A computer-based ordering system for ordering goods and services includes a plurality of self-service client terminals and a server. Each self-service client terminal runs a self-order application including a set of interactive menu screens having buttons that allow the customer to select and customize products for the order. An administration tool application communicates with the server to administer the self-service client terminals. The administration tool application including a menu editor that enables the administrator to create and edit the interactive menu screens provided by the self-order application at the self-service client terminals. The menu editor accesses a library of menu templates containing predefined groupings of buttons, and uses the menu templates, as directed by the administrator, during creation and editing of the interactive menu screens.
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0. 40. A non-transitory computer-readable medium storing instructions executable on a processor, the instructions comprising:
displaying menu items to a user on a display;
receiving input from the user via an input device;
in response to the input indicating selection by the user of a first menu item of the menu items:
displaying a multi-part button associated with a component part of the first menu item;
displaying a plurality of additional buttons associated with the multi-part button, wherein each of the plurality of additional buttons corresponds respectively to a different amount of the component part in the first menu item, and wherein a first button of the plurality of additional buttons corresponds to a default for the multi-part button; and
displaying a visual indicator corresponding to the first button;
in response to the input indicating selection by the user of a second button of the plurality of additional buttons while another one of the plurality of additional buttons is presently selected, (i) displaying a visual indicator corresponding to the second button and (ii) maintaining visibility of the plurality of additional buttons; and
in response to the input indicating selection by the user of the second button while the second button is already selected, hiding the plurality of additional buttons from view of the user.
0. 24. A non-transitory computer-readable medium storing instructions executable on a processor, the instructions comprising:
displaying menu items to a user on a display;
receiving input from the user via an input device;
in response to the input indicating selection by the user of a first menu item of the menu items, displaying a multi-part button associated with a component part of the first menu item;
in response to the input indicating selection by the user of any portion of the multi-part button while a plurality of additional buttons associated with the multi-part button are not visible, displaying the plurality of additional buttons, wherein each of the plurality of additional buttons corresponds respectively to a different amount of the component part in the first menu item, and wherein a first button of the plurality of additional buttons corresponds to a default for the multi-part button;
in response to the input indicating selection by the user of a second button of the plurality of additional buttons while another one of the plurality of additional buttons is presently selected, (i) displaying a visual indicator corresponding to the second button and (ii) maintaining visibility of the plurality of additional buttons; and
in response to the input indicating selection by the user of the second button while the second button is already selected, hiding the plurality of additional buttons from view of the user.
0. 1. A computer-based ordering system for ordering goods and services, the system comprising:
a self-service terminal for use by a customer to place an order, the self-service terminal including a processor and a storage medium storing a self-order application, the self-order application providing a first user interface including a set of interactive menu screens having buttons that allow the customer to select and customize products for the order;
the storage medium further storing an administration tool application for administering the self-service terminal, the administration tool application providing a second user interface that can be accessed by the administrator to perform various administrative functions, the administration tool application including a menu editor that enables the administrator to create and edit the interactive menu screens provided by the self-order application; and
wherein the menu editor is resident in the self-service terminal accesses a library of menu templates containing predefined groupings of buttons, and uses the menu templates, as directed by the administrator, during creation and editing of the interactive menu screens.
0. 2. The computer-based ordering system of
0. 3. The computer-based ordering system of
0. 4. A computer-based ordering system for ordering goods and services, the system including a plurality of self-service client terminals for use by customers to place orders, each self-service client terminal running a self-order application, the self-order application providing a first user interface including a set of interactive menu screens having buttons that allow the customer to select and customize products for the order, the system further including a server in communication with the plurality of self-service client terminals, the system further comprising: an administration tool application stored on a computer-readable storage medium, the administration tool application being executable by a computer for communicating with the server to administer the self-service client terminals, the administration tool application providing a second user interface that can be accessed by the administrator to perform various administrative functions, the administration tool application including a menu editor that enables the administrator to create and edit the interactive menu screens provided by the self-order application at the self-service client terminals; and wherein the menu editor accesses a library of menu templates containing predefined groupings of buttons, and uses the menu templates, as directed by the administrator, during creation and editing of the interactive menu screens.
0. 5. The computer-based ordering system of
0. 6. The computer-based ordering system of
0. 7. The computer-based ordering system of
0. 8. The computer-based ordering system of
0. 9. The computer-based ordering system of
0. 10. The computer-based ordering system of
0. 11. The computer-based ordering system of
0. 12. The computer-based ordering system of
0. 13. The computer-based ordering system of
0. 14. The computer-based ordering system of
0. 15. The computer-based ordering system of
0. 16. The computer-based ordering system of
0. 17. The computer-based ordering system of
0. 18. The computer-based ordering system of
0. 19. A method of administrating the computer-based ordering system of
0. 20. The method of
0. 21. The method of
0. 22. The method of
0. 23. The method of
0. 25. The computer-readable medium of claim 24, wherein:
the first menu item is a food item; and
the multi-part button corresponds to a first component food of the first menu item.
0. 26. The computer-readable medium of claim 25, wherein the instructions further comprise, in response to the input indicating selection by the user of the first menu item, displaying a plurality of multi-part buttons including the multi-part button, wherein the plurality of multi-part buttons respectively correspond to a plurality of component foods of the first menu item.
0. 27. The computer-readable medium of claim 26, wherein the plurality of component foods are condiments for the first menu item.
0. 28. The computer-readable medium of claim 25, wherein one of the plurality of additional buttons corresponds to an absence of the first component food from the first menu item.
