CN112862300B - Electronic tag device, task information distribution method and task processing system - Google Patents

Abstract

The embodiment of the invention discloses an electronic tag device, a task information distribution method and a task processing system. The task processing system comprises an electronic tag device and a server, wherein the server is used for executing a task information distribution method, namely acquiring task information of at least one task to be processed, selecting an electronic tag device with a task binding state being unbound to send the task information, and the electronic tag device is used for receiving the task information of a target task and displaying the category and the running water identification of the target task according to the task information. The task processing system provided by the embodiment of the invention can automatically distribute the task information of the task to be processed, and display the task information of different types of tasks to be processed through the electronic tag device, so that the time consumed by a merchant or a distribution person for determining the corresponding position when placing the food is reduced, and the accuracy of the meal-out time of a take-out order is improved.

Description

Electronic tag device, task information distribution method and task processing system

Technical Field

The present invention relates to the field of computer technologies, and in particular, to an electronic tag device, a task information allocation method, and a task processing system.

Background

In an application scenario of offline delivery, for example, a take-away application scenario, an express application scenario, etc., in order to enhance user experience, a delivery time is usually predicted before delivery, so that a user can reasonably schedule time to receive take-away or express, where time of configuring an item by a merchant is an important basis for accurately predicting delivery time.

Taking the take-out order as an example, the prior art may detect the take-out time of the take-out order by a take-out detection means. With the increasing number of online take-off platforms, merchants may receive take-off orders of the same or different categories through different online take-off platforms. The takeout orders of different platforms may have the same running water identification, but the existing takeout detection device cannot display the types of the takeout orders including the online takeout platforms to which the takeout orders belong, and the existing takeout detection device cannot dynamically program the article placement areas corresponding to different types, so that when the number of the dinner products is large, merchants cannot accurately and timely distinguish the positions corresponding to the takeout orders with the same running water identification and from different online takeout platforms, and the dinner products are placed at the corresponding positions, so that the meal placement time of the takeout orders is inaccurate.

Disclosure of Invention

In view of this, the embodiment of the invention provides an electronic tag device, a task information distribution method and a task processing system, which are used for displaying a category corresponding to a task through the electronic tag device, reducing time consumed by a merchant or a distribution person for determining a corresponding position when placing a food, and improving accuracy of meal delivery time of a takeout order.

In a first aspect, an embodiment of the present invention provides an electronic tag device, including:

a display section;

a communication section configured to receive task information of a target task; and

and the control component is configured to control the display component to display the category of the target task and a running water identifier according to the task information, wherein the running water identifier is used for representing the serial number of the target task.

In a second aspect, an embodiment of the present invention provides a task information allocation method, which is applicable to a server, and the method includes:

acquiring task information of at least one task to be processed, wherein the task information comprises a class of the task to be processed and a running water identifier, and the running water identifier is used for representing a serial number of the target task;

and selecting an electronic tag device with a task binding state being unbound to send the task information.

In a third aspect, an embodiment of the present invention provides a task information allocation apparatus, which is applicable to a server, and the apparatus includes:

the task information acquisition unit is used for acquiring task information of at least one task to be processed, wherein the task information comprises a class of the task to be processed and a running water identifier, and the running water identifier is used for representing a serial number of the target task;

and the task information sending unit is used for selecting an electronic tag device with a task binding state being unbound to send the task information.

In a fourth aspect, embodiments of the present invention provide a computer readable storage medium having stored thereon computer program instructions which, when executed by a processor, implement the method according to the second aspect.

In a fifth aspect, an embodiment of the present invention provides an electronic device, comprising a memory and a processor, wherein the memory is configured to store one or more computer program instructions, wherein the one or more computer program instructions are executed by the processor to implement the method as described in the second aspect.

In a sixth aspect, an embodiment of the present invention provides a task processing system, including:

The electronic tag device is used for receiving the task information of the target task, displaying the category of the target task and a running water identifier according to the task information of the target task, wherein the running water identifier is used for representing the serial number of the target task; and

the server is used for acquiring task information of at least one task to be processed, and selecting an electronic tag device with a task binding state being unbound to send the task information.

The task processing system comprises an electronic tag device and a server, wherein the server is used for executing a task information distribution method, namely acquiring task information of at least one task to be processed, selecting an electronic tag device with a task binding state being unbound to send the task information, and the electronic tag device is used for receiving the task information of a target task and displaying the category and the running water identification of the target task according to the task information. The task processing system provided by the embodiment of the invention can automatically distribute the task information of the task to be processed, and display the task information of different types of tasks to be processed through the electronic tag device, so that the time consumed by a merchant or a distribution person for determining the corresponding position when placing the food is reduced, and the accuracy of the meal-out time of a take-out order is improved.

Drawings

The above and other objects, features and advantages of the present invention will become more apparent from the following description of embodiments of the present invention with reference to the accompanying drawings, in which:

FIG. 1 is a schematic diagram of a hardware system architecture according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an electronic tag device according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of an electronic device according to an embodiment of the invention;

FIG. 4 is a flow chart of a task processing method according to a first embodiment of the present invention;

FIG. 5 is a schematic view of the location of an article placement area and an electronic label device according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a determining target electronic tag device according to an embodiment of the present invention;

FIG. 7 is another schematic diagram of a determining target electronic tag device according to an embodiment of the present invention;

FIG. 8 is an interface schematic diagram of an electronic tag device according to an embodiment of the present invention;

fig. 9 is a flowchart of a task processing method on the electronic tag control device side of the first embodiment of the present invention;

fig. 10 is a flowchart of a task processing method of the first embodiment of the present invention on the server side (i.e., a task information distribution method);

FIG. 11 is a flow chart of a task processing method according to a second embodiment of the present invention;

FIG. 12 is a flowchart of a task processing method on the electronic tag device side according to a second embodiment of the present invention;

Fig. 13 is a flowchart of a task processing method at a server side (i.e., a task information distribution method) of the second embodiment of the present invention;

fig. 14 is a schematic diagram of a task information distribution device according to an embodiment of the present invention.

