Abstract:
Apparatus, systems and methods for providing portable storage for multiple users are disclosed. The portable storage systems may be used to accommodate the storage needs of multiple users. The portable storage solutions provide the capability to individuals to store relatively small quantities of materials off-site for a fixed or an undetermined amount of time, and are designed such that, in most instances, the materials are returned to the user at the same or different location when they are desired. The portable storage apparatus, systems and methods are cost-effective and provide a consumer with more flexibility than standard storage options.

Description:
FIELD OF THE DISCLOSED SUBJECT MATTER 
       [0001]    This is directed to apparatus, systems and methods for providing portable storage solutions for transient and multiple users. 
       BACKGROUND OF THE DISCLOSURE 
       [0002]    For a variety of reasons, people often find that they just don&#39;t have enough room to keep everything they own in one place. Simple solutions, such as storing some of their goods at a friend&#39;s or relative&#39;s residence are often not the best solution. This has led to the widespread use of storage facilities often referred to as “self-storage,” in which a user can rent out space on a regular basis (such as monthly or annually). In many of these instances, the user selects the amount of space he/she believes is necessary and then often only has limited access to the site to add or remove items (e.g., such facilities often have limited hours of operation and individuals are typically not provided with access unless the facility is open). In addition, the typical minimum size of such facilities often approaches 100 square feet. 
         [0003]    In other instances, the need for storage is somewhat more temporary (e.g., versus a self-storage that is often kept for years). For example, in situations where a family is undergoing major renovations to their house (such that they move out temporarily), most of their belongings must be stored while they stay in temporary housing. One common solution to this circumstance to have what is essentially an enclosed “dumpster” delivered to the house so that the belongings can be put away (these “dumpsters” are sometimes referred to as “pods”). The “dumpster” can then sit in the driveway with all of the belongings while the renovations are accomplished, or it can be taken away and returned after the work has been completed. This type of solution, however, also has problems in that the dumpster is essentially a single use device for a single family; and that if it is taken away from the site, is basically inaccessible until it is returned. In addition, even if the dumpster stays on-site, the only way to retrieve items from the back of the dumpster is to essentially unpack it manually (and then repack it). Other potential problems with the dumpster approach include the issues involved if a family uses dumpsters during renovations, but lives in a multi-family dwelling, such as a duplex (or even the potential issues that could be raised by unhappy neighbors). 
         [0004]    There appears to be, in fact, another situation for which neither of the above solutions are practicable. This situation relates to transients, such as college students, who spend a major portion of each of several years at a particular location, but must pack up and leave for another portion of each of those years. These individuals often could greatly benefit by avoiding the hassle and cost of moving their belongings home for the summer, only to have to move them back to campus again when school restarts in the following fall. If such a storage solution were provided, for example, the students could leave their schools belongings on-site and return home via a more convenient method than requiring someone to drive them home with their belongings. The dumpster approach, however, could result in the undesirable situation of dumpsters spending the summer strewn all over a college campus, as well as the fact that no single student would ever need that much storage. 
         [0005]    The self-storage facilities and “dumpsters” are simply impractical, at least in part, because students typically do not have enough material to store to justify renting even the smallest enclosure in either instance. Moreover, students typically do not have easy and inexpensive access to a way to transport their goods to such a facility. Another alternative is to pack up the student&#39;s belongings and to ship them home. This option, however, is likely to be expensive, and still requires that the student get the packed belongings to the shipper (unless even more charges for pickup are incurred). Thus, transients, such as students, are often left with little choice but to drag their belongings back and forth as each cycle of residency changes. 
       SUMMARY OF THE DISCLOSURE 
       [0006]    Apparatus, systems and methods are provided for providing portable storage solutions for transient and multiple users. 
         [0007]    In one embodiment, a portable, self-contained, storage center is provided that can be transported to and from designated locations on specified dates or over a fixed range of dates (e.g., the units may be available at a college dorm from the day classes end until one week after final exams are over). The storage center can be configured for easy transport such that it can quickly and easily be moved between different locations while still being large enough to provide storage space for multiple users at a given location. 
