CN111258517B - Signboard system, front-end node and control node - Google Patents

Abstract

The utility model provides a billboard system, front end node and control node, relate to billboard technical field, in the billboard system, after the target label is discerned by the detection terminal point, obtain detection information, send this detection information to control node, and then by control node according to the target identification that is used for the sign target label that detects that contains in the information, confirm the target configuration task in the task cluster of configuration in advance, and further when confirming that the first terminal point sign in the detection information matches with the terminal point sign that the task node of target configuration task distributes in advance, confirm the current task node in the target configuration task, and send first control information to the display terminal point, so that the display terminal point shows this current task node in first region. According to the embodiment of the application, when the task progress is displayed, the manpower cost input can be reduced and the task execution efficiency is improved when the display area with larger requirements is displayed by the signboard system.

Description

Signboard system, front-end node and control node

Technical Field

The application relates to the field of signage technology, in particular to a signage system, a front end node and a control node.

Background

The billboard method is applied to the development flow of high-efficiency management software, and in the lean production system and agile project management, the billboard hung on the wall or the virtual billboard which is project management software is generally adopted for realizing, so that the billboard can enable the whole team to know the current state of the project, and can forcefully promote the members to work spontaneously, powerfully and cooperatively. For example, for a research and development team implementing agile development, communication measures in the project advancing process such as a release plan meeting, an iteration plan meeting, a daily regular meeting and the like all need the assistance of a billboard.

Disclosure of Invention

In view of the foregoing, an object of an embodiment of the present application is to provide a billboard system, a front-end node and a control node, which can improve efficiency of task execution.

According to one aspect of the application, there is provided a signage system comprising a front end node and a control node, the front end node comprising a display endpoint and a plurality of detection endpoints, the display endpoint and each of the detection endpoints establishing communication with the control node;

the detection endpoint is used for identifying a target label, obtaining detection information and sending the detection information to the control node, wherein the detection information comprises a first endpoint identifier and a target identifier, the first endpoint identifier is used for identifying the detection endpoint, and the target identifier is used for identifying the target label;

The control node is used for determining a target configuration task in a task cluster according to the detection information, wherein the task cluster comprises at least one configuration task, the target configuration task is a configuration task corresponding to the target identifier in the task cluster, and the target configuration task comprises at least one task node corresponding to the endpoint identifier;

the control node is further configured to determine a current task node and send first control information to the display endpoint when the first endpoint identifier is matched with the endpoint identifier, where the current task node belongs to the at least one task node corresponding to the endpoint identifier, and the first control information includes the current task node;

the display endpoint is configured to display the current task node in a first area according to the first control information, where the first area is an area in the display endpoint for identifying the current task node.

In some embodiments, the target configuration task further comprises processing order information for each of the task nodes;

the control node is further configured to obtain, when the first endpoint identifier matches the endpoint identifier, at least one downstream task node of the current task node according to the processing sequence information and the current task node;

The control node is further configured to send second control information to the display endpoint, where the first control information includes the at least one downstream node;

the display endpoint is further configured to display the at least one downstream task node in a second area according to the second control information, where the second area is an area in the display endpoint used for identifying the at least one downstream task node.

In some embodiments, the target configuration task further comprises processing order information for each of the task nodes;

the control node is further configured to obtain, when the first endpoint identifier matches the endpoint identifier, at least one upstream task node of the current task node according to the processing sequence information and the current task node;

the control node is further configured to send third control information to the display endpoint, where the third control information includes the at least one upstream node;

the display endpoint is further configured to display the at least one upstream task node in a third area according to the third control information, where the third area is an area in the display endpoint used for identifying the at least one upstream task node.

In some embodiments, the control node, prior to sending the first control information to the display endpoint,

the control node is further configured to monitor current state information of the target configuration task, where the current state information includes first state information and second state information, the first state information indicates that a preset task node in the target configuration task is marked, the second state information indicates that the preset task node in the target configuration task is not marked, and the preset task node is an upstream node of the current task node;

the control node is specifically configured to send the first control information to the display endpoint when the current state information is the first state information.

In some embodiments, the control node is further specifically configured to send the first control information to the display endpoint when the current state information is the second state information and the current task node is determined to be the preset task node, and record that the current state information is the first state information.

