CN107036616B

CN107036616B - Meal ordering system and method based on navigation

Info

Publication number: CN107036616B
Application number: CN201710218556.1A
Authority: CN
Inventors: 孔燕
Original assignee: Ooros Automotive Co Ltd
Current assignee: Ooros Automotive Co Ltd
Priority date: 2017-04-05
Filing date: 2017-04-05
Publication date: 2020-02-07
Anticipated expiration: 2037-04-05
Also published as: CN107036616A

Abstract

The invention provides a meal ordering system and method based on navigation, the system comprises a navigation system, a processing unit and a display unit, wherein the navigation system comprises an input unit, the input unit is used for receiving a destination input by a user; the control unit is coupled with the navigation system, responds to the meal ordering option of a user, acquires the driving time from the current position of the vehicle to the destination calculated by the navigation system, and calculates the meal delivery time from the meal delivery to the destination according to the driving time calculated by the navigation system; and a communication unit coupled with the control unit; and the communication unit sends a food ordering instruction to a remote server according to the food delivery time from the food delivery to the destination calculated by the control unit. The invention combines the food ordering system and the navigation system, and can consider real-time road conditions to realize automatic food ordering, thereby saving the time of users and merchants and improving the food delivery efficiency.

Description

Meal ordering system and method based on navigation

Technical Field

The invention relates to the field of automotive electronics, in particular to a navigation-based meal ordering system and method.

Background

The existing take-out meal ordering system can receive real-time meal ordering of a user and can also receive meal ordering appointment of the user. If the user needs to order after work, the more common ordering situation is as follows:

after the user arrives at home, the user orders the food, and the food can be sent only after waiting for a long time;

when the user goes to work, the user orders the food, and in this way, the user may go home and go out;

the user needs to estimate the time of arrival at home by reserving the food ordering delivery time with the food ordering place and then manually input the food ordering reservation time, which is time-consuming and labor-consuming.

Disclosure of Invention

In view of this, the invention provides a navigation-based meal ordering system and method, so as to solve the problem that meal ordering is not intelligent and convenient enough in the prior art.

Specifically, the invention is realized by the following technical scheme:

according to a first aspect of the present invention, there is provided a navigation-based meal ordering system, the system comprising:

a navigation system including an input unit for receiving a destination input by a user;

the control unit is coupled with the navigation system, responds to the meal ordering option of a user, acquires the driving time from the current position of the vehicle to the destination calculated by the navigation system, and calculates the meal delivery time from the meal delivery to the destination according to the driving time calculated by the navigation system; and

a communication unit coupled with the control unit; and the communication unit sends a food ordering instruction to a remote server according to the food delivery time from the food delivery to the destination calculated by the control unit.

According to a second aspect of the present invention, there is provided a navigation-based meal ordering method, the method comprising:

receiving a destination input by a user;

responding to a meal ordering option of a user, acquiring the driving time from the current position of the vehicle to the destination calculated by navigation, and calculating the meal delivery time from the meal delivery to the destination according to the driving time calculated by the navigation;

and sending a food ordering instruction to a remote server according to the calculated food delivery time from the food delivery to the destination.

The invention combines the food ordering system and the navigation system, and can consider real-time road conditions to realize automatic food ordering, thereby saving the time of users and merchants and improving the food delivery efficiency.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the invention, as claimed.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

FIG. 1 is a functional block diagram of a navigation-based ordering system in accordance with one embodiment of the present invention;

FIG. 2 is a functional block diagram of yet another navigation-based ordering system in accordance with an embodiment of the present invention;

FIG. 3 is a flow chart of a navigation-based meal ordering method according to an embodiment of the invention;

fig. 4 is a flowchart of another navigation-based meal ordering method according to an embodiment of the invention.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present invention. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the invention, as detailed in the appended claims. In addition, the features in the embodiments and the examples described below may be combined with each other without conflict.

FIG. 1 is a functional block diagram of an exemplary navigation-based ordering system, according to one embodiment of the invention. It is to be understood that fig. 1 only shows some of the elements of a navigation-based ordering system for the purpose of describing the structure and operation of a navigation-based ordering system in accordance with a preferred embodiment of the present invention.