         [0008]    A portable storage center may store items from several different users all within the same housing. User items may be arranged within the center such that individual users picking up or dropping off items may have their items stored adjacent to each other within the same storage unit (or they may be stored in a haphazard manner within the center, provided that the location of each item is accounted for). The unit may include a user interface, an external portable housing, an internal framework, and an organization mechanism that may automatically organize users&#39; items within the framework. The items may be stored in standardized bins, designed to fit within specific locations of the internal framework. In certain embodiments, the items may be stored in bins of various sizes, and the internal framework and organization mechanisms may be adjustable to accommodate the varying bins. 
         [0009]    In certain embodiments, the user interface may be coupled to communications circuitry that may communicate with remote servers to modify user storage orders, to receive user payments, or to accommodate other user requests. The user interface may also be able to store user storage order data or payment data on local memory. Depending on drop off or pick up needs, multiple storage units may be sent to the same location for users to pick up or drop off their items. The external housing of a storage unit may be able to interconnect to the external housing of one or more other storage units. 
         [0010]    The external housing may also be configured to be connected to a transportation device (e.g., truck, boat, car, airplane, etc.) for delivery to or from a pick up or drop off location (or, for example, the external housing may be configured to be part of the transportation device itself). The housing may use a variety of connection mechanisms (e.g., hooks, claps, wires, bolts, etc.) depending on the type of transportation device the housing will be connected to. 
         [0011]    In certain embodiments, the external housing may, in fact be divided into multiple units. One unit, that may stay on location permanently or semi-permanently, may be the portion of the housing that contains the device that users may utilize to interact with the system, as well as the portion that accepts the storage units from the user and inputs them into the system (i.e., the input/output portion). The other portion of the housing (i.e., the storage portion) may be designed such that it temporarily mates with the input/out portion, and while mated accepts storage units for storage therein. The storage portion can include one or more mechanisms to move the input storage units to a particular internal location for storage (or transport a storage unit being retrieved to the input/output portion). The input/output unit may include temporary storage space that would enable storage operations to continue while the storage unit portion was being replaced (in which case, the temporarily stored items could be automatically moved to the storage unit as time permits). 
         [0012]    In some embodiments, a user may walk up to the external housing to drop off or pick up stored items. The user may first approach the user interface, which can be a touch screen interface, a keyboard, a mouse, or any other combination typical for user interfaces. The user would then provide the proper identification in order to comply with security requirements. Once the user has been identified, the user may utilize the user interface to command the system as is appropriate. For example, if the user were dropping off items for storage, the user could place the items in a storage unit, and instruct the system that material needed to be stored. Another interface, such as a sliding panel, could then open to receive the storage unit. The user could wait while the storage unit is stored, and then the user could be provided with a confirmation receipt. 
         [0013]    In one or more embodiments, a user may be able to designate another person to pick up or drop off his items for him. For security reasons, this may require a special user login when the designated person comes to drop off or pick up an item. The special login may allow the designee to pickup packages on behalf of the original user without allowing the designee access to the original user&#39;s account information or the ability to modify the original user&#39;s order. 
         [0014]    Depending on storage availability and/or other factors, when the user goes to the storage center to pick up or drop off his belongings, he may be able to modify his original storage order from the storage provider. For example, the user may have the option of purchasing additional storage space if it is available, changing his pick up date, and/or changing his pick up location. The user may also have the option of paying for some or all of his storage costs while dropping off or picking up his items. 
         [0015]    In various embodiments, the storage center can include network communications circuitry that can be configured to communicate with users and/or storage providers. For example, in certain embodiments, a user can specify his storage needs to a storage provider, and the storage provider can present the user with a list of available storage times and locations. For example, a user may specify that he needs to pick up or drop off a given number of items on a given date at or near a given location. If he is dropping items off, he may specify how long he plans on renting the storage space for and specify a desired pickup date. Based on the user&#39;s requirements, the storage provider may provide a list of available pick up or drop off dates and locations meeting the user&#39;s criteria. The user may also be provided with the opportunity to revise the desired pickup date remotely, without having to return to the location where the materials were dropped off. 