Detailed Description

The present invention is described below based on examples, but the present invention is not limited to only these examples. In the following detailed description of the present invention, certain specific details are set forth in detail. The present invention will be fully understood by those skilled in the art without the details described herein. Well-known methods, procedures, flows, components and circuits have not been described in detail so as not to obscure the nature of the invention.

Moreover, those of ordinary skill in the art will appreciate that the drawings are provided herein for illustrative purposes and that the drawings are not necessarily drawn to scale.

Meanwhile, it should be understood that in the following description, "circuit" refers to a conductive loop constituted by at least one element or sub-circuit through electrical connection or electromagnetic connection. When an element or circuit is referred to as being "connected to" another element or being "connected between" two nodes, it can be directly coupled or connected to the other element or intervening elements may be present and the connection between the elements may be physical, logical, or a combination thereof. In contrast, when an element is referred to as being "directly coupled to" or "directly connected to" another element, it means that there are no intervening elements present between the two.

Unless the context clearly requires otherwise, the words "comprise," "comprising," and the like in the description are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is, it is the meaning of "including but not limited to".

In the description of the present invention, it should be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Furthermore, in the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the embodiment of the present invention, a task to be processed (i.e., a target task) is taken as an example of a take-out order. However, it will be readily understood by those skilled in the art that the task to be processed may be other tasks, for example, tasks having a plurality of flow nodes and requiring at least one person to complete one flow node, and the embodiments of the present invention are equally applicable.

With the increasing number of online take-off platforms, merchants may receive take-off orders of the same or different categories through different online take-off platforms. Taking the type of the take-out order as an example of an online take-out platform to which the take-out order belongs as an illustration, take-out orders of different platforms may have the same running water identification, the existing take-out detection device cannot display the type of the take-out order including the online take-out platform to which the take-out order belongs, and the existing take-out detection device cannot dynamically plan the article placement areas corresponding to different types. Therefore, when the number of the dinner products is large, merchants cannot accurately and timely distinguish positions corresponding to take-out orders with the same flow line identification and from different online take-out platforms, and the dinner products are placed at the corresponding positions, so that the take-out time of the take-out orders is inaccurate.

Fig. 1 is a schematic diagram of a hardware system architecture according to an embodiment of the present invention. The hardware system architecture shown in fig. 1 may include at least one task issuing terminal, at least one electronic tag device, at least one task receiving terminal, at least one platform side server (hereinafter also referred to as a server), and a plurality of task processing terminals, and fig. 1 illustrates one task issuing terminal 11, one electronic tag device 12, one task receiving terminal 13, one server 14, and one task processing terminal 15 as an example. The task issuing terminal 11, the electronic tag device 12, the task receiving terminal 13, the server 14, and the task processing terminal 15 shown in fig. 1 can be communicatively connected via a network. In the embodiment of the present invention, the task release terminal 11 is also referred to as a user terminal, and a user may release a task (e.g., take-out order, commodity order, etc.) on an online task release platform (e.g., an order platform, an online shopping platform, etc.) through the task release terminal 11. After the server 14 obtains the task to be processed issued by the user through the online task issuing platform, a resource provider (for example, a merchant, etc.) of the task to be processed can be determined according to the task information of the task to be processed, and the task information is sent to the task receiving terminal 13 corresponding to the resource provider, so that the resource provider can determine to receive the task or refuse to receive the task through the task receiving terminal 13. After the server 14 receives the information for determining to receive the task, which is sent by the task receiving terminal corresponding to the resource provider, the server 14 may send task information of the task to be processed to the task processing terminal 15, and may send task information of the task to be processed to the electronic tag device 12 corresponding to the resource provider, so as to display the category and the running water identifier in the task information through the electronic tag device.

The task processing system comprises an electronic tag device and a server. After the server obtains the task information of at least one task to be processed, the server can select an electronic tag device with a task binding state being unbound to send the task information. The electronic tag device may display the category and the running water identifier of the task after receiving the task information of the task (i.e., the target task).

The electronic tag devices of the embodiment of the invention are fixedly arranged at the proper positions of the goods shelves. Specifically, the electronic tag devices may be fixedly disposed at appropriate positions of the shelf in a matrix form, that is, the number of electronic tag devices in each row is the same in the shelf, and the number of electronic tag devices in each column is the same. By adopting the setting mode, merchants and task processing resources can more easily find the positions corresponding to the dinner products of each take-out order, so that the dinner products can be more easily placed at the correct positions or taken away from the correct positions, and more accurate data support can be provided for the subsequent prediction of the dinner time of the take-out order.

Fig. 2 is a schematic diagram of an electronic tag device according to an embodiment of the present invention. As shown in fig. 2, the electronic tag device of the present embodiment includes a display section 21, a communication section 22, and a control section 23. Among them, the display part 21 may be various existing display screens such as an LCD (Liquid Crystal Display, liquid crystal) display device, an LED (Light Emitting Diode ) display device, etc.; the communication unit 22 may be various existing long-distance communication devices, such as cellular network (e.g. 3G, 4G, 5G, etc.) communication devices, WLAN (Wireless Local Area Networks, wireless local area network) communication devices, etc., which makes the electronic tag device of the embodiment of the present invention have the characteristics of simple structure, high flexibility, convenient installation, low maintenance cost, etc.

Wherein the communication part 22 is configured to receive task information of the target task. The control section 23 is configured to control the display section 21 to display a category of the target task and a running water identification for characterizing a serial number of the target task, based on the task information.

Further, the display section 21 includes a category display area and a flowing water identification display area. The control section 23 is configured to control the display section 21 to display the category of the target task in the category display area in accordance with the task information.

Further, the category display area includes a plurality of different category icons, and the control section 23 is configured to control the lighting or the lighting-off of the category icon corresponding to the category of the target task in accordance with the task information.

Further, the control section 23 is configured to control a display section to display the running water identification differently in accordance with the task information to distinguish the category of the target task.

Further, the pipeline identifier is used for representing the serial number of the target task in the corresponding category or representing the serial number of the target task in all tasks.

Further, the category is a source category of the target task.