In some embodiments, the control node is further specifically configured to control, when the control node determines that the current task node is the preset task node, to maintain an awake state for a detection endpoint corresponding to each task node of the target configuration task in advance.

In some embodiments, the control node, prior to sending the first of the control information to the display endpoint,

the control node is further configured to monitor node status information of the target configuration task, where the node status information characterizes all task nodes marked in the target configuration task;

the control node is further specifically configured to send first control information to the display endpoint when a previous task node of the current task node is marked, and mark the current task node.

In some embodiments, when a previous task node of the current task node is not marked, the control node is further configured to send fourth control information to the display endpoint;

the display endpoint is further configured to display error information according to the fourth control information, where the error information indicates that a last task node of the current task node is not marked.

In some embodiments, the billboard system is provided with a first connection node, a plurality of the billboard systems being connected by the first connection node.

In some embodiments, the signage system is further provided with a second connection node;

A plurality of the billboard systems are connected in a first direction by the first connection node and a plurality of the billboard systems are connected in a second direction by the second connection node.

In some embodiments, a plurality of said billboard systems are preconfigured with the same task node at the same column of detection endpoints when connected by said second connection node in the second direction.

In some embodiments, the billboard system is provided with a power node for powering the control node, the display endpoint, and the plurality of detection endpoints;

and after the plurality of signboard systems are connected, the plurality of power supply nodes are electrically connected.

In some embodiments, the front-end node further comprises a voice endpoint that establishes communication with the control node;

when the first endpoint identifier is matched with the endpoint identifier, the control node is further configured to send fifth control information to the voice endpoint;

the voice endpoint is configured to send out first voice information according to the fifth control information, where the first voice information characterizes that the first endpoint identifier is successfully matched with the endpoint identifier.

In some embodiments, the signage system further comprises a network node, the control node establishing communication with the network node;

the control node is further configured to send the detection information to the network node before sending the first control information to the display endpoint;

the network node is used for determining the target configuration task in the task cluster;

the network node is further configured to determine the current task node and send first identification information to the display endpoint when the first endpoint identifier matches the endpoint identifier;

the control node is specifically configured to send first control information to the display endpoint according to the first identification information.

In some embodiments, the network node is further configured to, when determining the current task node, mark the current task node in a preset database, where the preset database is pre-recorded with all configuration tasks in the task cluster.

According to another aspect of the present application, there is provided a front-end node comprising a detection endpoint and a display endpoint, both of which establish communication with a control node;

The detection endpoint is used for identifying a target label, obtaining detection information and sending the detection information to the control node, so that the control node determines a current task node according to the detection information and sends first control information to the display endpoint, wherein the detection information comprises a first endpoint identifier and a target identifier, the first endpoint identifier is used for identifying the detection endpoint, the target identifier is used for identifying the target label, the current task node belongs to a target configuration task, the target configuration task comprises at least one task node corresponding to the endpoint identifier, the current task node belongs to at least one task node corresponding to the endpoint identifier, and the first control information comprises the current task node;

the display endpoint is configured to display the current task node in a first area according to the first control information, where the first area is an area in the display endpoint for identifying the current task node.

In some embodiments, the front-end node further comprises a voice endpoint that establishes communication with the control node;

The voice endpoint is configured to send first voice information according to fifth control information sent by the control node, where the first voice information characterizes that the first endpoint identifier is successfully matched with the endpoint identifier.

In some embodiments, the control node establishes communication with both a display endpoint and a plurality of detection endpoints;

the control node is configured to receive detection information, where the detection information includes a first endpoint identifier and a target identifier, the first endpoint identifier is used to identify a detection endpoint, and the target identifier is used to identify a target tag;

the control node is further configured to determine a target configuration task in a task cluster according to the detection information, where the task cluster includes at least one configuration task, the target configuration task is a configuration task corresponding to the target identifier in the task cluster, and the target configuration task includes at least one task node corresponding to an endpoint identifier;

the control node is further configured to determine a current task node when the first endpoint identifier matches with the endpoint identifier, and send first control information to the display endpoint, so that the display endpoint displays the current task node in a first area according to the first control information, where the current task node belongs to the at least one task node corresponding to the endpoint identifier, the first area is an area in the display endpoint for identifying the current task node, and the first control information includes the current task node.

