stocking cart that is carrying a plurality of products that are to be restocked onto product supports that are positioned on the sales floor where customers travel in shopping for products, and further instruct the motorized transport unit to autonomously transport the stocking cart to a specified stocking location on the sales floor corresponding to at least one of the plurality of products carried by the stocking cart.

Some embodiments provide systems and methods to assist product stocking on a sales floor of a retail shopping facility. In some implementations, a system comprises a plurality of motorized transport units that are each configured to perform multiple different types of tasks at a retail shopping facility; and a central computer system configured to coordinate the plurality of motorized transport units in performing the multiple different tasks comprising instruct a motorized transport unit to retrieve a specified stocking cart that is carrying a plurality of products that are to be restocked onto product supports that are positioned on the sales floor where customers travel in shopping for products, and further instruct the motorized transport unit to autonomously transport the stocking cart to a specified stocking location on the sales floor corresponding to at least one of the plurality of products carried by the stocking cart.

A shopping facility assistance system includes a plurality of motorized transport units, a plurality of user interface units, and a central computer system having a network interface such that the central computer system wirelessly communicates with one or both of the motorized transport units and the user interface units. The central computer system is configured to control movement of the motorized transport units through a shopping facility space based at least on inputs from the user interface units. More particularly, the central computer system controls movement of the motorized transport units such that a given one of the plurality of motorized transport units selectively leads a user to a destination within the shopping facility or follows the user within the shopping facility as determined by the central computer system. By one approach, the motorized transport units move through the shopping facility via a plurality of preferred pre-determined path segments.

A shopping facility assistance system includes a plurality of motorized transport units, a plurality of user interface units, and a central computer system having a network interface such that the central computer system wirelessly communicates with one or both of the motorized transport units and the user interface units. The central computer system is configured to control movement of the motorized transport units through a shopping facility space based at least on inputs from the user interface units. More particularly, the central computer system controls movement of the motorized transport units such that a given one of the plurality of motorized transport units selectively leads a user to a destination within the shopping facility or follows the user within the shopping facility as determined by the central computer system. By one approach, the motorized transport units move through the shopping facility via a plurality of preferred pre-determined path segments.