Further, the electronic label device further comprises a detection part 24. The detection means 24 may be any of a variety of existing object sensors. Such as an infrared sensor or a photoelectric sensor, etc. Wherein the infrared sensor is a sensor capable of sensing infrared rays radiated from a target and performing measurement using physical properties of the infrared rays; a photoelectric sensor is a device that converts an optical signal into an electrical signal using a photoelectric effect.

In an alternative implementation, the detection component 24 may be disposed within the electronic label device, securing the electronic label device in place on the shelf, such that the detection component 24 may detect the signal of the corresponding location.

In another alternative implementation, the detecting component 24 may also be provided separately from the electronic tag device, the electronic tag device is fixed to the shelf, and the detecting component 24 is provided at a corresponding position, so that the detecting component 24 may detect the signal of the corresponding position. This can promote flexibility in the arrangement of the electronic tag device and the detecting member 24.

The detection means 24 is configured to acquire a position detection signal. The control part 23 is configured to determine an article placement state of the corresponding location from the location detection signal, the article placement state comprising a first state for characterizing that the corresponding location has no article placement and a second state for characterizing that the corresponding location has article placement.

Further, the display section 21 includes a placement state display area. The control section 23 is configured to control the display section 21 to display the placement state display area differently according to the article placement state.

Further, the control unit 23 is configured to send binding state update information to the server to update the task binding state of the corresponding electronic tag device to unbound in response to the article placement state being converted from the second state to the first state, and/or send first state update information to the server to update the task processing state of the target task to completed in response to the article placement state being converted from the second state to the first state.

Further, the control section 23 is configured to send second state update information to a server to update the task processing state of the target task to in-process in response to the article placement state transitioning from the first state to the second state.

The electronic tag device of the embodiment is used for receiving task information of the target task and displaying the category and the running water identification of the target task according to the task information. The electronic tag device of the embodiment can display task information of different types of tasks to be processed, reduce time consumed by a merchant or a distribution person for determining a corresponding position when placing food, and improve accuracy of meal delivery time of take-out orders.

Fig. 3 is a schematic diagram of an electronic device according to an embodiment of the invention. In this embodiment, the electronic device includes a server, a terminal, and the like. As shown in fig. 3, the electronic device: at least one processor 301; and a memory 302 communicatively coupled to the at least one processor 301; and a communication component 303 communicatively connected to the scanning device, the communication component 303 receiving and transmitting data under the control of the processor 301; wherein the memory 302 stores instructions executable by the at least one processor 301, the instructions being executable by the at least one processor 301 to perform the steps of:

acquiring task information of at least one task to be processed, wherein the task information comprises a class of the task to be processed and a running water identifier, and the running water identifier is used for representing a serial number of the target task;

and selecting an electronic tag device with a task binding state being unbound to send the task information.

Further, the electronic device is further configured to implement the following steps:

and updating the task binding state of the electronic tag device to be bound.

Further, the selecting the electronic tag device with the task binding state being unbound to send the task information includes:

Acquiring task binding states of at least one first type of electronic tag device, wherein the first type of electronic tag device is an electronic tag device positioned in a target object placing area;

in response to the task binding state of at least one first type of electronic tag device being unbound, determining the first type of electronic tag device, the task binding state of which is unbound and closest to a first location, as a target electronic tag device;

and sending the task information to the target electronic tag device.

Further, the target object placement area is an object placement area corresponding to the category of the task to be processed;

the selecting the electronic tag device with the task binding state being unbound to send the task information includes:

responding to the task binding states of the first type of electronic tag devices to be bound, and acquiring the task binding states of at least one second type of electronic tag devices, wherein the second type of electronic tag devices are electronic tag devices positioned in a non-target object placing area;

determining the second type of electronic tag devices which are unbound and closest to the second position as target electronic tag devices according to the task binding state;

And sending the task information to the target electronic tag device.

Further, the electronic device is further configured to implement the following steps:

and in response to receiving the binding state updating information sent by the electronic tag device, updating the task binding state of the corresponding electronic tag device from bound to unbound.

Further, the electronic device is further configured to implement the following steps:

and in response to receiving the first state updating information sent by the electronic tag device, updating the task processing state of the corresponding task to be processed to be completed.

Further, the electronic device is further configured to implement the following steps:

and in response to receiving the second state updating information sent by the electronic tag device, updating the task processing state of the corresponding task to be processed into processing.

Further, the electronic device is further configured to implement the following steps:

and recording an article configuration time length, wherein the article configuration time length is used for representing a time length from receiving task receiving information aiming at a task to be processed to receiving the second state updating information.

Further, the electronic device is further configured to implement the following steps:

and in response to receiving the second state updating information, sending processing state updating information to a corresponding task processing terminal so as to update the task processing state of the corresponding task to be processed into processing.

Specifically, the electronic device includes: one or more processors 301, and a memory 302, one processor 301 being illustrated in fig. 3. The processor 301, the memory 302 may be connected by a bus or otherwise, in fig. 3 by way of example. The memory 302 serves as a non-volatile computer-readable storage medium that can be used to store non-volatile software programs, non-volatile computer-executable programs, and modules. The processor 301 executes various functional applications of the device and data processing, i.e., the task information allocation described below, by running non-volatile software programs, instructions and modules stored in the memory 302.

Memory 302 may include a storage program area that may store an operating system, at least one application program required for functionality, and a storage data area; the storage data area may store a list of options, etc. In addition, memory 302 may include high-speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid-state storage device. In some embodiments, memory 302 may optionally include memory located remotely from processor 301, which may be connected to an external device via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

One or more modules are stored in memory 302 that, when executed by one or more processors 301, perform the task information allocation in any of the method embodiments described above.

The product may perform the method provided by the embodiment of the present application, and has the corresponding functional module and beneficial effect of the performing method, and technical details not described in detail in the embodiment of the present application may be referred to the method provided by the embodiment of the present application.

After acquiring task information of at least one task to be processed, the server of the embodiment selects an electronic tag device with a task binding state being unbound to send the task information. The method of the embodiment enables the server to automatically distribute the task information of the tasks to be processed so as to display the task information of different types of tasks to be processed through the electronic tag device later, reduces the time consumed by merchants or distribution personnel to determine corresponding positions when placing the food, and improves the accuracy of the meal-out time of the take-out order.