0. 29. The computer-readable medium of claim 24, wherein:
the first button is associated with a text label of “Normal”;
the second button is associated with a text label of “More”; and
a third button of the plurality of additional buttons is associated with a text label of “Less”.
0. 30. The computer-readable medium of claim 24, wherein the instructions further comprise selectively displaying a price differential between a price corresponding to a presently selected one of the plurality of additional buttons and a price corresponding to the first button.
0. 31. The computer-readable medium of claim 24, wherein the instructions further comprise:
displaying an order for the user, the order including an entry listing the first menu item and displaying the total price of the first menu item; and
selectively updating the total price in response to changes in which of the plurality of additional buttons is selected.
0. 32. The computer-readable medium of claim 24, wherein the instructions further comprise updating an order for the user based on a state of the multi-part button.
0. 33. The computer-readable medium of claim 24, wherein each of the plurality of additional buttons is visually contained within a perimeter of the multi-part button.
0. 34. The computer-readable medium of claim 33, wherein the plurality of additional buttons are semi-transparent.
0. 35. The computer-readable medium of claim 24, wherein the visual indicator corresponding to the second button is a checkmark.
0. 36. The computer-readable medium of claim 35, wherein the visual indicator corresponding to the second button is visually contained within a perimeter of the second button.
0. 37. The computer-readable medium of claim 24, wherein the instructions further comprise, upon displaying the plurality of additional buttons, displaying a visual indicator corresponding to the first button.
0. 38. The computer-readable medium of claim 24, wherein:
the multi-part button includes a text label identifying the component part; and
the instructions further comprise modifying the text label in response to which of the plurality of additional buttons is selected.
0. 39. An apparatus comprising:
the computer-readable medium of claim 24;
the processor, wherein the processor is configured to execute the instructions from the computer-readable medium; and
a touchscreen that integrates the display and the input device.
0. 41. The computer-readable medium of claim 40, wherein:
a third button of the plurality of additional buttons corresponds to a zero amount; and
the instructions comprise, in response to the input indicating selection by the user of the third button, hiding the plurality of additional buttons from view of the user and omitting the component part from the first menu item in an order for the user.
0. 42. The computer-readable medium of claim 41, wherein:
the first button is associated with a text label of “Normal”;
the second button is associated with a text label of “Extra”; and
the third button is associated with a text label of “None”.
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This application Notice: more than one reissue application has been filed for the reissue of U.S. Pat. No. 8,190,483; U.S. application No. 15/849,969 filed on Dec. 21, 2017 is a continuation reissue application of the present application; and the present application is a divisional reissue application of U.S. application Ser. No. 14/289,923, filed on May 29, 2014, now U.S. Pat. No. Re. 45,882, which is an application for reissue of U.S. Pat. No. 8,190,483, which claims the benefit of U.S. Provisional Application No. 60/746,226 filed on May 2, 2006. This application claims the benefit of and U.S. Provisional Application No. 60/805,658 filed on Jun. 23, 2006.
A portion of the disclosure of this patent document contains material which is subject to copyright protection. The copyright owner has no objection to the facsimile reproduction by anyone of the patent document or the patent disclosure, as it appears in the Patent and Trademark Office patent file or records, but otherwise reserves all copyright rights whatsoever.
1. Field of the Invention
This invention relates generally to computer-based systems used for ordering goods and services and, more particularly, to self-service terminals and software tools for administering self-service terminals.
2. Background Art
Point of Sale (POS) systems provide a means by which ordering and purchasing transactions can be carried out electronically at the store or other venue where the goods or services are supplied. Many of these POS systems are used by the merchants themselves to consummate transactions with their customers. Other POS systems comprise self-service terminals that can be used directly by the customer to order goods, pay for them, or both. The POS system generally includes at a minimum a processor-based terminal device along with software running on the processor to carry out the functions of the terminal. One or more remote computers are typically connected to the terminal by, for example, a computer network or dialup telephone connection to enable communication between the terminal and computer(s) for the purpose of carrying out the transaction (order, payment, etc.).
Self-service POS systems typically have a central computer acting as a server and one or more terminals which are the individual client units that are used by customers to input their orders. These terminals are often implemented as kiosks mounted to a floor via a base, or to a wall, or located on a counter or other raised surface. Each kiosk will include a computer display screen, possibly speakers for audio output, and one or more input devices such as a keyboard, key pad, or touch sensor overlaying the display screen. When a customer is interested in making a purchase, the kiosk allows customers to select products for purchase from those listed on the screen, submit an order for those products, and, in some cases, pay for the order.
Self-service POS systems typically use a dedicated server to communicate to each self-service client terminal. The server can be a general purpose computer located somewhere on the premises or remotely, and is programmed with software that is used to provide each client with product information for customer ordering. Changes to the products offered via the self-service terminals usually require access to and use of an administration program on the server using common input devices such as a keyboard and mouse to change the product offerings or information about those products (e.g., price).
Direct ordering of goods and services by customers can also be carried out using non-POS systems, such as Internet-based online ordering of goods from merchants for either pickup by the customer or delivery via shipment. These systems also commonly use a client-server topology to not only carry out the selection and ordering process, but also to complete payment for the goods.
It is an object of the invention to provide an improved computer-based ordering system for ordering goods and services.
The invention comprehends self-service terminals and software tools for administering self-service terminals.
In one approach to implementing a computer-based ordering system in accordance with the invention, a computer-based ordering system for ordering goods and services comprises a self-service terminal for use by a customer to place an order. The self-service terminal includes a processor and a storage medium storing a self-order application. The self-order application provides a first user interface including a set of interactive menu screens having buttons that allow the customer to select and customize products for the order. The storage medium further stores an administration tool application for administering the self-service terminal. The administration tool application provides a second user interface that can be accessed by the administrator to perform various administrative functions.