In some embodiments, the control node also establishes communication with a voice endpoint;

the control node is further configured to send fifth control information to the voice endpoint, so that the voice endpoint sends first voice information according to the fifth control information, where the first voice information characterizes that the first endpoint identifier is successfully matched with the endpoint identifier.

In some embodiments, the control node also establishes communication with a network node;

the control node is further configured to send the detection information to the network node before sending first control information to the display endpoint, so that the network node determines the current task node according to the detection information and feeds back first identification information to the control node;

the control node is specifically configured to send first control information to the display endpoint according to the first identification information.

Based on any one of the above aspects, in the signboard system, the front end node and the control node provided by the present application, after the detection endpoint identifies the target label, the detection information is sent to the control node, and then the control node determines the target configuration task in the pre-configured task cluster according to the target identifier for identifying the target label included in the detection information, and further determines the current task node in the target configuration task when determining that the first endpoint identifier in the detection information matches with the endpoint identifier allocated to the task node of the target configuration task in advance, and sends the first control information to the display endpoint, so that the display endpoint displays the current task node in the first area.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered limiting the scope, and that other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 shows a schematic block diagram of a signage system provided in an embodiment of the present application;

FIG. 2 is a schematic diagram of interactions between a front-end node and a control node;

FIG. 3 is a schematic diagram showing a display area of an endpoint;

FIG. 4 is another interactive schematic diagram of a front-end node and a control node;

FIG. 5 is another interactive schematic diagram of a front-end node and a control node;

FIG. 6 is another schematic diagram of a display area of a display terminal;

FIG. 7 is another interactive schematic diagram of a front-end node and a control node;

FIG. 8 is another interactive schematic diagram of a front-end node and a control node;

FIG. 9 is another interactive schematic diagram of a front-end node and a control node;

FIG. 10 is another interactive schematic diagram of a front-end node and a control node;

FIG. 11 is an expanded schematic view of two billboard systems in the lateral direction;

FIG. 12 is a longitudinally expanded schematic view of a multiple sign system;

FIG. 13 is another schematic diagram of interactions of a front-end node with a control node;

FIG. 14 is a schematic diagram of interactions between a control node and a front end node and a network node;

fig. 15 shows a schematic diagram of a possible structure of a billboard system according to an embodiment of the application.

In the figure: 10-a billboard system; 100-control nodes; 200-front end nodes; 210-detecting an endpoint; 220-display endpoint; 231-a first male port; 232-a first female port; 241-a second male port; 242-second female port; 250-power supply node; 260-voice endpoint; 300-network node.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it should be understood that the accompanying drawings in the present application are only for the purpose of illustration and description, and are not intended to limit the protection scope of the present application. In addition, it should be understood that the schematic drawings are not drawn to scale. A flowchart, as used in this application, illustrates operations implemented according to some embodiments of the present application. It should be understood that the operations of the flow diagrams may be implemented out of order and that steps without logical context may be performed in reverse order or concurrently. Moreover, one or more other operations may be added to the flow diagrams and one or more operations may be removed from the flow diagrams as directed by those skilled in the art.

In addition, the described embodiments are only some, but not all, of the embodiments of the present application. The components of the embodiments of the present application, which are generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present application, as provided in the accompanying drawings, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present application without making any inventive effort, are intended to be within the scope of the present application.

To enable one skilled in the art to use the present disclosure, the following embodiments are given by taking some possible application scenarios as examples, such as software development flows, systematic management of projects, etc. It will be apparent to those having ordinary skill in the art that the general principles defined herein may be applied to other embodiments and applications without departing from the spirit and scope of the present application. Although the present application is described primarily in terms of a software development flow, it should be understood that it is merely one exemplary embodiment. The present application may be applied to any other traffic type. For example, the present application may also be applied in other application scenarios, such as a process production flow, an experimental operation flow, etc., or any combination thereof.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures. Meanwhile, in the description of the present invention, the terms "first", "second", and the like are used only to distinguish the description, and are not to be construed as indicating or implying relative importance.