Referring to fig. 1, the navigation-based meal ordering system according to the embodiment of the present invention includes a navigation system 10, a control unit 20 and a communication unit 30, wherein the control unit 20 is coupled to the navigation system 10 and the communication unit 30 respectively, so that the control unit 20 can perform data transmission with the navigation system 10 and the communication unit 30 respectively.

Referring to fig. 1 and 2, in the embodiment of the present invention, the navigation system 10 includes an input unit 11 and a history navigation database 12, wherein the input unit 11 is configured to receive a destination input by a user. Alternatively, the input unit 11 may include a touch screen, a keyboard, a sensing pad, or any combination thereof. According to a preferred embodiment of the present invention, the input unit 11 comprises a touch screen, which may be a display screen of the navigation system 10, but may also be independent of the display screen of the navigation system 10. Specifically, the user may manually input a destination on the touch screen or select a destination previously set on the touch screen as an input of the touch screen.

In the embodiment of the present invention, the history navigation database 12 is configured to record an order place (that is, a merchant who delivers a meal), an order variety corresponding to the order place, a first order frequency corresponding to the order place, and a second order frequency corresponding to the order variety. The first meal ordering frequency refers to the frequency of ordering at a certain meal ordering place determined in the historical meal ordering service, and the second meal ordering frequency refers to the historical selection frequency of each meal ordering variety contained in the certain meal ordering place.

In addition, the history navigation database 12 is coupled with the control unit 20, so that the control unit 20 can obtain data from the history navigation database 12, thereby providing more reasonable and convenient meal ordering service.

The control Unit 20 may be a Central Processing Unit (CPU), and the CPU may select a Device capable of Processing and transmitting data, such as a computer or a special chip, where the special chip may be a single chip such as an ARM (Advanced RISC machine, RISC microprocessor), an AVR (reduced instruction set high speed 8-bit single chip), an ASIC (Application Specific Integrated Circuit), an FPGA (Field Programmable Gate Array), a CPLD (Complex Programmable Logic Device), or other Programmable devices.

In the embodiment of the present invention, the communication unit 30 is communicatively connected to a remote server, wherein the communication unit 30 may include a related hardware circuit or a software module for implementing wireless communication. Optionally, the remote server is a take-away website, such as a beauty group, a public comment, or the like.

In one embodiment, the control unit 20 responds to the user's meal ordering option, obtains the driving time from the current position of the vehicle to the destination calculated by the navigation system 10, calculates the meal delivery time from the current position of the vehicle to the destination according to the driving time calculated by the navigation system 10, and then sends a meal ordering instruction to a remote server by the communication unit 30 according to the meal delivery time from the meal delivery to the destination calculated by the control unit 20. The navigation-based meal ordering system can keep the driving time when the user reaches the destination consistent with the meal delivery time when the meal delivery place delivers the meal to the destination, and the meal ordering system is combined with the navigation system 10, so that the automatic meal ordering is realized by considering real-time road conditions, the time of the user and a merchant is saved, the meal delivery efficiency is improved, and the intellectualization and the convenience of the meal ordering system are realized.

In the embodiment of the present invention, before responding to the meal ordering option of the user, the control unit 20 needs to further obtain destination information and time information input by the user to determine whether to send a meal ordering prompt to the user. In some examples, the order prompt is a voice prompt, and in other examples, the order prompt is a dialog prompt, for example, the dialog carries a word "whether to order" and includes an "ok" button and a "cancel" button for the user to select. And the order option is a confirm order message returned by the user for the order prompt sent by the control unit 20, for example, when the user presses a "confirm" button or the user replies a "confirm order" message, the control unit 20 may receive the order option of the user.

In one embodiment, the control unit 20 determines whether the destination is within a preset navigation place range or not, and whether the time when the user inputs the destination is within a preset time range or not; and deciding whether to send a meal ordering prompt to the user. Here, the destination is a destination input by the user from the input unit 11 in the navigation system 10. In this embodiment, after the user inputs the destination through the input unit 11 of the navigation system 10, the control unit 20 obtains the destination from the navigation system 10 and the time when the user inputs the destination into the navigation system 10 to perform the judgment, and determines whether to send the order prompt to the user according to the judgment result, so as to realize the intelligentization of ordering.