The administration tool application includes a menu editor. The menu editor enables the administrator to create and edit the interactive menu screens provided by the self-order application. The menu editor accesses a library of menu templates containing predefined groupings of buttons, and uses the menu templates, as directed by the administrator, during creation and editing of the interactive menu screens.
Preferably, the self-service terminal further comprises a display screen having a touch screen for accepting user input. Accordingly, the customer interacts with the self-order application using the touch screen. Further, the administrator interacts with the administration tool application using the touch screen.
In the approach described above, the self-service terminal includes a self-order application for use by customers and includes an administrative tool application for use by administrators. It is appreciated that other approaches to implementing a computer-based ordering system in accordance with the invention may involve a client/server environment.
In another approach to implementing a computer-based ordering system in accordance with the invention, a computer-based ordering system for ordering goods and services includes a plurality of self-service client terminals for use by customers to place orders, and a server in communication with the plurality of self-service client terminals. Each self-service client terminal runs a self-order application. An administration tool application is stored on a computer-readable storage medium. The administration tool application, when executed by a computer, communicates with the server to administer the self-service client terminals. The administration tool application includes a menu editor that enables the administrator to create and edit the interactive menu screens provided by the self-order application at the self-service client terminals. The menu editor accesses a library of menu templates containing predefined groupings of buttons, and uses the menu templates, as directed by the administrator, during creation and editing of the interactive menu screens.
It is appreciated that the administrative tool application could be located at a variety of places. For example, the administrative tool application may be located at the server. The server may also operate as an additional self-service client terminal by running the self-order application while the server communicates with the plurality of self-service client terminals in the background. Further, the administrative tool application may also be located at each client terminal to allow administration from any of the self-service client terminals. It is appreciated that there are many possible arrangements and the administrative tool application may be located at a variety of locations, including a back office location or an offsite location provided that the administrative tool application is able to communicate with the server.
At the more detailed level, the invention comprehends a number of additional features. Different implementations may employ different combinations of the comprehended features, depending on the application of the system.
In a preferred embodiment of the invention, the library of menu templates includes a plurality of templates. Each template represents an interactive menu screen having buttons. The menu editor enables the administrator to, during creation/editing of an interactive menu screen, select a template for the interactive menu screen and associate functions with the buttons included on the selected template.
The association of functions with the buttons included on a selected template may involve several additional features which are part of the preferred embodiment of the invention. For example, associating functions with the buttons included on the selected template may include selecting a button type for a button, selecting associated text for a button, selecting an image overlay for a button, and/or selecting an item/product for a button. Further in this aspect, associating functions with the buttons included on the selected template may include selecting a quantity for the item/product for a button, or selecting a pricing option for the item/product for a button. In another aspect, associating functions with the buttons included on the selected template may include selecting a subsequent menu screen for activation upon selection of a button by the customer. This creates a hierarchy of menus to guide the customer through the order process.
In addition to the various menu screen creating and editing, menu building, and administration tool related aspects of the invention described above, the invention also comprehends a variety of configurable button behaviors. For example, a template may be configured to allow selection of only a single button by the customer from a presented plurality of buttons. In another example, a template may be configured to allow selection of multiple buttons by a customer from a presented plurality of buttons.
The invention also comprehends special buttons. One example of a special button is a button including a plurality of sub-buttons to provide multiple selected states for the special button. Another example of a special button is a button that, upon selection thereof, causes selection of a predetermined set of a presented plurality of buttons.
In a computer-based ordering system, in certain situations, it is possible that orders from the self-service terminals could overwhelm the workers fulfilling the orders. The invention also comprehends an order governor for regulating the flow of orders, when needed.
In one approach to implementing a computer-based ordering system including an order governor in accordance with the invention, the system comprises a self-service terminal for use by customers to place orders. The self-service terminal runs a self-order application. The system further comprises an order display device for receiving orders placed by customers and providing instructions to workers that fulfill the orders. A configurable order governor cooperates with the self-order application to regulate the flow of orders. The flow of orders is regulated by introducing a wait time between customer orders at the self-service terminal, as needed, based on the order governor configuration.
It is appreciated that the order display device may take a variety of forms. For example, the order display device may be a video display screen that displays instructions corresponding to received orders. In the alternative, the order display device may be a printer that prints instructions corresponding to received orders.
In an exemplary implementation of the order governor, the order governor configuration includes a configurable value representing an average order fulfillment time. The wait time between customer orders is provided such that an order fulfillment backlog time stays below a predetermined value. More specifically, in this example, the order fulfillment backlog time is increased by the average order fulfillment time upon the placement of an order, and is decreased with the passing of time.
In another contemplated approach for implementing the order governor, the order governor configuration may include a plurality of configurable values representing order fulfillment time for the various products. In this approach, the order fulfillment backlog time is increased by an estimated order fulfillment time upon the placement of an order. This estimated order fulfillment time is based on the plurality of configurable values in the order governor configuration and the selected products for the placed order.
In yet a further contemplated feature of the invention, computer-based ordering systems may recognize customers through any one of many possible methods such as swiping a customer loyalty card, reading an RFID tag, swiping a credit card, or even through biometrics. Customer recognition allows the system to provide an enhanced customer experience, for example, by allowing returning customers to quickly order items ordered in the past without having to rebuild the order. A particular concern in customer recognition systems for computer-based ordering systems is that it is desirable, in certain circumstances, to recognize a customer without the need to store certain sensitive information. For example, it may be desirable to recognize a customer when the customer swipes a credit card; however, for some applications, it would be desirable to do this without storing sensitive customer information (for example, the credit card number).