The embodiments of the present application also relate to a non-volatile storage medium for storing a computer-readable program for causing a computer to execute some or all of the above-described method embodiments.

That is, it will be understood by those skilled in the art that all or part of the steps in implementing the methods of the embodiments described above may be implemented by a program stored in a storage medium, where the program includes several instructions for causing a device (which may be a single-chip microcomputer, a chip or the like) or a processor (processor) to perform all or part of the steps in the methods of the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

The task processing method according to the embodiment of the present application is described in detail below by way of a method embodiment.

Fig. 4 is a flowchart of a task processing method according to the first embodiment of the present application. As shown in fig. 4, the method of the present embodiment may include the steps of:

step S401, task information of at least one task to be processed is obtained.

The user may generate a take-out order via a user terminal on an online take-out platform, take-out application software (described below as an online take-out platform), or the like. The server is connected with the online take-out platform, and can acquire order information of at least one newly added take-out order on the online take-out platform in a preset period (for example, 10 seconds).

In this embodiment, the user may generate the take-out order based on different online take-out platforms under the same merchant, and the server may also be connected to a plurality of online take-out platforms and acquire the take-out order generated on each take-out platform, so the order information at least includes a category and a running water identifier of the take-out order. The categories can be used for characterizing source categories, namely, online take-out platforms to which take-out orders belong, and when different online take-out platforms generate the same running water identification, the take-out orders with the same running water identification can be distinguished through the categories. The running water identifier, i.e. the task identifier, is used to uniquely characterize a task to be processed on the resource provider side within a predetermined period of time (e.g. a plurality of hours, a day, a week, etc.), and may specifically be a serial number of a take-out order under a corresponding category (i.e. an online take-out platform to which the take-out order belongs).

Alternatively, the pipeline identifier may be generated according to a reception time at which the resource provider receives the task to be processed. For example, on day 25 of 9 months, the first task to be processed received by the resource provider P1 is task M1, and the pipeline identifier of task M1 may be 1; alternatively, the resource provider P1 is 11 on 25 days 9 months: the task to be processed received by 00 is task M2, and the pipeline identifier of task M2 may include 09251100 (i.e., a combination of the receiving date and the receiving time).

It is readily understood that where a user can only place a take-out order at a predetermined merchant via an online take-out platform, the category may be used to characterize whether the take-out order requires insulation, urgent dispatch, etc., and the running water identification may be a serial number in all take-out orders.

Step S402, selecting an electronic tag device with a task binding state being unbound to send task information.

In this embodiment, the electronic tag device is fixedly provided on the shelf on the merchant side. The task binding state is used for representing whether the electronic tag device is allocated order information of a take-out order, so that the task binding state of the electronic tag device can be updated to be bound every time the server allocates order information to any electronic tag device.

In an alternative implementation manner, the server may acquire a task binding state of at least one first type of electronic tag device, and determine, as the target electronic tag device, the first type of electronic tag device whose task binding state is unbound and closest to the first location in response to the presence of the task binding state of the at least one first type of electronic tag device being unbound, so as to send order information of the take-out order to the target electronic tag device. The first type of electronic tag devices are electronic tag devices located in the target object placing area.

In this embodiment, the merchant may receive take-out orders through take-out platforms on different lines, so in order to separate take-out orders from take-out platforms on different lines, to improve the uniformity of placing the meal, and make it easier for the merchant and the distribution personnel to find the position corresponding to the meal of each take-out order, so that it is easier to place the meal in the correct position, or take the meal from the correct position, the shelf of this embodiment may also be divided into a plurality of article placement areas, where the target article placement area is the article placement area corresponding to the category of the take-out order. In order to further improve the uniformity of placing the dinner products, the electronic tag device can be fixedly arranged on the goods shelf in a matrix mode. The server may pre-determine the location of each electronic label device on the shelf.

Fig. 5 is a schematic view of the location of an electronic tag device in the article placement area according to an embodiment of the present invention. As shown in fig. 5, a plurality of electronic tag devices 52 are fixedly provided in a matrix on the shelf 51 provided on the side of the merchant S1, that is, 9 electronic tag devices 52 are provided for each row of the shelf 51, and 4 electronic tag devices 52 are provided for each column. The server knows the location of each electronic label device 52 on the shelf 51, and determines, through the online take-out platforms for which a connection has been established, that the merchant S1 can receive take-out orders through the platform P1, the platform P2, and the platform P3, and that the number of take-out orders that the merchant S1 receives through the platform P1, the platform P2, and the platform P3 is approximately the same, so that the shelf 51 can be divided into three item placement areas, namely, an area 511, an area 512, and an area 513, with the area 511 being the item placement area corresponding to the platform P1, the area 512 being the item placement area corresponding to the platform P2, and the area 513 being the item placement area corresponding to the platform P3. It is to be readily understood that the number and the area division manner of the electronic tag device shown in fig. 5 are merely illustrative, and the article placement areas corresponding to each type may be determined by other manners, for example, the number of take-out orders received by the merchant through each online take-out platform is dynamically divided according to different periods, which is not limited in this embodiment.

In this embodiment, the first position may be any position within the target item placement area, alternatively, in order to allow the meal item of the take-out order received earliest by the merchant to be placed at the position closest to the center, the first position may be set to the center position farthest from the boundary line within the target item placement area.

Fig. 6 is a schematic diagram of a determining target electronic tag device according to an embodiment of the present invention. The article placement area shown in fig. 6 is an area 512 shown in fig. 5, and the dividing line L1 and the dividing line L2 are two dividing lines of the area 512. The position P1 is a center position farthest from both the boundary line L1 and the boundary line L2, that is, a first position. In determining the distance between each electronic tag device (i.e., the first type of electronic tag device) and the first location in the area 512, the server may first determine a row or column from the first location as a target row or column, and then determine, for the target row or column, the electronic tag device closest to the first location as the target electronic tag device.