It is noted that in this application relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, the term "comprising" will be used in embodiments of the present application to indicate the presence of a feature or features stated hereinafter, but does not exclude the presence of other identical elements in a process, method, article or apparatus that comprises the described elements.

Prior to the presentation of the present application, the forms of signs have generally included paper cards or walls that were manually managed, as well as tool software managed products such as backlog (product backlog set) and virtual story walls. For the manual signs, a relatively large place is needed so as to facilitate the unfolding and the use of the signs, so that the manual signs have large requirements on the places and large manual workload; for the project management software, display screen assistance is required, such as a PC, a television and other devices, and the limitation of the visual distance of human eyes and the limitation of the size of the current display screen lead to the limitation of the unfolded area when the project management software is adopted for displaying.

For some application scenarios, for example, in a software development process, the number of people in a development team may be more, and if a manual signboard is adopted at this time, a larger site is required to be displayed, so that the requirement on site resources is larger, and the labor input cost is higher; if the project management software is adopted, a larger display screen is required for displaying due to the fact that the number of people is large, and the cost input of hardware equipment is high.

Based on the technical problems, the embodiment of the application provides a billboard system, a front end node and a control node, and the core improvement points thereof are as follows: after the detection endpoint identifies the target label, the detection information is sent to the control node, then the control node determines a target configuration task in a pre-configured task cluster according to a target identification for identifying the target label contained in the detection information, and further determines a current task node in the target configuration task when determining that a first endpoint identification in the detection information is matched with an endpoint identification allocated to the task node of the target configuration task in advance, and sends first control information to the display endpoint so that the display endpoint displays the current task node in a first area.

The technical solutions of the present application are described below by some possible implementations.

Referring to fig. 1, fig. 1 shows a schematic block diagram of a billboard system 10 according to an embodiment of the present application, in which the billboard system 10 includes a front-end node 200 and a control node 100, the front-end node 200 includes a display endpoint 220 and a plurality of detection endpoints 210, and the display endpoint 220 and each detection endpoint 210 are in communication with the control node 100.

The signage system 10 is configured with target tags that match the signage system 10 when used in some application scenarios, such as project software development flow management, or production process flow management. Taking software development flow management as an example, the billboard system 10 and the target tag are pre-configured with related information of the developed software project, for example, an RFID reader-writer with a model RC522 is selected as a detection endpoint 210 by utilizing a radio frequency identification (Radio Frequency Identification, abbreviated as RFID) technology, an entity card with a preset chip is adopted as the target tag, and configuration task information, for example, project numbers, project contents, card IDs, endpoint IDs, responsible person information, recording time points and the like, is written into the chip in the entity card by utilizing the RFID reader-writer, so that the billboard system 10 can recognize the task information of the software project configured by the target tag when the target tag is recognized.

Referring to fig. 2, fig. 2 is a schematic diagram illustrating interaction between a front-end node 200 and a control node 100. In an application scenario such as the software development process described above, when the sign system 10 is used to manage the development process, a user places a target tag on one of multiple detection endpoints 210 of the sign system 10, where the detection endpoint 210 identifies the target tag, obtains detection information, and sends the detection information to the control node 100, where the detection information obtained by the detection endpoint 210 includes a first endpoint identifier and a target identifier, the first endpoint identifier is used to identify the detection endpoint 210 that identifies the target tag, and the target identifier is used to identify the target tag.

For example, in the signage system 10 shown in FIG. 1, assume that the front-end node 200 is provided with a total of 7 detection endpoints A, B, C, D, E, F, G, and that the endpoints of each of the 7 detection endpoints are preconfigured with endpoint identifications 1-1, 1-2, 1-3, 1-4, 1-5, 1-6, 1-7, respectively; if the target mark written for the target tag in advance is IDcard1, when the user places the target tag at the detection endpoint C, the first endpoint mark is 1-3, and at this time, the detection information at least contains information of 1-3 and IDcard 1; if the target mark written in advance for the target tag is IDcard2, and when the user places the target tag at the detection endpoint F, the first detection mark is 1-6, and at this time, the detection information contains at least "1-6, IDcard2".