In this embodiment, when the control unit 20 determines that the destination is located within the preset navigation site range and the time when the user inputs the destination is located within the preset time range, it determines to send a meal ordering prompt to the user to inquire whether the user needs to order a meal; when the control unit 20 detects that the destination is not within the preset navigation place range or the time for inputting the destination by the user is not within the preset time range, it is determined that the user does not need to order the meal, and the meal ordering is finished. The preset navigation location range may include locations where the user frequently moves within a preset time range (for example, after the user leaves work), such as home, and the preset time range may be a certain period of time after the user leaves work, or a preset time period summarized according to historical time data of the user's activity.

In this embodiment, the meal ordering instruction at least includes information such as a destination (i.e., a destination input by a user, that is, a place where the meal delivery arrives), and a meal delivery time. In an embodiment, the food ordering instruction may include a destination, a food delivery time, a food ordering place, and a food ordering variety, and after the remote server receives the food ordering instruction from the communication unit 30, the remote server notifies the corresponding food ordering place of the food delivery time and the food ordering variety when the food delivery reaches the destination according to the food ordering instruction, so as to provide a more intelligent and convenient food ordering service for the user.

When the control unit 20 receives the order selection fed back by the user, the control unit 20 further includes: and determining the order place and the order variety of the current order.

Alternatively, the control unit 20 automatically determines the current order place and order variety, thereby making the order service more intelligent. In one embodiment, the order place is a preset order place and the order variety is a preset order variety. In this embodiment, after responding to the user's meal ordering selection, the control unit 20 directly calls the pre-stored information of the preset meal ordering place and the preset meal ordering variety, and directly corresponds the preset meal ordering place and the preset meal ordering variety to the meal ordering place and the meal ordering variety of the current meal ordering, so as to provide more intelligent meal ordering service. The preset meal ordering place and the preset meal ordering variety may be pre-stored by the control unit 20, for example, the control unit 20 may include a memory module, and the memory module is configured to store the preset meal ordering place and the preset meal ordering variety preset by the user. The memory module may include cache memory cells or volatile memory cells, such as Dynamic Random Access Memory (DRAM), Static Random Access Memory (SRAM), zero-capacitance random access memory (Z-RAM), two-transistor random access memory (TTRAM), and the like. In another embodiment, the control unit 20 determines the order place and the order variety of the current order according to the order place with the largest first order number and the corresponding order variety with the largest second order number recorded in the history navigation database 12. In this embodiment, the meal ordering place of the current meal ordering selects the meal ordering place with the largest first meal ordering times in the history record, and the meal ordering variety of the current meal ordering selects the meal ordering variety with the largest second meal ordering times in the meal ordering place with the largest first meal ordering times in the history record, so as to better meet the actual requirements of the user.

Optionally, the control unit 20 determines the current meal ordering place and the meal ordering variety according to the selection of the user, so that the meal ordering system can provide meal ordering service according to the user requirement on the advantage of intelligence, and the function is more comprehensive and flexible. In one embodiment, the control unit 20 holds a plurality of types of order items, such as pasta, spicy saucepan, potty, and the like, in advance, and the control unit 20 also holds order places corresponding to the respective order items in advance, and after the user selects an order item, the control unit 20 directly obtains the order place corresponding to the order item. In another embodiment, the control unit 20 is bound with an existing takeaway website, and after the control unit 20 responds to the user's meal ordering option, the bound takeaway website is directly pushed to the user, and the user directly selects the meal ordering variety and meal ordering place and feeds the meal ordering variety and meal ordering place back to the control unit 20. In another embodiment, the control unit 20 sends an item selection message to the user, and determines the order place and the order item of the current order according to a response message fed back by the user with respect to the item selection message. The variety selection message comprises selectable meal ordering places and meal ordering varieties, and the response message comprises the meal ordering places and the meal ordering varieties of the current meal ordering fed back by the user aiming at the variety selection message. In this embodiment, the control unit 20 sends an item selection message to the user according to the order place with the largest first order frequency recorded in the history navigation database 12 and the order item corresponding to the order place, and the user can further select an order item according to the requirement, thereby realizing diversification of the order service function.