         [0016]    If the available drop off and/or pick up locations or dates are inconvenient for a user, in certain embodiments, he may be able to contact a storage provider to schedule a personalized drop off or pick up date and/or location, depending on storage unit availability. In certain embodiments, the user may be charged additional fees for this convenience, and storage priority may be given to users who pick up or drop off their items at dates and locations specified by the storage provider. 
         [0017]    In other embodiments, the network interface can also be utilized for increased efficiency. For example, the portable storage unit can provide real-time updates of stored materials to an upstream system. The upstream system can monitor each portable storage unit and may initiate a command for a replacement unit to be moved on-site if the amount of used storage units and/or used storage space exceeds a pre-determined threshold. That threshold may vary depending of the conditions, such as the rate at which storage units are being occupied. If the rate is slow, the system could wait until a larger percentage of units are utilized prior to initiating the replacement command. In either case, the system could send out a request for more storage space via the internet (through a Wi-Fi or cell connection), an SMS text message, an automated phone call, or other similar method. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0018]    The above and other aspects and advantages of the disclosed subject matter will be apparent upon consideration of the following detailed description, taken in conjunction with accompanying drawings, in which like reference characters refer to like parts throughout, and in which: 
           [0019]      FIG. 1  is a schematic view of an illustrative portable storage center according to at least some embodiments of the invention; 
           [0020]      FIG. 2  is a schematic view of an illustrative portable storage center according to at least some embodiments of the invention; 
           [0021]      FIG. 3  is a schematic view of an illustrative storage bin and roller unit assembly for use in a portable storage center according to at least some embodiments of the invention; 
           [0022]      FIG. 4  is a schematic view of an illustrative internal inventory control assembly for use in a portable storage center according to at least some embodiments of the invention; 
           [0023]      FIG. 5  is a schematic view of an illustrative portable storage center according to at least some embodiments of the invention; 
           [0024]      FIG. 6A  is a schematic view of an illustrative user interface display for a portable storage center according to at least some embodiments of the invention; 
           [0025]      FIG. 6B  is a schematic diagram of illustrative circuitry that can be used according to at least some embodiments of the invention; 
           [0026]      FIGS. 7-8  are flowcharts of a illustrative processes for storing items in a portable storage center according to some embodiments of the invention; and 
           [0027]      FIGS. 9A-9B  are flowcharts of illustrative processes for managing a portable storage center according to at least some embodiments of the invention. 
       
    
    
     DETAILED DESCRIPTION 
       [0028]    Apparatuses and methods are disclosed for providing portable storage for multiple users. 
         [0029]      FIG. 1  is a schematic view of an illustrative portable multiuser storage center  100 , in accordance with at least some of the embodiments of the present invention. 
         [0030]    Portable storage center  100  may include external housing  102 , front screen  104 , user interface device  106 , input/output  108 , security doors  110 , and multiple storage bins  112 . As is explained in more detail below, a user (shown for illustrative purposes in  FIG. 1 , but not referenced) can place one or more items in one of storage bins  112 , utilize the user interface device to communicate with center  100 , and place the selected storage bin  112  in input/output  108  such that the selected bin  112  is stored and categorized within center  100 . 
         [0031]    In some embodiments, one or more components of portable storage center  100  may be combined or omitted (e.g., security doors  110  may be omitted or they may be incorporated into front screen  104 ). In some embodiments, portable storage center  100  may include other components combined or included in those shown in  FIG. 1  (e.g., a processor and memory associated with user interface device  106 , an internal organization mechanism capable of arranging storage bins within the portable storage unit (such as that shown in some of the figures and described below), or a coupling device allowing portable storage unit to couple to a second portable storage unit or to a transportation system, which is also show in additional figures and described in more detail below). 