The invention comprehends an approach to customer recognition for use in computer-based ordering systems wherein the customer is recognized based on encoded or encrypted information obtained from a one-way hash function (the term “hash function” as used herein is intended to encompass one-way hash functions as well as any equivalent algorithm that is very difficult to calculate in the reverse direction). For example, in an application where a customer credit card is swiped at the self-service terminal, the credit card number and/or other information fields obtained during the card swipe are encoded or encrypted using a hash function.
The encoded or encrypted result from the hash function is used to lookup the customer in a table or database, and the credit card number and/or other information fields obtained from the card swiping may be immediately destroyed, and not retained by the self-service terminal. The table or database where the customer is looked up may be stored, for example, at the local server for the ordering system. When the overall system includes a central server, for example, to coordinate multiple store locations, the table or database can be stored at the central server. Customer orders or other information that is to be retained to enhance the customer experience may be retained at the local server, and uploaded to the central server, for example, once per day. In the alternative, the ordering system could provide updates to the central server in real-time throughout the day.
As indicated in
As will be discussed in greater detail below, the client software is a computer program that is accessed by the user via a user interface application written using a multimedia authoring program. For customer ordering of food items, the user interface application is a self-order application that displays a graphic-intensive user interface that allows the customer to select and customize the desired food items, specify quantity, options, etc. Additionally, the local server kiosk 16 further includes an administrative tool comprising a second user interface application that can be accessed by the administrator to perform various administrative functions such as configuring kiosks, creating and editing menus and available food items, and specifying tax and payment features of the system. This administrative tool is also written using a multimedia authoring program that provides an administrative user interface to the client program. During normal use, the server process runs in the background while the food ordering client software application provides the same user interface (screen display, touch screen input) as the other client kiosks 30. When access to server administration is needed, the store owner or other administrator can switch to the administrative tool on the server kiosk 16. As will also be discussed further below, the system also allows the administrative tool to be run from any of the local clients 30, and this can be done, for example, by loading the administrative tool on each client computer 30.
The local kiosks 30, cash register 32, and kitchen screen/printer 34 are connected together via a local area network 40 that uses TCP/IP over an Ethernet connection. The remote kiosk 36 can also be hardwired to this LAN 40 or can be connected to the local server 16 or a node on the LAN 40 via a wireless connection. Similarly, any or all of the local client kiosks 30 or other devices at the store location 12 can be connected to the network 40 via a wireless link. The network 40 can be any IP-based network, including LANs, WANs, VPNs, and it will be appreciated that network addressing schemes other than IP can be used. Although not shown, the cash register 32 or another device on the network 40 can be connected to a credit card payment center either via the Internet 18, a telephone connection, or a wireless communication network (e.g., cellular data network) to process customer payments. As indicated in
Although customer orders are typically received via one of the local kiosks 30, the central server 22 can be used to provide a web interface between the customers 24 and local server 16. This enables customers 24 to place orders remotely using a standard web browser. Various suitable ways of implementing online ordering and integration of that into a local ordering system are known to those skilled in the art. Remote access also allows the chain operator 20 to remotely run the administrative tool. This can be done several ways. One is for the chain operator 20 to have the administrative tool loaded on a remote computer. For this, the remote computer can access the configuration information (menu screens, items, and other settings) at the local server 16, then allow the operator to make changes, and then update the local server 16 with the new configuration information. A second approach is to have the administrative tool loaded on the central server 22 and then provide the chain operator 20 with web access to the central server 22. In this approach, the central server 22 then accesses and stores updated configuration information on the local server 16. A third approach is to provide a web interface to the administrative tool on the local server 16 so that the chain operator 20 can access this interface from any Internet connected general purpose computer using the IP address of the local server 16. This can be done using any of a number of different remote access and control approaches known to those skilled in the art. Other means of providing remote administration of the kiosks can be utilized.
As noted above, the central server 22 can be used to provide software and media updates to the local servers 16. Furthermore, the central server 22 can provide additional optional features to the system 10, such as remote diagnostics of kiosks, automated kiosk installations, data repository, centralized reporting, etc. Where no central server 22 is used on the system, remote ordering by customers 24 over the Internet can still be provided by using the local server 16 as a web server configured to allow online ordering.
Turning now to
For the server kiosk 82, it includes not only the client program 92, but also a server program 96 (including its associated database) as well as an administrative tool 98 for configuring the server program 96. The administrative tool 98 is also implemented through the use of an enhanced vector graphics user interface overlying the Microsoft.NET client program 92 which handles communication between the administrative tool 98 and server program 96. As used herein “enhanced vector graphics” and “enhanced vector graphics file format” refer to files that support either multiple vector graphics (such as are used in displaying animations) and/or single vector graphics in conjunction with other content that can be displayed (e.g., text, video, raster-based graphics) or otherwise supplied (e.g., audio) to the user. Again, SWF and SVG files are two examples of this format. Another suitable format is the XAML format used by Microsoft Windows Presentation Foundation™. XAML presentations can be generated using the Microsoft Expression Interactive Designer™ tool. However implemented, the administrative tool 98 can include the same functions typically used to add, delete, and configure kiosks in the system, to make global settings (e.g., set time, sales tax percentage, receipt header and footer text), to create display screens (e.g., food ordering menus), to create a list of food items that are used on the different menu screens, and to edit the various attributes of the food items (e.g., name, associated graphic, price). For other (non-food service applications), the administrative tool 98 would provide somewhat different functionality and control. Accordingly, the various features and organization of the administrative tool 98 can be determined as desired for a particular application.