The navigation-based meal ordering system of the embodiment of the invention can further comprise an updating unit 40, wherein the updating unit 40 is respectively coupled with the control unit 20 and the historical navigation database 12. In this embodiment, the updating unit 40 updates the history navigation database 12 according to the order place and the order type of the current order determined by the control unit 20.

The updating unit 40 obtains the order place and the order variety of the current order determined by the control unit 20, and further determines that: when the historical navigation database 12 has the meal ordering place of the current meal ordering, increasing the first meal ordering times of the corresponding meal ordering place recorded in the historical navigation database 12, updating the meal ordering variety corresponding to the current meal ordering place, when the historical navigation database 12 has the meal ordering variety corresponding to the current meal ordering place, increasing the second meal ordering times of the corresponding meal ordering variety, and when the historical navigation database 12 does not have the meal ordering variety corresponding to the current meal ordering place, adding the meal ordering variety corresponding to the current meal ordering place and the corresponding second meal ordering times in the historical navigation database 12; and when the historical navigation database 12 does not have the order place of the current order, adding the order place of the current order and the corresponding order variety, the first order frequency and the second order frequency in the historical navigation database 12. According to the embodiment, the meal ordering service which better meets the requirements of the user is provided through the stored historical meal ordering data.

In a further embodiment, there is a parking time after the user drives to the destination, so in a preferred embodiment of the present invention, the control unit 20 needs to consider not only the driving time calculated by the navigation system 10 but also the parking time of the user (for example, 10 minutes, which can be calculated empirically) when calculating the meal delivery time to the destination. In this case, the control unit 20 calculates the meal delivery time to the destination according to the meal order time (i.e. the time for the user to input the meal order selection or the time for the user to input the meal order place and the meal order variety), the driving time calculated by the navigation system 10 and the preset parking time, for example, the meal order time is T1, the driving time calculated by the navigation system 10 is T1, and the preset parking time is T2, so that the meal delivery time T2 is T1+ T1+ T2, thereby enabling the arrival time of the meal delivery to be more accurate and further improving the meal delivery efficiency.

In a feasible implementation manner of the present invention, the time of the user going off work is 5 points, the destination input by the user is the home of the user, and the home of the user is located within the preset navigation location range, the preset time range is 1 hour after the user goes off work, for example, if the time of the user going off work is 5 points normally, the preset time range is 5 points-6 points.

After a user 5 starts a vehicle and starts a navigation system 10, the home of the user is input in an input unit 11 of the navigation system 10, the navigation system 10 calculates the driving time of the user arriving at home according to real-time road conditions, meanwhile, a control unit 20 detects that a destination 'home' input by the user is located in a preset navigation site range, the time of the user inputting the 'home' in the input unit 11 is between 5 and 6, the control unit 20 inquires whether the user needs to order a meal or not by popping up a message frame, acquires the driving time calculated by the navigation system 10 after the control unit 20 receives information needing to order the meal fed back by the user, calculates the meal delivery time according to the current meal delivery time, the driving time calculated by the navigation system 10 and the preset parking time, and then sends a meal delivery instruction to a remote server by a communication unit 30 according to the destination and the meal delivery time input by the user, thereby realizing the intellectualization and the convenience of ordering.

As shown in fig. 3, a flowchart of a navigation-based meal ordering method provided by the present invention corresponds to the navigation-based meal ordering system, and the content of the navigation-based meal ordering method can be understood or explained with reference to an embodiment of the navigation-based meal ordering method system.

With reference to fig. 3 and 4, the navigation-based meal ordering method of the present invention may include:

step S100, start. This step may include the user starting the vehicle, turning on the navigation, etc.

Step S200, receiving a destination input by a user. For example, the destination entered by the user is the user's home, and navigation on the vehicle begins navigating the route that the vehicle traveled to the user's home at the current location.

And step S300, responding to the meal ordering option of the user, acquiring the driving time from the current position of the vehicle to the destination calculated by navigation, and calculating the meal delivery time from the meal delivery to the destination according to the driving time calculated by navigation. Wherein, the order option refers to a received message from the user confirming that the order is needed.