         [0032]    Front screen  104  may be used to protect the internal framework, contents, and storage mechanisms of portable storage center  100 . The design of front screen  104  can be modified depending on the size and use of portable storage center  100 . For example, front screen  104  may have openings to accommodate user interface device  106  and/or input/output  108 . Front screen  104  may also have ventilation gaps to help maintain proper atmospheric conditions within center  100 . In some embodiments, front screen  104  may be removable, which may allow for easier storage and make cleaning and repairs easier. In other embodiments, front screen  104  may be fabricated from a material such as steel in order to protect the contents within center  100 . 
         [0033]    As is described in more detail below, user interface device  106  may be used by users of portable storage center  100 , for example, to enter their account information, modify their orders, make payments, or to confirm previously made storage orders. User interface device  106  may include one or more data storage mediums (e.g., a hard-drive, solid state drive, flash memory, permanent memory (e.g., ROM), any other suitable type of storage component), a processor, network communications circuitry, and/or a user display screen. User interface device  106  may also include any suitable input interface, such as, for example, a button, a mouse, a keyboard, or a touch screen. If a network interface is provided, that interface may be wireless via a cellular network connection, a Wi-Fi connection or any other connection (or a combination of connections may be available). The network interface, if available, may be constantly active, such that every transaction is transmitted across the network, or it may be designed such that network interface transactions only occur periodically. 
         [0034]    The specific configuration of the portable storage center can vary in several ways. For example,  FIG. 2  is a schematic view of at another embodiment of the present invention in portable storage center  200 . Portable storage center  200  is similar to center  100  in many ways, however, the external housing has now been manufactured as two separate components, input/output housing  215  and storage housing  222 . These two component pieces replace external housing  102  of  FIG. 1 . I/O housing  215  and storage housing  222  can be manufactured such that they can be mated together. If such a configuration were used, it would be advantageous to utilize multiple instances of storage housing  222 . 
         [0035]    I/O housing  215  may be configured such that it remains on-site during the entire period that loading occurs (or even longer if desired), while storage housing unit  222  may only remain on-site until it has reached a predetermined capacity. At that point in time, or at about that time, a replacement storage housing  222  may be brought to the site so that users will not incur a condition where there is not more room to store their materials. In unloading situations, it may be advantageous to utilize multiple instances of storage housing  222  (shown as dashed housings  222   a  and  222   b ), along with an interface unit (not shown in  FIG. 2 ) that would be inserted roughly in the area noted by reference numeral  224 . The interface unit (not shown) may enable all of storage housings  222 ,  222   a  and  222   b  to be operational simultaneously in order to dispense with stored materials in an efficient and timely manner (such as when students return to college to begin a new school year). 
         [0036]    I/O housing  215  can contain some or all of the internal components of center  100 . For example, I/O housing  215  can include an input interface device  206  that is substantially similar to device  106  described above. I/O housing  215  can also include input/output  208  (similar to input/output  108  of  FIG. 1 ), and doors  220  can be similar to doors  110 . In a manner similar to that described above, a user (shown without a reference numeral for illustration purposes only) can utilize one or more storage bins (such as bins  112  shown in  FIG. 1 ) for storing materials within storage housing  222 . 
         [0037]      FIG. 3  is a schematic view of an illustrative storage bin and roller unit assembly  300  for use in a portable multiuser storage system. 
         [0038]    Assembly  300  may include sensors  305  and  315 , storage bin  312 , box  322  (box  322  is optional, as is described more fully below), framework  330 , and rollers  340 . Storage bin  312  may be similar to storage bin  112  shown in  FIG. 1 . In some embodiments, multiple instances of assembly  300  may be used as part of a portable storage system similar to portable storage center  100  of  FIG. 1 , or as part of portable storage center  200  of  FIG. 2 . Framework  330  and rollers  340  may utilized inside the storage center in close proximity to input/output  108  and/or  208 , such that framework  330  and rollers  340  act to transport the storage bin from outside the center to the inventory control assembly that may be located within the storage housing portion of the center (regardless of whether that storage housing is simply the rear section such as in center  100 , or a physically separate unit, as in storage housing  222 ). 