In the illustrated embodiment, the administrative tool 98 is not only produced using the combination of enhanced vector graphics content overlying a programming software layer (such as .NET), but the software architecture is used in conjunction with the touch screen of the kiosk to enable complete administration of the system via the local server kiosk, and, if desired, this can be done without the need for additional input devices such as a keyboard or mouse. Thus, the store owner or chain operator can carry out administration of the system using a simplified user interface that requires little if any training or experience with computers. Furthermore, the web services platform provided by .NET can be used to provide remote administration by the chain operator from any Internet-connected computer (such as a home office computer) so that various store locations can be configured from a single computer. The programming needed to implement this software architecture strategy is known to those skilled in the art.
The central server 84 can likewise be implemented using Flash movies or some other enhanced vector graphics files that interface directly to a web server program 100. The central server 84 can include both a web based online order application 102 as well as a web based administration tool 104. Again, the programming used to implement this approach will be known to those skilled in the art.
Various features and uses of the self-order application (customer user interface) 90 and the administrative tool 98 used on the kiosks will now be described. The self-order application 90 provides a set of interactive screens that guide the customer through the process of placing an order. The interactive screens contain menus of available items and/or options displayed on the touch screen through the user interface software. For example,
Multiple button types are used to guide the customer through different scenarios that may be encountered during the ordering process. These button types include menu buttons (MenuButton), select one buttons (SelectOne), single modifier buttons (SingleMod), multiple modifier buttons (MultipleMod), select other buttons (SelectOther), quantity buttons (Quantity), less/normal/more buttons (LNM), and none/normal/extra buttons (NNE), each of which are described below. MenuButtons allow the customer to select a category to reach submenus in the system. For example, MenuButtons are used by the customer to select a category of food, such as sandwiches or side order items or drinks. As another example, a menu may ask the customer if they would like to select an additional item when ordering a meal and, for that purpose, the menu includes a MenuButton to allow the customer to decline the offer. Upon selection of a MenuButton, the software navigates to a new screen or submenu to continue the ordering process. SelectOne buttons allow customers to select a single item from a menu, such as a particular sandwich from a sandwich menu, and immediately jump to another menu based on the selection. Thus, SelectOne buttons differ from MenuButtons primarily in that the SelectOne buttons are used by the client software to register the selection of an item or option prior to moving to another display screen, whereas the MenuButtons are used primarily just to navigate to another screen without any selection of an item or option.
SingleMod buttons allow customers to select a single modification option (e.g., an ingredient or topping) for an item from a menu and immediately jump to another menu based on the selection. A button for adding cheese to a sandwich may be an example of a SingleMod button. Another example of a SingleMod button is selecting one salad dressing from a list of many salad dressings. MultipleMod buttons, examples of which are shown in
The self-order application also includes two multi-part buttons types: less/normal/more (LNM) buttons shown in
Thus, it can be seen from
This sub-button use need not be limited to modification of quantity, but instead can be used for other purposes that will become apparent to those skilled in the art. In this regard, although the disclosed sub-buttons are programmed as mutually-exclusive selections (i.e., selecting one sub-button deselects the currently selected sub-button for a particular button), they need not be, depending on the options associated with the sub-buttons, and instead the system could allow plural sub-buttons to be selected at the same time.
Referring now to
Customers generally begin an order at a kiosk by tapping on the touch screen of the kiosk. The kiosk displays a top menu of categories determined by the administrator. The customer may then begin selecting items, modifying ingredients, adding side items, etc. Alternatively, the order may begin using customer recognition by the system. The system may recognize customers locally through any one of many possible methods such as swiping a customer loyalty card, reading an RFID tag, swiping a credit card, or even through biometrics such as thumb, retinal, and/or facial recognition. Once a customer is recognized, the system displays a message welcoming the customer and displays a list of previous orders by the customer. The previous orders list allows the customer to begin the current order with a customized item or set of items from a previous order, rather than having to go through the process of recreating the same item or complete order from scratch. The customer may choose to duplicate an entire previous order or individual items from that order. Selecting a previous order brings up a list of specific items within the order, and the customer may select the entire previous order or can simply select an item to customize (if desired) and add to his current order. If the customer is satisfied with the item he may select to continue with his current order. If the customer wishes to modify the contents of the item selected, he may do so by touching one of the contents on the touch screen. Thus, using customer recognition, returning customers can quickly order items ordered in the past without having to rebuild the order each time they use a kiosk. For this purpose, the system tracks customer orders and stores them on the server. Where the central server 22 of
Other features assist customers in placing orders. For instance, pricing information is updated live on the display as the customer selects or deselects items. Pricing is updated as items are added to or removed from the order, as well as for ingredients that have extra charges or credits associated with them. In the example noted above in
The self-order application also includes an upsell feature to suggest other items or increase portions based upon the items already selected or the order history of recognized customers. The upsell feature shows the customer a cost savings for combining the extra item with those already selected. For example, if the customer orders a sandwich and a drink, the system may ask if the customer would like to include a side item such as chips or French fries with them for a specified amount. The system also shows the customer that ordering the new combination would save the customer money compared to ordering the items individually. The system may also ask if the customer would like to increase the serving sizes of the drink and sides, or may even ask if the customer would like to add other additional items such as a dessert.