In this step, to make the situation more realistic, the meal delivery time T2 is calculated from the meal ordering time T1, the driving time T1 calculated by the navigation system 10, and the preset parking time T2, where T2 is T1+ T1+ T2.

Optionally, after responding to the user's meal ordering instruction, the method further includes:

and determining the order place and the order variety of the current order.

In an embodiment, the meal ordering place is a preset meal ordering place, and the meal ordering variety is a preset meal ordering variety, so that the meal ordering place and the meal ordering variety are automatically selected, and meal ordering service is more intelligent and convenient.

In another embodiment, the determining the order place and the order variety of the current order specifically includes: and determining the order place and the order variety of the current order according to the order place with the maximum first order times and the corresponding order variety with the maximum second order times recorded in the historical navigation database, wherein the way of automatically selecting the order place and the order variety is combined with historical data, so that the order service is more intelligent and convenient, and the habit of the user is considered, so that the order service is more in line with the actual requirements of the user.

In another embodiment, the determining the order place and the order variety of the current order specifically includes:

and sending a variety selection message to the user, and determining the order place and the order variety of the current order according to a response message fed back by the user aiming at the variety selection message, wherein the variety selection message comprises selectable order places and order varieties, and the way that the user selects the order place and the order variety according to the needs is more flexible and diversified.

In this embodiment, the sending the item selection message to the user specifically includes:

and sending an item selection message to the user according to the order place with the maximum first order frequency recorded in the historical navigation database 12 and the order item corresponding to the order place.

In addition, in order to make the meal ordering more intelligent and take the personal habits of the user into consideration, after determining the meal ordering place and the meal ordering variety of the current meal ordering, the method further includes:

and updating the historical navigation database 12 according to the determined meal ordering place and meal ordering variety of the current meal ordering.

And step S400, sending a food ordering instruction to a remote server according to the calculated food delivery time from the food delivery to the destination. The meal ordering instruction can comprise information such as a destination, meal delivery time, a meal ordering place, a meal ordering variety and the like.

And step S500, ending.

Referring to fig. 4, between step S200 and step S300, the navigation-based meal ordering method of the present invention may further include:

step S301, destination information input by a user is obtained, and whether the destination is located in a preset navigation place range or not is judged. When the destination is determined to be within the preset navigation location range, the step S302 is performed; otherwise, the process proceeds to step S500.

Step S302, obtaining the time information of the user input destination, and judging whether the time of the preset user input destination is within the preset time range. When the time for inputting the destination by the user is judged to be within the preset time range, the step S303 is executed; otherwise, the process proceeds to step S500.

It should be noted that the execution sequence of step S301 and step S302 may be replaced, and is not limited to the sequence shown in fig. 4.

Step S303, when the destination is located in a preset navigation place range and the time of the destination input by the user is located in a preset time range; and deciding to send a meal ordering prompt to the user.

In this step, the meal ordering prompt may be implemented by voice prompt, dialog box, etc. so as to ask the user whether the meal ordering is needed.

And step S304, judging whether the food ordering options fed back by the user are received. In this step, the feedback of the user on whether the food is required to be ordered can be selected by voice or manually inputting to confirm the information that the food is required to be ordered or select the information that the food is not required to be ordered.

When receiving the information confirming that the user needs to order, the method goes to step S300; and when receiving the information of no order fed back by the user or not receiving the feedback of whether the user orders the food, the method goes to step S500.

The navigation-based meal ordering system and method can realize automatic meal ordering by considering real-time road conditions by combining the meal ordering system with the navigation system 10, thereby saving the time of users and merchants and improving the meal delivery efficiency.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. A navigation-based meal ordering system, the system comprising:

a communication unit coupled with the control unit; the communication unit sends a food ordering instruction to a remote server according to the food delivery time from the food delivery to the destination calculated by the control unit;

the navigation system further includes:

a historical navigation database coupled with the control unit, wherein the historical navigation database is used for recording historical meal ordering places, meal ordering varieties corresponding to the historical meal ordering places, first meal ordering times corresponding to the historical meal ordering places and second meal ordering times corresponding to the meal ordering varieties;

and after responding to the user meal ordering option, the control unit determines the meal ordering place and the meal ordering variety of the current meal ordering according to the historical meal ordering place with the maximum first meal ordering times and the meal ordering variety with the maximum second meal ordering times corresponding to the historical meal ordering place, which are recorded in the historical navigation database.