         [0039]    In certain embodiments, it may be advantageous to have storage bin  312  stored inside storage box  322 . For example, users may purchase or lease storage bins  312  and keep them at their residence when they are not being used to store materials in the storage center. As such, there may be markings, decorations, etc., that uniquely identify the storage bin as belonging to a specific user. In addition, the storage center may operate more efficiently through the use of bar codes, RFID tags/labels or the like that can be affixed to one of storage boxes  322  or storage bins  312 , however, such identification may get damaged by the user if affixed to storage bins  312 . The storage center can then read the code or label and use that information to identify the user, date stored, list of materials stored, location of storage within the storage housing, etc. In this manner, the bar codes or RFID tags/labels remain inside the storage center at all times. 
         [0040]    As stated above, framework  330  and rollers  340  may be designed to allow storage bins  312  and/or storage boxes  322  to easily move from the user to the inside of the portable storage center. For example, once a user has placed a storage order using the user interface, such as the user interface described above, the storage center can retrieve an empty storage box  322  and send the empty box through framework  330  and across rollers  340  so that it appears at the input/output door. The user could then place the storage bin  312  inside the empty storage box  322  before putting box  322  back through the input/output door. Sensor  305  should detect that a storage bin or box has been inserted into center  300 , while sensor  315  indicates that that the storage bin is moving from the input/output area into the storage area (additional sensors can be used to further refine the process). 
         [0041]    Alternately, the storage center can be designed such that the user places storage bin  312  directly through the input/output door, where the center then places the bin inside of an empty storage box  322  (once again, so that the storage box remains internal to the storage center at all times). In addition, storage center  300  can be designed to utilize only storage bins  312 , in order to simplify processing and handling. In this case, however, storage bins  312  would have to be designed to be sturdy, resilient and strong, as well as have protected identification symbols so that the bins do not get misplaced inside the storage center. 
         [0042]      FIG. 4  is a schematic view of an illustrative internal inventory control assembly  400  for use in a portable multiuser storage center, such as centers  100  and/or  200  described above. 
         [0043]    Assembly  400  may include a series of shelves  430  that can be adapted to store one or more storage bins  412  and/or storage boxes (similar to boxes  322  described above), a transport mechanism  450  and an elevator  460 . Elevator  460  also includes sensors  465  that detect when a storage bin is placed on and taken off of elevator  460 . Similar sensors, which are not shown for clarity, are placed throughout assembly  400  to track the status of the storage bin currently being manipulated in the assembly. Shelves  430  may be flat shelves or they may include one or more mechanisms that can be utilized to move storage bins  412  in to and out of place. For example, shelves  430  may be formed of rollers similar to rollers  340 , in which case the rollers can be free moving, connected to controlled linkage such that they can change rolling direction on command, or a combination of both designs. Shelves  430  could also be formed from conveyor belt assemblies that can be controlled automatically based on commands from a command terminal (such as the processor coupled to the user interface described above). And shelves  430  can also be formed from a combination of those or other mechanisms that can assist in moving the storage bins throughout the storage center. 
         [0044]    Shelves  430  may be organized in a series of rows and columns as shown in  FIG. 4  to try and maximize storage capacity while maintaining the ability to automatically store and retrieve the stored bins (or boxes). In the illustration shown in  FIG. 4 , there are twelve columns and five rows, and one side can store two bins per shelf. Thus, the configuration shown could store up to 180 individual storage bins  412 . depending on the size of the storage bins  412  used, the shelves and spacing can be varied to accommodate more or less storage bins (e.g., bigger bins equate to less bins per storage housings). 
         [0045]    In addition to shelves  430 , assembly  400  can also include a transport mechanism  440  that can automatically communicate with assembly  300  (shown in  FIG. 3 ), such that storage bins can be easily input by a user and stored, and then easily retrieved at a later time. Transport mechanism  440  can be formed integral with shelves  430 , or it can be separately formed and assembled within the storage housing to cooperate with shelves  430 .  FIG. 4  shows transport  440  as a series of assemblies similar to rollers  340  of  FIG. 3 . 