When the task binding states of the electronic tag devices are all unbound, the server may first determine the column T1 closest to the position P1 as the target column, and then determine the electronic tag device closest to the position P1 in the column T1, that is, the electronic tag device 61 or the electronic tag device 62 as the target electronic tag device. When the task binding states of the electronic tag device 61 and the electronic tag device 62 are bound, the server may determine that the electronic tag device closest to the position P1 in the column T1, that is, the electronic tag device 63 or the electronic tag device 64 is the target electronic tag device. When the task binding states of the electronic tag devices 61 to 64 are all bound, the server may determine that the column closest to the P1 is the column in which the electronic tag device 65 is located or the column in which the electronic tag device 66 is located, and then determine that the electronic tag device 65 or the electronic tag device 66 is the target electronic tag device.

In another optional implementation manner, if the task binding states of the first type of electronic tag devices are all bound, the server may acquire the task binding state of at least one second type of electronic tag device, and determine the second type of electronic tag device, which is unbound and closest to the second location, as the target electronic tag device, so as to send order information of the take-out order to the target electronic tag device. The second type of electronic tag device is an electronic tag device located in a non-target object placing area.

In this embodiment, in order to place the same category of meal items as close as possible, the non-target item placement area generally refers to the item placement area closest to the target item placement area. Taking the article placement area shown in fig. 5 as an example, when the target article placement area is the area 511, the non-target article placement area is the area 512; when the target article placement area is the area 512, the non-target article placement area is the area 511 or the area 513.

In this embodiment, the second position may be any position within the non-target item placement area, alternatively, in order to place the same category of meal items as close as possible, the second position may be set to a center position within the non-target item placement area closest to the target item placement area.

Fig. 7 is another schematic diagram of a determining target electronic tag device according to an embodiment of the present invention. The target article placement area shown in fig. 6 is area 512, and the non-target article placement areas are area 511 and area 513. Both the position P2 and the position P3 are the closest center positions to the region 512, i.e., the second position. In determining the distance between each electronic tag device (i.e., the second type of electronic tag device) and the second location in the area 511 or 513, the server may first determine a row or column from the second location as a target row or column, and then determine, for the target row or column, the electronic tag device closest to the second location as the target electronic tag device.

When the task binding states of the electronic tag devices in the area 512 are all bound and the task binding states of the electronic tag devices 71-78 are all unbound, the server may first determine that the column closest to the position P2 (i.e., the column T2) is the target column, and then determine that the electronic tag device closest to the position P2 in the column T2, i.e., the electronic tag device 71 or the electronic tag device 72 is the target electronic tag device; alternatively, the column closest to the position P3 (i.e., the column T3) is first determined as the target column, and then the electronic tag device closest to the position P3 in the column T3, i.e., the electronic tag device 75 or the electronic tag device 76, is determined as the target electronic tag device. When the task binding states of the electronic tag device 71 and the electronic tag device 72 are bound, the server may determine that the electronic tag device closest to the position P1 in the column T2, that is, the electronic tag device 73 or the electronic tag device 74 is the target electronic tag device; alternatively, when the task binding states of the electronic tag device 75 and the electronic tag device 76 are bound, the server may determine that the electronic tag device closest to the position P3 in the column T3, that is, the electronic tag device 77 or the electronic tag device 78 is the target electronic tag device.

It is to be understood that, in this embodiment, the target electronic tag device may also be determined by other manners, and this embodiment is not particularly limited.

Step S403, updating the task binding state of the electronic tag device to bound.

The server may update the task binding state of the selected electronic tag device to bound while or after sending the task information to the electronic tag device, so as to avoid a situation of repeated allocation (i.e., allocation of order information of a plurality of take-out orders to the same electronic tag device at the same time) when order information of other take-out orders is subsequently allocated.

That is, step S402 and step S403 may be performed simultaneously or sequentially, and the embodiment is not limited specifically.

Step S404, task information of a target task is received.

In this embodiment, the target task refers to a take-out order corresponding to order information to which the electronic tag device is assigned. The control section of the electronic tag device may receive order information of the take-out order through the communication section.

Step S405, controlling the display part to display the category and the running water identification of the target task according to the task information.

In this embodiment, the display unit of the electronic tag device may have at least two display areas, including a category display area and a running water identifier display area, where the category display area may be used to display a category of the take-out order, and the running water identifier display area may be used to display a running water identifier of the take-out order.

Alternatively, a plurality of different category icons may be preset in the category display area. The control part can control the display part to lighten the category icon corresponding to the category according to the category in the order information after receiving the order information, and simultaneously extinguish other category icons; or the control display part extinguishes the category icons corresponding to the category, and simultaneously lights other category icons, so that the category of the takeaway order is easier to view in an icon display mode. In this embodiment, the category icons may be patterns such as a platform identifier, a merchant identifier, a category identifier, or may be numbers, letters, characters, or a combination of at least two of numbers, letters, and characters, or may be characters, or the like, and this embodiment is not limited specifically.

Optionally, the control component may further control the display component to display the running water identification of the take-out order in different ways to distinguish the category of the take-out order, the different ways may include different colors and/or different letters and/or different numbers and/or combinations of the above, etc., to distinguish the running water identification in a plurality of ways to make the category of the take-out order easier to view.

Optionally, the control unit may also combine the two modes, that is, control the display unit to light the category icon corresponding to the category of the take-out order, and control the display unit to display the running water identifier of the take-out order with the color corresponding to the category of the take-out order, so that the category of the take-out order is easier to be checked through icon display and color distinction.

Fig. 8 is an interface schematic diagram of an electronic tag device according to an embodiment of the present invention. As shown in fig. 8, the display part of the electronic tag device includes a display area 81 and a display area 82, wherein the display area 81 is a category display area, and the display area 82 is a flowing water identification display area. The category display area comprises three category icons, namely a category icon A, a category icon B and a category icon C. After receiving the order information of the take-out order through the communication part, the control part controls the display part to lighten the corresponding category icon (namely, the category icon A) according to the category in the order information, controls the display part to extinguish other category icons (namely, the category icon B and the category icon C), and simultaneously controls the display part to display the running water identification of the take-out order, namely, 25.

Fig. 9 is a flowchart of a task processing method on the electronic tag control device side according to the first embodiment of the present invention. As shown in fig. 9, in the present embodiment, the electronic tag control device may execute the steps of:

step S404, task information of a target task is received.