2. The navigation-based ordering system according to claim 1, wherein the control unit sends an item selection message to the user, and determines an order place and an order item for the current order based on a response message fed back by the user with respect to the item selection message, the item selection message containing selectable order places and order items.

3. The navigation-based meal ordering system of claim 2, wherein the control unit sends a variety selection message to the user based on the historical meal ordering location with the highest first meal ordering frequency recorded in the historical navigation database and the meal ordering variety corresponding to the historical meal ordering location.

4. The navigation-based ordering system according to any of claims 1-3, wherein said system further comprises:

and the updating unit is respectively coupled with the control unit and the historical navigation database, and updates the historical navigation database according to the order place and the order variety of the current order determined by the control unit.

5. The navigation-based meal ordering system of claim 1, wherein the meal delivery time to the destination is determined based on the travel time and the preset stop time calculated by the navigation system.

6. The navigation-based ordering system according to claim 1, wherein the control unit acquires destination information and time information input by the user, and decides whether to send an ordering prompt to the user.

7. The navigation-based ordering system according to claim 6, wherein the control unit is based on whether the destination is within a preset navigation place range and whether the time of the user inputting the destination is within a preset time range; and deciding whether to send a meal ordering prompt to the user.

8. The navigation-based ordering system of claim 7, wherein when said destination is within a preset navigation location range and the time of said user entering the destination is within a preset time range; the control unit decides to send a meal ordering prompt to the user.

9. A navigation-based meal ordering method, the method comprising:

receiving a destination input by a user;

responding to the meal ordering option of the user, acquiring the driving time from the current position of the vehicle to the destination calculated by the navigation system, and calculating the meal delivery time from the meal delivery to the destination according to the driving time calculated by the navigation system;

sending a food ordering instruction to a remote server according to the calculated food delivery time from the food delivery to the destination;

and after responding to the meal ordering options of the user, determining the meal ordering place and the meal ordering variety of the current meal according to the historical meal ordering place with the most first meal ordering times and the meal ordering variety with the most second meal ordering times corresponding to the historical meal ordering place, which are recorded in the historical navigation database.

10. The navigation-based meal ordering method of claim 9, wherein the determining of the meal ordering location and the meal ordering type for the current meal ordering specifically comprises:

and sending variety selection information to the user, and determining the order place and the order variety of the current order according to a response message fed back by the user aiming at the variety selection information, wherein the variety selection information comprises selectable order places and order varieties.

11. The navigation-based meal ordering method of claim 10, wherein said sending a breed selection message to said user specifically comprises:

and sending an item selection message to the user according to the historical meal ordering place with the maximum first meal ordering times recorded in the historical navigation database and the meal ordering items corresponding to the historical meal ordering place.

12. The navigation-based meal ordering method of any of claims 9-11, wherein determining the order location and the order type for the current meal order further comprises:

and updating the historical navigation database according to the determined meal ordering place and the meal ordering variety of the current meal ordering.

13. The navigation-based meal ordering method of claim 9, wherein the meal delivery time for delivering meal to the destination is determined according to the driving time and the preset parking time calculated by the navigation system.

14. The navigation-based meal ordering method of claim 9, wherein the method further comprises:

and acquiring destination information and time information input by the user and determining whether to send a meal ordering prompt to the user.

15. The navigation-based meal ordering method of claim 14, wherein the method further comprises:

whether the destination is located within a preset navigation place range or not and whether the time of inputting the destination by the user is located within a preset time range or not are determined; and deciding whether to send a meal ordering prompt to the user.

16. The navigation-based meal ordering method of claim 15, wherein the step of ordering is based on whether the destination is within a preset navigation location range and whether the time of the user's input of the destination is within a preset time range; the step of determining whether to send the meal ordering prompt to the user specifically includes:

when the destination is located in a preset navigation place range, and the time of inputting the destination by the user is located in a preset time range; and deciding to send a meal ordering prompt to the user.