         [0046]    While the rollers are all shown in a single direction (side-to-side), assembly  440  can be constructed such that two sets of rollers that operate perpendicular to each other, or one set of rollers and one set of conveyors that operate perpendicular to each other. Such a configuration would enable transport  440  to move storage bins  412  up and down axis  470  until the storage bin was aligned with the appropriate column, and then to move the storage bin in a direction along axis  480  (essentially, perpendicular to the first axis of movement), such that the storage bin was placed into storage. In addition, elevator assembly  460  can be used to move storage bins to/from assembly  300  (of  FIG. 3 ) from/to transport mechanism  450 . It should also be noted that it would be advantageous for assembly  400  to be constructed in a somewhat modular manner, such that, for example, if two instances of assembly  400  were placed end-to-end, elevator  460  on one assembly could move storage bins  412  between the two assemblies (see  FIG. 5  for more detail). 
         [0047]    While operation of assembly  400  is described in more detail below, it should be noted briefly that an incoming storage bin  412  could be moved along assembly  300  to elevator  460 . Elevator  460  could then capture the storage bin and raise or lower it to the appropriate floor for storage, before moving it to transport mechanism  450 . Mechanism  450  could then move storage bin  412  along axis  470  to the proper column, and then along axis  480  into final position for storage. 
         [0048]      FIG. 5  is a simplified schematic diagram of a portable storage center  500  constructed in accordance with at least one embodiment of the present invention. Center  500  can include I/O housing  515  (which is similar to I/O housing  215 , and three instances of storage housing  222  which have been labeled  522 ,  532  and  542 . Each of the instances of storage housing  222  can include an assembly  400  to manage the storage and transportation of storage bins  412  in and through the specific storage housing. Assemblies  400  are configured such that elevator  460  is located toward the front of each storage housing (e.g., the first elevator  460  would be located at position  524 , the second at position  534  and the third at position  540 ). Center  500  can be utilized when space is available to increase the immediate capacity and flexibility of the storage center. For example, a single instance of assembly  400  as shown has the capacity to store  180  storage bins at one time, while three instances increases capacity to 540 storage bins. In addition, storage housings  532  and  542  could potentially be replaced, even while storage housing  522  was being populated with storage bins, so that users should never experience a ‘Closed/Full’ situation. 
         [0049]      FIG. 6A  shows a sample illustration of a user interface that can be utilized with the portable storage centers described above in accordance with at least some embodiments of the invention. User interface  600  is one example of how user interfaces  106  and/or  206  could be implemented. User interface  600  includes a keyboard  650 , a display region  660 , a camera device  672 , a microphone  674 , a speaker  676 , a ‘HELP’ button  678  and a ‘SIGN IN’ button  680 . With the exception of the camera, microphone and speaker, all of the rest of the components of user interface  600  can be accomplished with discrete hardware or as part of a touch screen interface. If the entirety of user interface  600  were designed as a single touch screen display, camera  672 , microphone  674  and speaker  676  could all be located slightly above the touch panel. 
         [0050]    Camera  672 , microphone  674  and speaker  676  can be user in combination with ‘HELP’ button  678  to provide the user with ‘Live’ assistance, if the user is experiencing problems. Such a configuration would require that the I/O housing portion contain some form of communication circuitry, such as a modem, cellular or Wi-Fi connection. The same hardware components can also be utilized for security purposes, both to monitor what happens to the user interface, as well as to provide a way to contact the authorities in the event that something undesired does occur. 
         [0051]    User interface  600  can be utilized in many ways, some of which are described below in more detail. In addition, it may be advantageous for the user to utilize an internet-based account to manage the storage process. For example, a user could create an account on-line, including name and contact information, as well as a user ID and password. The user could then make a reservation on-line for storage space in the local portable storage center. When the user is ready to drop off the materials for storage, the user could then utilize user interface  600  by depressing ‘Sign In’ button  680  (either a physical button or a ‘soft’ touch screen button), which would activate a login page on display  660 . Login could occur via keyboard  650  (which could be a physical keyboard or a touch screen keyboard). Then the user&#39;s reservation would appear for confirmation. Once confirmed, the storage center would take over and open the input/output door so that the user could start placing storage bins into the storage center. 
