Automated inventory management for a paint color chip display assembly

What is claimed is: 1. A system comprising: a shelving unit having a plurality of adjacent pairs of retaining panels arranged along and coupled to a shelving mechanism with each adjacent pair of retaining panels defining a pocket configured to receive a plurality of paint color chips; a plurality of sensors, each sensor of the plurality of sensors being mounted on a retaining panel of one of the plurality of adjacent pairs of retaining panels such that each pocket has a corresponding sensor from the plurality of sensors, the sensor being configured to obtain a parameter indicative of a weight of any paint color chips located within the corresponding pocket; and a processor configured to execute instructions stored in a nontransitory computer-readable medium, wherein the instructions include: obtaining, from each sensor of the plurality of sensors, the parameter indicative of the weight of any paint color chips located within the corresponding pocket for each sensor; determining the weight of any paint color chips located within each pocket corresponding to each sensor based on the parameter received from each sensor; comparing the weight of any paint color chips located within each pocket with a predetermined value; generating a paint chip order for additional paint color chips corresponding to any pocket for which the weight is below the predetermined value; and transmitting the paint chip order to a computing system. 2. The system of claim 1 , wherein transmitting the paint chip order to the computing system causes the computing system to order the additional paint color chips. 3. A method comprising: obtaining, from each sensor of a plurality of sensors, a parameter indicative of a weight of any paint color chips located within a corresponding pocket of a plurality of pockets, each pocket of the plurality of pockets being configured to receive a plurality of paint color chips and being defined by an adjacent pair of retaining panels from a plurality of adjacent pairs of retaining panels arranged along and coupled to a shelving mechanism of a shelving unit, each sensor of the plurality of sensors being mounted on a retaining panel of one of the plurality of adjacent pairs of retaining panels such that each pocket of the plurality of pockets has a corresponding sensor from the plurality of sensors; determining, using a processor, the weight of any paint color chips located within each pocket corresponding to each sensor based on the parameter received from each sensor; comparing, using the processor, the weight of any paint color chips located within each pocket with a predetermined value; generating, using the processor, a paint chip order for additional paint color chips corresponding to any pocket for which the weight is below the predetermined value; and transmitting, using the processor, the paint chip order to a computing system. 4. The method of claim 3 , wherein transmitting the paint chip order to the computing system causes the computing system to order the additional paint color chips. 5. A system comprising: a shelving unit including a plurality of pockets, each pocket configured to hold associated paint chips and being defined by an adjacent pair of retaining panels from a plurality of adjacent pairs of retaining panels arranged along and coupled to a shelving mechanism of the shelving unit; a plurality of weight sensors, each weight sensor being installed in a corresponding pocket of the plurality of pockets, mounted on a retaining panel of the adjacent pair of retaining panels that define the corresponding pocket, and configured to determine a weight of any associated paint chips held in the corresponding pocket; a processor configured to execute instructions stored in a nontransitory computer-readable medium, the instructions including: receiving the weight sensed by each of the plurality of weight sensors; comparing the weight sensed by each of the plurality of weight sensors with a predetermined weight threshold; generating a paint chip order in response to a weight from a particular weight sensor of the plurality of weight sensors being less than the predetermined weight threshold, the paint chip order indicating the associated paint chips for the corresponding pocket within which the particular weight sensor is installed; and transmitting the paint chip order to a computing system. 6. The system of claim 5 , wherein transmitting the paint chip order to the computing system causes the computing system to generate an order for the associated paint chips.