In the embodiment of the present application, the control node 100 may be an integrated circuit chip with signal processing capability for calculation and control. The control node 100 may be a general-purpose processor, including a central processing unit (Central Processing Unit, CPU), a network processor (Network Processor, NP), a voice processor, a video processor, etc.; but also digital signal processors, application specific integrated circuits, field programmable gate arrays or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components. The logic blocks disclosed in the embodiments of the present application may be implemented or executed. The general purpose processor may be a microprocessor or the control node 100 may be any conventional processor such as a PLC (Programmable Logic Controller ), a single chip microcomputer, etc.

The control node 100 is preconfigured with a task cluster, where the task cluster includes at least one configuration task, and a label identifier is associated with each configuration task in advance, and each detection endpoint corresponds to each configuration task, and each detection endpoint corresponds to a task node in the detection endpoints configured for each configuration task.

For example, two configuration tasks task1 and task2 are configured in the control node 100, and the association relationship between the two configuration tasks and the tag identifier and the correspondence between the detection endpoint and the task node may be in the form shown in the following table:

TABLE 1 task Cluster configuration schematic

Configuration tasks	Label identification	Detecting the corresponding relation between the endpoint and the task node
			task1	IDcard1	A-node 1; b-node 2; c-node 3; d-node 4;
task2	IDcard2	c-node 1; d-node 2; e-node 3; f-node 4

Thus, when obtaining the detection information sent by the detection endpoint 210, the control node 100 determines a target configuration task in the task cluster according to the obtained detection information. For example, in the application scenario shown in table 1, assuming that the detection information includes "1-3 and id card1", the control node 100 recognizes that the target configuration task currently operated by the user is task1 according to the detection information, and determines that when task1 is the target configuration task, the correspondence between the task node and the detection endpoint is: detecting an endpoint A-node 1; detecting an endpoint B-node 2; detecting an endpoint C-node 3; endpoint D-node 4 is detected.

In addition, according to the above detection information, the control node 100 further determines whether the first endpoint identifier matches with an endpoint identifier corresponding to a task node of the target configuration task, for example, in an application scenario where the detection information includes "1-3, IDcard1", when the target label "IDcard1" identifies that the target configuration task is task1, the control node 100 further determines that the detection endpoint corresponding to the target label includes: detection endpoint a, detection endpoint B, detection endpoint C, and detection endpoint D. Thus, the control node 100 determines, based on the first endpoint identification "1-3" included in the detection information, that the detection endpoint of the identification target tag belongs to the detection endpoint configured in advance for the target configuration task; in the target configuration task1, the current task node is node 3.

Thus, when the control node 100 determines that the first endpoint identifier matches with the endpoint identifier corresponding to the task node of the target configuration task, the control node 100 sends first control information to the display endpoint 220, where the first control information includes the current task node, for example, in the above application scenario, the first control information sent by the control node 100 to the display endpoint 220 includes that the current task node in the task1 is the node 3. Accordingly, when the display endpoint 220 obtains the first control information, the current task node is displayed in a first area according to the first control information, where the first area is an area of the display endpoint 220 used for representing the current task node.

For example, referring to fig. 3, fig. 3 is a schematic diagram showing a display area of the display endpoint 220, in the above application scenario, when a current task node including task1 in the first control information obtained by the display endpoint 220 is node 3, the display endpoint 220 displays the current node task in an area corresponding to the node 3 of task1, for example, the information "task1 node 3 is currently executed" shown in fig. 3, so as to represent that the task currently being executed by the user is task1, and the node being executed is node 3.

In addition, to highlight the node 3 as the task node currently being executed in the task1, some image features may be used to enhance, for example, color, line thickness, dynamic graphic display, etc., for example, the first area is highlighted in red, and a flashing alert is performed at preset time intervals, for example, flashing is performed every 10 s.

It should be noted that, the display endpoint 220 is configured to display information, and in this embodiment of the present application, the display endpoint 220 may be adapted according to the needs of the user. For example, in some application scenarios, when the number of people for which the demand is applicable is smaller, the display endpoint 220 may employ a device such as an LED display screen, while in other application scenarios, when the number of people for which the demand is applicable is larger, the display endpoint 220 may employ a device such as a projector for displaying in a larger area for a larger number of people.

