Transportable climate-controlled units for fulfillment of perishable goods

Therefore, the following is claimed: 1. A system, comprising: an inventory holder comprising a frame, the frame having a power supply, the frame further comprising a plurality of shelves, at least a portion of the shelves being configured to store non-perishable items thereon; a plurality of refrigeration units electrically coupled to the power supply and positioned on the shelves, individual ones of the refrigeration units being configured to store perishable items therein and comprising: a battery; a sensor configured to measure an internal temperature; a network interface; and processing circuitry configured to: communicate the internal temperature of a respective one of the refrigeration units to the at least one computing device over a network using the network interface; and adjust the internal temperature in response to receipt of a request from the at least one computing device, the internal temperature being adjusted based at least in part on a temperature characteristic of an item assigned for storage therein; and a mobile drive unit being configured to: physically couple to the inventory holder and electrically couple to and perform a charging process that charges the battery of the refrigeration units and the power supply of the frame; transport the inventory holder and the refrigeration units from a first location to a second location based at least in part on an instruction received from the at least one computing device; and transport the inventory holder and the refrigeration units from the second location to a third location based at least in part on the item being removed from the respective one of the refrigeration units and scanned. 2. The system of claim 1 , wherein: the mobile drive unit comprises a drive unit battery and at least one battery level sensor configured to measure a battery level associated with the drive unit battery; and the mobile drive unit is configured to transport the refrigeration units from the first location to a charging station in response to the battery level being below a threshold level. 3. The system of claim 1 , wherein: the refrigeration units further comprise at least one battery level sensor configured to measure a battery level associated with the battery; and the mobile drive unit is configured to transport the frame and the refrigeration units from the first location to a charging station in response to the battery level being below a threshold level. 4. A system, comprising: an inventory holder comprising a frame having a plurality of shelves, the inventory holder comprising a power supply; a plurality of refrigeration units stored on the shelves and coupled to the power supply, individual ones of the plurality of refrigeration units comprising: a battery; and a network interface for communication with at least one computing device; and a first mobile drive unit being configured to perform a charging process that comprises navigating through an opening of the frame and electrically coupling to the inventory holder and the plurality of refrigeration units to charge the inventory holder or the plurality of refrigeration units; and a second mobile drive unit being configured to transport the inventory holder and the plurality of refrigeration units from a first location to a second location. 5. The system of claim 4 , wherein the first mobile drive unit is configured to dock with the frame of the inventory holder. 6. The system of claim 4 , wherein the individual ones of the plurality of refrigeration units further comprise at least one sensor configured to measure an internal temperature. 7. The system of claim 6 , wherein the individual ones of the plurality of refrigeration units further comprise processing circuitry being configured to: determine that the internal temperature of a respective one of the plurality of refrigeration units is within a temperature threshold associated with at least one item stored therein; and in response to the internal temperature of the respective one of the refrigeration units not being within the temperature threshold, adjust the internal temperature. 8. The system of claim 6 , wherein the individual ones of the plurality of refrigeration units further comprise processing circuitry being configured to: communicate the internal temperature to the at least one computing device over a network using the network interface; and adjust the internal temperature of a respective one of the plurality of refrigeration units in response to receipt of a request from the at least one computing device. 9. The system of claim 4 , wherein the first mobile drive unit provides power to the battery of the plurality of refrigeration units or to at least one other component of the plurality of refrigeration units. 10. The system of claim 4 , wherein the second mobile drive unit is configured to receive an instruction from the at least one computing device through the network interface that causes the second mobile drive unit to transport the refrigeration units from the first location to the second location. 11. The system of claim 4 , wherein: the first mobile drive unit and the second mobile drive unit comprise a battery and at least one sensor configured to measure a battery level associated with the battery; and the first mobile drive unit and the second mobile drive unit are configured to transport the plurality of refrigeration units from the first location to a charging station in response to the battery level being within a threshold level. 12. The system of claim 4 , wherein: individual ones of the plurality of refrigeration units comprise a battery and at least one sensor configured to measure a battery level associated with the battery; and the second mobile drive unit is configured to transport the plurality of refrigeration units from the first location to a charging station in response to the battery level being within a threshold level. 13. The system of claim 4 , wherein the second location is associated with a charging station. 14. The system of claim 4 , wherein the frame of the inventory holder comprises at least one leg having a length suitable to receive the first mobile drive unit at a position underneath the plurality of refrigeration units, wherein the at least one leg is configured to electrically couple to a floor-mounted charging mechanism. 15. A method, comprising: identifying, by at least one computing device comprising at least one hardware processor, that a battery level associated with at least one refrigeration unit has fallen below a predefined threshold; receiving, by the at least one computing device, location data associated with the at least one refrigeration unit; communicating, by the at least one computing device, an instruction to a first mobile drive unit that causes the first mobile drive unit to navigate to a current location of the at least one refrigeration unit based at least in part on the location data; causing, by the at least one computing device, the first mobile drive unit to initiate a charging process, wherein the charging process comprises the first mobile drive unit electrically coupling to the at least one refrigeration unit and charging a power supply of the at least one refrigeration unit; identifying, by the at least one computing device, that the current location of the at least one refrigeration unit is a packing station; verifying, by the at least one computing device, that at least one item has been removed from the at least one computing device and scanned; and in response to the at least one item being removed and scanned, causin