         [0052]      FIG. 6B  shows a schematic diagram of circuitry  690  that can operate according to at least some embodiments of the invention. Circuitry  690  can be utilized to provide some or all of the material displayed on user interface  600 , control the input/output functions for camera  672 , microphone  674  and speaker  676 , as well as receive inputs from keyboard  650 , display  660  (if it is a touch screen display) and buttons  678  and  680 . Circuitry  690  can include processor  692 , memory  694 , communications module  696  and i/o module  698 . Processor  692  can be coupled to the other components via connections  693  (to memory  694 ),  695  (to communications module  696 ) and  697  (to i/o module  698 ). In addition, communications module  696  and i/o module  698  can be coupled together via connection  699 . 
         [0053]    Circuitry  690  can operate to perform many of the functions described above, such as interfacing with the user, controlling some or all aspects of user interface  600 , communicating with other systems within the corporate structure of the operator of the storage center so that any inputs made directly into the user interface are fed into the overall system management architecture, communicating with the authorities in the event that vandalism is attempted, etc. For example, when a user logs into the system on-site, processor  692  can verify the login information locally using data stored in memory  694 , and then use communications module  696  to verify the reservation that the user is attempting to confirm, while communicating through i/o module  698 . 
         [0054]      FIG. 7  shows a flow diagram that illustrates a process  700  in which a user can store materials in a portable storage center in accordance with at least some embodiments of the invention. Process  700  is the most basic process and it begins at step  702 . The user creates an account at step  704 , which should include a user ID and password, as well as contact information. Once the account has been created, the user logs into that account in step  706  (this step can be a separate and distinct step), or the system could automatically log the user in and move on to the reservation or home page of the system. Once the user is logged in, the user can then make a reservation in step  708 . 
         [0055]    A decision is made in step  710  whether the reservation was made on-site, in which case the process would proceed directly to step  714 . Otherwise, the user must first log in to the account upon arrival at the portable storage center in step  712 . The login process can occur using user interface  600 , or a comparable interface. Once the user is logged in on-site, the user needs to confirm the reservation to start the storage process in step  714 . Once the process has started, the door to the input/output device (such as device  108  or  208 ) opens and the user can begin placing storage bins into the portable storage center. Once the system determines that the number of storage bins in the reservation have been stored (or if the user elects to cancel any remaining storage bins), the process stops in step  718 . 
         [0056]      FIG. 8  shows a flow diagram that illustrates a process  800  that can occur once the user confirms the reservation in step  714  of process  700  (these steps can be the detailed steps that can occur in step  716  of process  700 ) in accordance with at least some embodiments of the invention. Process  800  begins at step  802 . The input/output door is opened in step  804  and the user eventually places a storage bin inside the opening. A sensor, in step  806 , detects that a storage bin is being inserted into the input/output section, then rollers or conveyors are activated in step  808  to pull the storage bin into the portable storage center. At this time, an optional step  809  may occur in which the storage bin is placed into a storage box that includes identification information, such as a bar code, RFID tag/label, etc. Such information may be included on the storage bin that the user manipulates, but that increases the likelihood that the identification may get damaged or dislodged and lost. However, it may be possible to embed an RFID tag with the storage bin itself, thereby significantly reducing the risk of damage to the identifier. In that case, it would be advantageous to omit step  809  and to utilize only the storage bins. 
         [0057]    In either case, process  800  continues when a sensor, in step  810 , detects that the storage bin is leaving the input/output area. Another sensor, in a step  812 , detects that the storage bin is moving on to the elevator  460 . The elevator moves to the proper level in step  814  (e.g., in the case of assembly  400 , there are five different levels where the storage bin can be stored). Once the elevator has stabilized at the proper location, the rollers/conveyors are activated in step  816  to begin moving the storage bin to transport mechanism  450 . A sensor detects that the storage bin is moving on to the transport mechanism in step  818 . The transport mechanism, guided by inputs from sensors placed at various locations throughout the mechanism (such as at column), moves the storage bin to the proper location in step  820 , and a confirmation message is sent to the user in step  822 . The confirmation message can be sent to display  660 , and/or directly to the user via the contact information associated with the user&#39;s account. Process  800  then stops at step  824  (or repeats itself for multiple storage bins). 