The self-order application can also accept payment at the kiosk or prompt the customer to pay at a specific location. Optional magnetic strip card readers allow users to pay by credit card, debit card, or accounts associated with customer loyalty cards or IDs. Other types of fully or partially automated payment approaches can be used such as RFID systems—the Paypass™ system available front Mastercard of Purchase, NY (www.mastercard.com) being one such example. The system may include an optional printing device to print out a receipt for the order and include information regarding the order such as price, payment information, a listing of items purchased, and even nutritional information. The nutritional information is calculated by the system based upon the items purchased, their ingredients selected, and the quantities requested. The system may also display the nutritional information of the items live on the screen as ingredients added or removed or their quantities varied for an item.
As noted above, customers are not limited to placing orders at kiosks. The system also includes remote web service to allow customers to place orders using a standard web browser via the Internet. The remote ordering can be handled either using the central server or the local server kiosk which includes a web server. The central server is useful for chain restaurants and can be used to either direct the customer to a particular store and its local web server, such as by a URL link on the central server website, or can accept and process the order itself, with the order then being transmitted to the particular store selected by the customer during the online ordering process. Where the food is to be delivered rather than picked up by the customer (e.g., in pizza delivery), the central server need not have the customer specify a store location, but rather just their address (or a landline phone number that is used to obtain the address), or using customer recognition from past orders can lookup this information in the server's database, and this information can then be used by the server to determine which store will handle the order and delivery. The specifics of the particular store's menu and availability of food items can be taken into account in the order process, and this information (such as the store being out of banana peppers) can be stored either at the local store's server and accessed by the central server during ordering, or such information can be stored at the central server itself with the local server periodically updating such information on the central server. By whatever approach is used for online ordering, the web server provides a web based interface similar to the self-order application interface on the kiosks. To help minimize the bandwidth needed for implementing the online ordering, the system uses vector graphics for most pictures and graphical symbols. These vector graphics can also be used on the local (in-store) networks when media is being transferred between the server kiosk and client kiosks. The online ordering process is generally the same as the process used at a kiosk with a few exceptions. For example, customer recognition may include the use of cookies or a login ID. Additional customer information such as customer addresses, credit card information, payment preferences, etc. may be stored on the server for use in kiosk ordering, online ordering, or both.
Once an order is placed, regardless if at a kiosk or through a web client, the system generates a kitchen build for each item in the order. A kitchen build is a set of instructions for making each particular item, including the ingredients needed, the amount of each ingredient, and the order of assembly for the item. The information on the kitchen build may vary from the information printed on the customer receipt in both detail and sequence. The information on the kitchen build may also be in a different language than the information printed on the customer receipt. The kitchen build is sent to a kitchen printer and/or kitchen video system (KVS) where the order is prepared according to the build instructions.
Administration
The local server kiosk (16,
When an administrator logs into the administrative tool the kiosk displays a main menu 212 with six options including: system status 214, system reports 216, system settings 218, menu editor 220, item editor 222, and kiosk editor 224. System status 214 lists the kiosks in the system (block 230) and enables the administrator to enable or disable any kiosk, control the volume level of any kiosk, turn on and off ordering access to alcoholic beverages, and view the kiosk's status (idle, in use, etc). System reports 216 enable the administrator to view and print sales reports (block 232) of any individual kiosk or all kiosks for a given day or time period. System settings 218 enable the administrator (block 234) to enter messages to print at the top and bottom of customer receipts, enter sales tax percentages, enter service fees, enter store ids, enter customer ids, and select available languages. System settings 218 also allow the administrator to create and edit day parting. Day parting automatically updates the items available for purchase on the client interface depending on the day and time of day. For example, if a restaurant wants to have separate breakfast and lunch menus, day parting will allow the administrator to define which days and times the breakfast and lunch menus are available. This allows the administrator to quickly modify the days and times when a menu of items is offered rather than having to make such changes to each item in the menu. The remaining three options on the main menu screen will be described in greater detail below.
Selecting “Menu Editor” 220 launches the menu editor shown in the screen 250 depicted in
The primary components of each menu screen are buttons that allow the customer to make selections among available items and options. Buttons can be directly added one at a time by the administrator from an available collection of different buttons when building the screens. Alternatively, and as used in the disclosed embodiment, templates containing predefined groupings of buttons are used to develop the menu screens. These templates are menu layouts that assist administrators in creating and modifying menus quickly and with little effort. Several template examples are shown in FIGS. 14-19. The templates define the overall layout of the menu such as the number and types of buttons, and placement of buttons, title, heading, and ads. By simply selecting a template for a menu, the administrator determines the number of buttons a customer sees on the menu, what happens when a customer selects a button (recall that each type of button has unique behavior), and the overall appearance of the menu. The use of templates eliminates the need for administrators to write their own code to develop the layout and behavior of the menus.
Thus, as will be understood by those skilled in the art, the system provides a group of templates (with
Referring to
The administrator can modify each button attribute in the editor. The list of attributes varies depending on the button type. Some attributes include: the title of the button, the item/product associated with the button, the image(s) overlaid on the button, the quantity of items, pricing options for the item associated with the button, and selecting a day part for the button. The title can be entered in different specified languages so that the customer can be given the option of specifying a language at which point all wording and titles change to the specified language. The menu also enables the administrator to select which menu to activate when the button is selected on the touch screen. Selecting which menu to activate when each button is pressed creates a hierarchy of menus to guide the customers through the order process.