Step S405, controlling the display part to display the category and the running water identification of the target task according to the task information.

Fig. 10 is a flowchart of a task processing method of the first embodiment of the present invention on the server side (i.e., a task information distribution method). As shown in fig. 10, in the present embodiment, the server may perform the steps of:

Step S401, task information of at least one task to be processed is obtained.

Step S402, selecting an electronic tag device with a task binding state being unbound to send task information.

Step S403, updating the task binding state of the electronic tag device to bound.

The task processing system of the embodiment comprises an electronic tag device and a server, wherein the server is used for executing a task information distribution method, namely, acquiring task information of at least one task to be processed, selecting an electronic tag device with a task binding state being unbound to send the task information, and the electronic tag device is used for receiving the task information of a target task and displaying the category and the running water identification of the target task according to the task information. By the task processing system, task information of the tasks to be processed can be automatically distributed, task information of different types of tasks to be processed is displayed through the electronic tag device, time consumed by a merchant or a distribution person for determining a corresponding position when placing food is reduced, and accuracy of meal delivery time of take-out orders is improved.

Fig. 11 is a flowchart of a task processing method according to a second embodiment of the present invention. As shown in fig. 11, the method of the present embodiment may include the steps of:

Step S1101, obtaining task information of at least one task to be processed.

In this embodiment, the implementation of step S1101 is similar to that of step S401, and will not be described herein.

In step S1102, an electronic tag device with an unbound task binding state is selected to send task information.

In this embodiment, the implementation manner of step S1102 is similar to that of step S402, and will not be described herein.

Step S1103, update the task binding status of the electronic tag device to bound.

In this embodiment, the implementation manner of step S1103 is similar to the implementation manner of step S403, and will not be described herein.

It is to be understood that step S1102 and step S1103 may be performed simultaneously or sequentially, and the embodiment is not limited specifically.

Step S1104, receiving task information of a target task.

In this embodiment, the implementation manner of step S1104 is similar to that of step S404, and will not be described here again.

Step S1105, controlling the display part to display the category and the running water identification of the target task according to the task information.

In this embodiment, the implementation of step S1105 is similar to the implementation of step S405, and will not be described here again.

In step S1106, a position detection signal is acquired.

In the present embodiment, the electronic tag device may further include a detection section, and the control section may control the detection section to acquire the position detection signal of the corresponding position of the electronic tag device (for example, within the detection range of the detection section) at a predetermined period. The predetermined period may be set according to actual demands, for example, to 1 second, 0.5 second, or the like.

Step S1107, determining the article placement state of the corresponding position according to the position detection signal.

In the present embodiment, the control section may determine the article placement state of the corresponding position based on the position detection signal after the position detection signal is acquired by the detection section. The article placement states may include a first state to indicate no article placement at the corresponding location and a second state to indicate article placement.

Step S1108, the display section is controlled to display the placement state display area in different manners according to the article placement state.

Optionally, the electronic tag device may not be disposed on the shelf, so when the electronic tag device is disposed on the shelf, the display unit of the electronic tag device may further include a placement status display area to better show whether an article is placed at a corresponding position of each electronic tag device. The control section may control the display section to display the placement state display area in different manners according to the article placement state of the corresponding position after determining the article placement state of the corresponding position. Similarly, the different ways may comprise different colors and/or different letters and/or different numbers and/or combinations of the above.

For example, the control section may indicate that the article placement state of the corresponding position of the electronic tag device is article-placed (i.e., the second state) by controlling the placement state display area to be green-lit, and indicate that the article placement state of the corresponding position of the electronic tag device is article-free (i.e., the first state) by controlling the placement state display area to be red-lit.

For another example, the control part may highlight the article placement state representing the corresponding position of the electronic tag device as having article placement by controlling the placement state display area, and extinguish the article placement state representing the corresponding position of the electronic tag device as having no article placement by controlling the placement state display area.

For another example, the control unit may control the placement state display area to display the article placement state of the corresponding position of the text representing the electronic tag device with "placed article" as having article placement, and control the placement state display area to display the article placement state of the corresponding position of the text representing the electronic tag device with "not placed article" as having no article placement.

In step S1109, binding state update information is transmitted in response to the article placement state being converted from the second state to the first state.

When the article placing state is converted from the second state to the first state, the control part can send binding state updating information to the server to update the task binding state of the corresponding electronic tag device to unbound state.

In step S1110, in response to receiving the binding state update information, the task binding state of the corresponding electronic tag device is updated from bound to unbound.

After receiving the binding state updating information sent by the electronic tag device, the server can update the task binding state of the corresponding electronic tag device from bound to unbound. Therefore, after the server acquires the order information of the take-out order, the server can send the order information to the electronic tag device.

The schematic diagram shown in fig. 6 is taken as an example for illustration. The task binding states of the electronic tag device 61, the electronic tag device 62, and the electronic tag device 63 are all bound. After the distribution personnel take away the food placed at the corresponding position of the electronic tag device 62, the control part of the electronic tag device 62 may determine, according to the position detection signal, that the article placement state is changed from the second state to the first state, and send binding state update information to the server. After receiving the binding status update information sent by the electronic tag device 62, if order information of at least one take-out order is obtained, the server may assign the obtained order information of the first take-out order (i.e., the running water identifier ranked at the smallest first position in the obtained at least one take-out order) to the electronic tag device 62.

Step S1111, in response to the article placement state transitioning from the second state to the first state, the first state update information is transmitted.

When the article placing state is changed from the second state to the first state, the food placed at the corresponding position is taken away, and the takeout order is in a distributed state, so that the control component can also send first state updating information to the server to update the order processing state of the takeout order to be completed. Wherein the completed take-away order is in a dispensed state.

It is to be understood that, in the present embodiment, the control unit may perform only step S1108, may perform only step S1110, and may perform both step S1108 and step S1110. And step S1108 and step S1110 may be performed simultaneously or sequentially, which is not limited in this embodiment.

In step S1112, in response to receiving the first status update information, the task processing status of the corresponding task to be processed is updated to completed.