         [0058]      FIG. 9A  is a flow chart of an illustrative process  900  for managing a portable storage center according to at least some embodiments of the invention. Process  900  begins in step  902 . Reservations made for a given location are monitored in step  904 . Resources are allocated for a given location based on the monitored reservations. This step may include, for example, directing users to another location (such as a different part of campus where there may be more room for more storage housings at the same time), increasing the frequency in which empty storage housing might be delivered to a given location to replace full housings, changing the size of the housings for a given location (i.e., making them smaller or larger as is appropriate). In addition, as described above, the system may constantly monitor capacity thresholds to automatically order additional storage housings. This may be particularly important if there is a large quantity of walk-up traffic, such as non-reserved storage requests and/or reserved storage requests that exceed the reserved quantity of storage space. 
         [0059]    The system monitors the fulfillment of reservations on a regular basis in step  908 . This can include direct real-time updates as each order is fulfilled via a network, Wi-Fi or cellular interface, or periodic updates in a similar manner, such as every hour, every six hours, etc. In step  910 , resources can be additionally reallocated based on the periodic updates (for example, a user may have reservation for two storage units, but may update and fulfill the reservation for five storage units unexpectedly). Additionally, it may become apparent that a certain percentage of users are not fulfilling their reservations, which could lead to unnecessary excess capacity. 
         [0060]    A periodic check is made in step  912  to see if all of the reservations have been fulfilled. If not, the process returns to step  908 , but if they have been fulfilled, then a check is made as to whether the time on-site has expired. Once time has expired, regardless of whether all of the reservations have been fulfilled, the system may indicate that the remaining storage housing should be removed in step  916 , and process  900  ends in step  918 . 
         [0061]      FIG. 9B  is a flowchart of an illustrative process  920  according to at least some embodiments of the invention. Process  920  starts in step  922 . In step  924 , the system monitors withdrawal requests as they are processed for specific locations. Withdrawal requests, in general, may require a more compressed schedule in view of the fact that students typically are all required to be on location by a certain date versus the end of a semester when individuals typically leave a campus over a longer period of time as finals are completed. In addition, students may return to a campus at a different location than the location at which the materials were stored (e.g., such as a different dorm on the other side of campus). 
         [0062]    As withdrawal requests come in, the system and management can begin to evaluate and plan for the return of stored materials, in step  926 , based on the quantity, locations and proposed dates of withdrawal. Stored resources are then moved from one storage housing to another to attempt to manage and plan for changed locations in step  928 . Additional evaluations can be made in step  930  to determine capacity requirements and on-site space requirements to meet the likely more rapid disbursement requests. 
         [0063]    As planning determines that changes need to be made to meet with varying distribution requirements, materials are moved from one storage unit to another in step  932  to attempt to meet the rapid withdrawal requirements. Final planning occurs at the storage unit level and the storage units are transported on-site in accordance with a given plan at step  934 , and process  920  ends at step  936 . 
         [0064]    In addition to picking up or dropping off belongings in a group setting (e.g., at a college at the end of the semester or school year), in certain embodiments, a user may pick up or drop off of his belongings on his “own” schedule, or a user may request that the stored items be retrieved and delivered. This beneficial feature, in accordance with at least some embodiments, is possible because the amount of material stored in each storage bin is relatively small, and because the location of each storage bin for every user is known. Thus, if an individual decided not to return to school after storing their materials on-site, the stored materials could easily be retrieved and shipped to the user. 
         [0065]    The above described embodiments of the disclosed apparatus, systems and methods are presented for purposes of illustration and not of limitation. Further, it should be noted that the language used in the specification has been principally selected for readability and instructional purposes, and may not have been selected to delineate or circumscribe the disclosed subject matter. Accordingly, the disclosure of the presently disclosed subject matter is intended to be illustrative, but not limiting, of the scope of the claimed subject matter, which is set forth in the following claims.