For example, the top menu in the self-order application may ask the customer to select a food category such as sandwiches, drinks, or sides. When selected, the sandwiches button activates a menu containing a number of sandwiches from which to choose. (The sandwich menu is the next menu to activate when sandwich category button is pressed.) Each button on the sandwich menu then activates a corresponding menu to allow the customer to choose or modify ingredients for the particular sandwich chosen. When the administrator has finished configuring the button attributes and which menu to activate on the button, the administrator is brought back to the edit screen 420 of
In
The individual items or products available for sale are edited in the item editor which can be selected using the Item Editor button 222 on the main menu 212 of
In
The last main menu option on the main menu 212 (
The administrative tool saves all changes to the server after the administrator has made all desired changes to the customer interface using the administrative tool. Upon exiting the administrative tool, it prompts the administrator to save the changes or discard changes. All media and configurations of menus, items and options are saved on the server kiosk, and the server updates each client connected to it with the corresponding saved changes when each client is idle. This can be carried out by pushing the configuration changes from the local server to each client kiosk, or by programming of the clients to periodically check for new configurations, such as by using predefined time intervals and/or during idle time when the kiosk is not in use. The programming needed for carrying out these approaches to updating of the clients will be apparent to those skilled in the art.
Media updates of new graphics, voiceovers, videos, animations, and the like that are used for building the menus and screen displays can be handled similarly to updates of the menu configurations. The new media can be placed on the server kiosk and then pushed to the client kiosks, or the clients can periodically check for new media using version numbers, unique filenames, timestamps, or other means of identifying new files, as will be known to those skilled in the art. Using this approach, the server updates the clients by storing the media in a media folder on each client. Alternatively, new media can be cached at the server to update the client only when each client needs to use the updated file(s), in which case the media need not be stored in non-volatile memory at the local client kiosks.
In an alternative embodiment, the remote server such as the central server 22 of
For example, a new advertisement can be placed in the media repository on the remote server. Each local server recognizes that a new media file is available when each local server periodically checks the repository for updates. Recognition of new media can be done using, for example, a timestamp associated with each media file and the local servers can then download any media having a newer timestamp than that for their most recent prior download. The local servers download the new files into the local server media folder. The next time each client is activated to display a particular advertisement on a particular screen display, it pulls the new advertisement from its local server, uses the advertisement on the kiosk display, and if desired, caches it into memory for subsequent use. In this way, each local server kiosk maintains a local master copy of the media which is then accessed as needed by the local clients. Furthermore, by at least in part using vector graphics files, all media can be stored on the server and not the client kiosks and then just accessed as needed during operation.
The remote server also provides methods for updating local servers and clients with other features. For example, new templates can be provided to allow more menu configuration options. Where the templates contain specific functionality/behavior that is not already provided for by the self-order application software as a configurable item, the software on the kiosk can be pre-configured to accept and process the new templates to incorporate their functionality into the software. Where the templates involve only layout of existing objects contained within the software system, they can be downloaded and stored in memory in the same manner as media updates.
As another example, the system includes the ability to perform software updates to either add new functionality or as patches to improve or fix existing software. This software updating can be carried out using the process shown in
Apart from using the Internet for online ordering and centralized storage and distribution of menu configurations, media, and software, it can also be used by the administrators to access the administrative tools remotely using a standard web browser, rather than having to use a kiosk. The web server on the local kiosk server includes either a web-enabled version of the administrative tool or includes a separate web services process that provides a web interface into the server process that allows configuration of the self-order application in the same way as the administrative tool. Like the web client, the web enabled administrative tool reduces overhead by using vector graphics. The web enabled administrative tool also enables store owners to update multiple servers from a single location, for example, by logging in and updating the local servers either one at a time or as a group. This feature can be used to update any of the items noted above—menu configurations, media updates, templates, software enhancements and patches.
The remote server can be used for store owners, franchisees, etc. to update multiple local servers, such as at multiple store locations, from one central location. By tracking the IP addresses or names of each local server registered with the remote server, all local servers can have updates happen from the central location, eliminating the need for administrators to make the changes at each local server individually.
The remote server also provides a method of remotely diagnosing a kiosk to prevent downtime as seen in
The remote server also provides a method of simplifying installation of a new kiosk or restoration of a kiosk after a catastrophic failure. To install a new kiosk or restore a previously working kiosk, an administrator simply needs to access a web installation service provided by the remote server as seen in
Other methods of automatically identifying kiosks that need restoration may be used. For example, the remote server can automatically identify kiosks in need of restoration. The remote server stores the IP addresses and kiosk names of all kiosks registered with the remote server. Assuming that the kiosk maintains its IP address and can connect to the Internet after failure, the remote server can identity the kiosk. By running a diagnostic on the kiosk, the remote server can identify that the kiosk requires restoration and begin the installation service. As an alternative to running a diagnostic, kiosks can send a distress message to the remote server. Kiosks can detect their own failures through log files on the kiosks. Repeated error messages in the log files inform the kiosk that it requires restoration and inform the kiosk to send a distress message to the remote server. The distress message notifies the remote server to begin the installation wizard with the kiosk in distress.
Likewise, the remote server can recognize new kiosks by naming the new kiosk the same name as a replaced kiosk, assigning the new kiosk the same IP address as a replaced kiosk, or registering the new kiosk with the remote server by providing a name and IP address. Again, running a diagnostic on the new kiosk informs the remote server that the kiosk requires installation and triggers the installation wizard. After the wizard is complete, the new kiosk is able to receive orders.