After receiving the first status update information sent by the electronic tag device, the server can update the order processing status of the corresponding takeout order to be completed so as to automatically update the order processing status of the takeout order.

Step S1113, in response to the article placement state transitioning from the first state to the second state, transmits second state update information.

When the article placement state is changed from the first state to the second state, the condition that the food is placed at the corresponding position is indicated, and the takeout order is in the meal-out state, so that the control component can send second state updating information to the server to update the order processing state of the takeout order into processing. Wherein the process is used to characterize the take-away order in a meal out state.

In step S1114, in response to receiving the second status update information, the task processing status of the corresponding task to be processed is updated as being processed.

After receiving the second status updating information sent by the electronic tag device, the server can update the order processing status of the corresponding takeout order in process so as to automatically update the order processing status of the takeout order.

Step S1115, in response to receiving the second status update information, transmits the processing status update information to the corresponding task processing terminal.

After receiving the second status updating information sent by the electronic tag device, the server can also send the processing status updating information to the task processing terminal corresponding to the take-out order, so that the delivery personnel can take away the meal at a proper time without waiting in advance, and the possibility that the delivery personnel gets the meal too late due to the fact that the delivery personnel cannot acquire the meal of the take-out order is avoided.

Step S1116, record the item configuration duration.

In this embodiment, the item configuration time period is used to characterize a time period from receiving task receiving information for a task to be processed to receiving second state update information. Specifically, the server may record the item configuration duration of each take-out order according to the running water identification of each take-out order.

It is to be readily understood that in the present embodiment, the control section may perform only step S1114 or only step S1115 or only step S1116, and may perform any two or all of step S1114, step S1115, and step S1116. And steps S1114 to S1116 may be performed simultaneously or sequentially, which is not limited in this embodiment.

Fig. 12 is a flowchart of a task processing method on the electronic tag device side according to the second embodiment of the present invention. As shown in fig. 12, in the present embodiment, the electronic tag device may perform the steps of:

step S1104, receiving task information of a target task.

Step S1105, controlling the display part to display the category and the running water identification of the target task according to the task information.

In step S1106, a position detection signal is acquired.

Step S1107, determining the article placement state of the corresponding position according to the position detection signal.

Step S1108, the display section is controlled to display the placement state display area in different manners according to the article placement state.

In step S1109, binding state update information is transmitted in response to the article placement state being converted from the second state to the first state.

Step S1111, in response to the article placement state transitioning from the second state to the first state, the first state update information is transmitted.

Step S1113, in response to the article placement state transitioning from the first state to the second state, transmits second state update information.

Fig. 13 is a flowchart of a task processing method at the server side (i.e., a task information distribution method) according to the second embodiment of the present invention. As shown in fig. 13, in the present embodiment, the server may perform the steps of:

step S1101, obtaining task information of at least one task to be processed.

In step S1102, an electronic tag device with an unbound task binding state is selected to send task information.

Step S1103, update the task binding status of the electronic tag device to bound.

In step S1110, in response to receiving the binding state update information, the task binding state of the corresponding electronic tag device is updated from bound to unbound.

In step S1112, in response to receiving the first status update information, the task processing status of the corresponding task to be processed is updated to completed.

In step S1114, in response to receiving the second status update information, the task processing status of the corresponding task to be processed is updated as being processed.

Step S1115, in response to receiving the second status update information, transmits the processing status update information to the corresponding task processing terminal.

Step S1116, record the item configuration duration.

The task processing system of the embodiment comprises an electronic tag device and a server, wherein the server is used for executing a task information distribution method, namely acquiring task information of at least one task to be processed, selecting an electronic tag device with an unbound task binding state to send the task information, the electronic tag device is used for receiving the task information of a target task, displaying the category and the running water identification of the target task according to the task information, and meanwhile, the electronic tag device acquires a position detection signal and determines the change of the article placement state according to the change of the position detection signal, so that different information is sent to the server according to the change of the article placement state to change at least one of the task processing state of the task to be processed and the task binding state of the electronic tag device. According to the task processing system, task information of the tasks to be processed can be automatically distributed, task information of different types of tasks to be processed is displayed through the electronic tag device, time consumed by a merchant or a distribution person for determining corresponding positions when food is placed is reduced, accuracy of meal delivery time of a take-out order is improved, meanwhile, task processing states of the tasks to be processed can be automatically updated through interaction of the electronic tag device and the server, labor cost for updating the task processing states is reduced, and timeliness, accuracy and flexibility of updating the task processing states are improved.

Fig. 14 is a schematic diagram of a task information distribution device according to an embodiment of the present invention. The task information distribution device of the present embodiment is suitable for servers. As shown in fig. 14, the apparatus of the present embodiment includes a task information acquisition unit 1401 and a task information transmission unit 1402.

The task information obtaining unit 1401 is configured to obtain task information of at least one task to be processed, where the task information includes a class of the task to be processed and a running water identifier, and the running water identifier is used to characterize a serial number of the target task. The task information sending unit 1402 is configured to select an electronic tag device whose task binding state is unbound to send the task information.

After acquiring task information of at least one task to be processed, the server of the embodiment selects an electronic tag device with a task binding state being unbound to send the task information. The device of the embodiment enables the server to automatically distribute the task information of the tasks to be processed so as to display the task information of different types of tasks to be processed through the electronic tag device later, so that the time consumed by a merchant or a distribution person for determining the corresponding position when placing the food is reduced, and the accuracy of the meal outlet time of the take-out order is improved.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, and various modifications and variations may be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (20)

1. A method for distributing task information, which is applicable to a server, and is characterized in that the method comprises the following steps:

acquiring task information of at least one task to be processed, wherein the task information comprises a category of the task to be processed and a running water identifier, the category is a source category of the task to be processed, the source category is used for representing an online take-out platform corresponding to the task to be processed, and the running water identifier is used for representing a serial number of the task to be processed under the corresponding category;

selecting an electronic tag device with a task binding state being unbound from a target object placing area to send the task information, wherein the target object placing area is an object placing area corresponding to the category of the task to be processed;

the step of selecting the electronic tag device with the unbound task binding state from the target object placing area to send the task information includes:

Acquiring task binding states of at least one first type of electronic tag device, wherein the first type of electronic tag device is an electronic tag device positioned in the target object placement area;

in response to the task binding state of at least one first type of electronic tag device being unbound, determining the first type of electronic tag device with the task binding state being unbound and closest to a first position as a target electronic tag device, wherein the first position is a center position farthest from a boundary line in the target object placement area;

and sending the task information to the target electronic tag device.

2. The method according to claim 1, wherein the method further comprises:

and updating the task binding state of the electronic tag device to be bound.

3. The method according to claim 1, wherein the method further comprises:

responding to the task binding states of all the first type of electronic tag devices to be bound, and acquiring the task binding states of at least one second type of electronic tag device, wherein the second type of electronic tag device is an electronic tag device positioned in a non-target object placing area;

Determining a second type of electronic tag device which is unbound and closest to a second position as a target electronic tag device, wherein the second position is a center position closest to a target object placing area in a non-target object placing area;

and sending the task information to the target electronic tag device.

4. The method according to claim 1 or 2, characterized in that the method further comprises:

and in response to receiving the binding state updating information sent by the electronic tag device, updating the task binding state of the corresponding electronic tag device from bound to unbound.

5. The method according to any one of claims 1 or 2, further comprising:

and in response to receiving the first state updating information sent by the electronic tag device, updating the task processing state of the corresponding task to be processed to be completed.

6. The method according to any one of claims 1 or 2, further comprising:

and in response to receiving the second state updating information sent by the electronic tag device, updating the task processing state of the corresponding task to be processed into processing.

7. The method of claim 6, wherein the method further comprises:

and recording an article configuration time length, wherein the article configuration time length is used for representing a time length from receiving task receiving information aiming at a task to be processed to receiving the second state updating information.

8. The method of claim 7, wherein the method further comprises:

and in response to receiving the second state updating information, sending processing state updating information to a corresponding task processing terminal so as to update the task processing state of the corresponding task to be processed into processing.

9. A task information distribution device adapted to a server, the device comprising:

the system comprises a task information acquisition unit, a processing unit and a processing unit, wherein the task information acquisition unit is used for acquiring task information of at least one task to be processed, the task information comprises a category of the task to be processed and a running water identifier, the category is a source category of the task to be processed, the source category is used for representing an online take-out platform corresponding to the task to be processed, and the running water identifier is used for representing a serial number of the task to be processed under the corresponding category;

a task information sending unit, configured to select, from a target object placement area, an electronic tag device whose task binding state is unbound, to send the task information, where the target object placement area is an object placement area corresponding to a class of the task to be processed, and the selecting, from the target object placement area, the electronic tag device whose task binding state is unbound, to send the task information includes: acquiring task binding states of at least one first type of electronic tag device, wherein the first type of electronic tag device is an electronic tag device located in the target article placing area, determining the first type of electronic tag device which is unbound and closest to a first position as a target electronic tag device in response to the fact that the task binding states of at least one first type of electronic tag device are unbound, and sending task information to the target electronic tag device, and the first position is a center position farthest from a boundary line in the target article placing area.

10. A computer readable storage medium, on which computer program instructions are stored, which computer program instructions, when executed by a processor, implement the method of any of claims 1-8.

11. An electronic device comprising a memory and a processor, wherein the memory is configured to store one or more computer program instructions, wherein the one or more computer program instructions are executed by the processor to implement the method of any of claims 1-8.

12. A task processing system, the system comprising:

the electronic tag device is used for receiving task information of a target task, displaying a category of the target task and a running water identifier according to the task information, wherein the category is a source category of the target task, the source category is used for representing an online take-out platform corresponding to the target task, and the running water identifier is used for representing a serial number of the target task under the corresponding category; and

the method comprises the steps of obtaining task information of at least one task to be processed, selecting an electronic tag device with an unbound task binding state from a target object placement area to send the task information, wherein the target object placement area is an object placement area corresponding to a category of the task to be processed, and the selecting the electronic tag device with the unbound task binding state from the target object placement area to send the task information comprises the following steps: acquiring task binding states of at least one first type of electronic tag device, wherein the first type of electronic tag device is an electronic tag device located in the target article placing area, determining the first type of electronic tag device which is unbound and closest to a first position as a target electronic tag device in response to the fact that the task binding states of at least one first type of electronic tag device are unbound, and sending task information to the target electronic tag device, and the first position is a center position farthest from a boundary line in the target article placing area.

13. The system of claim 12, wherein the electronic label device comprises:

a display section;

a communication section configured to receive task information of a target task; and

and a control part configured to control the display part to display the category and the running water identification of the target task according to the task information.

14. The system of claim 13, wherein the display component comprises a category display area and a flowing water identification display area;

the control component is configured to:

and controlling a display part to display the category of the target task in the category display area according to the task information.

15. The system of claim 14, wherein the category display area includes a plurality of different category icons, the control component configured to control a category icon corresponding to a category of the target task to be turned on or off according to the task information.

16. The system of claim 14, wherein the control component is configured to control a display component to display the running water identification differently to distinguish a category of the target task based on the task information.

17. The system of claim 13, wherein the electronic label device further comprises a detection component configured to obtain a position detection signal;

The control component is configured to:

and determining the article placement state of the corresponding position according to the position detection signal, wherein the article placement state comprises a first state and a second state, the first state is used for representing that no article is placed at the corresponding position, and the second state is used for representing that the article is placed at the corresponding position.

18. The system of claim 17, wherein the display component comprises a placement state display area;

the control component is configured to:

and controlling a display part to display the placement state display areas in different modes according to the placement state of the article.

19. The system of claim 17, wherein the control component is configured to: responding to the article placement state converted from the second state to the first state, and sending binding state updating information to a server so as to update the task binding state of the corresponding electronic tag device to unbound state; and/or

And in response to the article placement state being converted from the second state to the first state, sending first state update information to a server to update the task processing state of the target task to completed.

20. The system of claim 17, wherein the control component is configured to:

And in response to the article placement state being converted from the first state to the second state, sending second state update information to a server to update the task processing state of the target task into processing.