Similarly, the installation wizard can use various methods to install or restore kiosks. The installation wizard can install the necessary files on the client or local server from the remote server. Alternatively, for a client, the installation wizard can download the necessary files onto a local server where the client is registered. The client then installs the necessary files from the local server, rather than the remote server. This method works particularly well when multiple clients registered with a local server require installation or restoration. Storing the necessary files temporarily on the local server reduces the overhead on the remote server and allows it to be available for other locations in need of its services. An alternative to downloading a group of necessary files is to download a ghost image on the kiosk. The ghost image runs on the kiosk after the download is complete and provides the kiosk with the complete contents of a hard disk needed by the kiosk.
Additional features of the remote server are to provide a central data repository for multiple local servers and provide a reporting module. The centralized data repository stores local transaction data from kiosks as well as customer data for use with customer recognition and recommendations. The reporting module combines data from client orders and remote client orders for consolidated reporting and graphing. As seen in
It will thus be apparent that there has been provided in accordance with this invention a point of sale system for ordering an item that achieves the aims and advantages specified herein. It will, of course, be understood that the forgoing description is of preferred exemplary embodiments of the invention and that the invention is not limited to the specific embodiments shown. Various changes and modification will become apparent to those skilled in the art and all such changes and modifications are intended to be within the scope of this invention. For example, although the disclosed embodiment is a system particularized for use in quick-service chain restaurants, the invention is useful for a variety of different types of customer ordering of goods and services; for example, ordering concessions at entertainment venues, ordering of tickets for movies, theme parks, and/or sporting or entertainment events, car rental and other such reservation systems. Other such applications will become apparent to those skilled in the art. As one example,
As another example,
Apart from the Quantity button described further above that is used during ordering to bring up a keypad for number entry, and apart from the order review quantity buttons shown in
In
In a computer-based ordering system, in certain situations, it is possible that the self-service terminals could overwhelm the workers fulfilling the orders. For example, as kiosks become more prevalent in restaurants, some restaurants may put in more kiosks than the kitchen can handle and overwhelm the kitchen during peak hours. Preferred embodiments of the invention utilize an order governor to regulate the flow of orders, as needed. The preferred embodiment of the order governor is described below, with reference to
With the order governor, the flow of orders is regulated by introducing a wait time between customer orders, as needed, to avoid overwhelming the workers that are fulfilling the orders.
In this illustrated example, the order governor includes an editable configuration value 824 for the maximum orders per minute (MOPM) that the kitchen can handle. The order governor can be disabled by setting this value to 0. Put another way, the kitchen completes an order, on average, every 60/MOPM (seconds). In the illustrated example, 3 maximum orders per minute means that an order is completed or fulfilled every 20 seconds, on average.
Each time that an order is completed at the kiosk, the kitchen backlog increases by the calculated average order fulfillment time, which in this example, is 20 seconds. That is, the order fulfillment backlog time or kitchen backlog is assigned a new value equal to the previous order fulfillment backlog time plus the configured average order fulfillment time. For example, if the current kitchen backlog for the kiosk is 10 seconds as an order is being completed at the kiosk, completion of the order increases the current kitchen backlog to 30 seconds. As time passes, for every second that passes, the kitchen backlog is decreased by one second.
In this example, when a new order is submitted, if the new total kitchen backlog is greater than one fulfillment period (20 seconds in this example), then the order governor introduces an artificial wait time at the kiosk by placing the kiosk in a wait state as shown in screen 800 of
For example, the order governor configuration could include a number of configurable values representing order fulfillment time for various products. In this approach, upon completion of an order, the kitchen backlog is increased by an estimated order fulfillment time for the particular order placed. The estimation is made based on the various configured values and the particular products ordered. That is, more precise order fulfillment times are calculated instead of using a single approximation for all orders. For example, the fulfillment estimation could be based on preparation times for the items actually ordered.
In addition, it is to be appreciated that there are many possibilities for the order governor. Although the illustrated example has an order governor as part of the self-order application at each kiosk, other arrangements are possible such as a master order governor located at the server that communicates with and governs all of the client kiosks.
As mentioned above, the computer-based ordering system may recognize customers locally through any one of many possible methods such as, for example, swiping a customer loyalty card or bank card. Customer recognition has many advantages. One advantage of using customer recognition is that returning customers can quickly order items ordered in the past without having to rebuild the order each time they use a kiosk. In preferred embodiments of the invention, the customer is recognized without the need to permanently store sensitive information. The customer recognition system cooperates with the self-order application to recognize a returning customer when the returning customer provides customer identification information by, for example, swiping a credit card.
As depicted at block 840, the returning customer provides customer identification information. As depicted at block 842, the recognition system processes the customer identification information with a hash function to produce a hash result. The recognition system may be implemented as part of the self-order application. It is to be appreciated that other arrangements are also possible. For example, the recognition system could be implemented at the local server or even at a remote server, depending on the implementation. Once the hash result is obtained, the customer identification information is discarded as indicated at block 844. The hash result is used to look up the customer in a table or database, as indicated at block 846. More specifically, a customer information repository, which may be located at central server 22 (
As used in this specification and appended claims, the terms “for example,” “for instance,” and “such as,” and the verbs “comprising,” “having,” “including,” and their other verb forms, when used in conjunction with a listing of one or more components or other items, are each to be construed as open-ended, meaning that that the listing is not to be considered as excluding other, additional components or items. Other terms are to be construed using their broadest reasonable meaning unless they are used in a context that requires a different interpretation.
While embodiments of the invention have been illustrated and described, it is not intended that these embodiments illustrate and describe all possible forms of the invention. Rather, the words used in the specification are words of description rather than limitation, and it is understood that various changes may be made without departing from the spirit and scope of the invention.
Woycik, Thomas, Wheeler, Charles
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