Based on the above design, in the sign system 10 provided in the embodiment of the present application, after the detection endpoint 210 identifies the target label, the detection information is sent to the control node 100 after the detection information is obtained, and then the control node 100 determines the target configuration task in the pre-configured task cluster according to the target identifier for identifying the target label included in the detection information, and further determines the current task node in the target configuration task when determining that the first endpoint identifier in the detection information matches with the endpoint identifier allocated to the task node of the target configuration task in advance, and sends the first control information to the display endpoint 220, so that the display endpoint 220 displays the current task node in the first area.

In some application scenarios, in order to make personnel scheduling more flexible and make task execution flow smoother, when a current task node is executed, a user of a downstream task node needs to prepare in advance, so that after the current task node is completed, the downstream task node can directly start working without preparing again, and thus the completion time of a target configuration task is prolonged.

Therefore, optionally, in this embodiment of the present application, as a possible implementation manner, when the control node 100 determines, according to the detection information, a target configuration task in the task cluster, where the target configuration task further includes processing sequence information of each task node, for example, in an application scenario as shown in table 1, when the control node 100 determines that the target configuration task is task1, the task nodes of the target configuration task are sequentially: node 1→node 2→node 3→node 4.

Referring to fig. 4, fig. 4 is another interaction diagram of the front-end node 200 and the control node 100. At this time, when the control node 100 determines that the first endpoint identifier matches with the endpoint identifier corresponding to the task node of the target configuration task, at least one downstream node of the current task node in the target configuration task is acquired according to the processing order information included in the target configuration task and the current task node. For example, in the above application scenario, when it is determined that the target task is task1 and it is determined that the current task node is node 3, the downstream node is node 4; if the current task node determined by the control node 100 is the node 2 in the task1, the downstream node may be the node 3, or may be the node 3 and the node 4. That is, the at least one downstream node acquired by the control node 100 includes at least a downstream node adjacent to the current task node, for example, when the current task node is the node 2 in the task1, the downstream node includes at least the node 3.

In addition, in the embodiment of the present application, after obtaining at least one downstream node of the current task node, the control node 100 sends second control information to the display endpoint 220, where the second control information includes at least one downstream node obtained by the control node 100, for example, in the above application scenario, in the second control information sent by the control node 100 to the display endpoint 220, when the current task node is node 3 in task1 and at least one downstream node determined by the control node 100 is node 4, the second control information includes node 4 in task 1.

Accordingly, when the display endpoint 220 obtains the second control information, the at least one downstream node is displayed in a second area according to the second control information, where the second area is an area of the display endpoint 220 for identifying the at least one downstream task node, for example, please refer to fig. 3, and in the application scenario that the current task node is the node 3 in the task1, when the downstream node acquired by the control node 100 is the node 4 in the task1, the information displayed by the display endpoint 220 is "task1 node 4 will be executed", so as to characterize that the task being executed by the current user is task1, and the node to be executed is node 4, and the pre-allocated user for completing the task corresponding to the node 4 may be prepared in advance, so that after the node 3 is completed as the current task node, the user corresponding to the node 4 may directly execute the corresponding task, and avoid the preparation again, thereby avoiding the completion time of the target configuration task from being elongated.

It should be noted that, in some implementations of the embodiments of the present application, for example, in the application scenario that the salient node 3 is the task node currently being executed in the task1, the color is adopted to display the downstream task node by using some colors different from the colors of the current task node, for example, the first area corresponding to the node 3 is highlighted in red and blinks every 10s, which represents that the node 3 is the current task node, the second area corresponding to the node 4 serving as the downstream task node is displayed in yellow with medium brightness and blinks every 30s, or the second area corresponding to the node 4 is not blinked, which represents that the node 4 is the task node to be executed.

Based on the above design, in the billboard system 10 provided in this embodiment of the present application, after the control node 100 determines the target configuration task and the current node, at least one downstream task node of the current task node is obtained according to the processing sequence information of each task node included in the target configuration task, and the obtained at least one downstream task node is displayed through the display endpoint 220, so as to remind the user of the task node to be executed, so that after the current task node is executed, the downstream task node can be continuously executed, and further, the completion time of the target configuration task is prevented from being lengthened.

Accordingly, in some application scenarios, when a current task node is executed, generally, the task node upstream of the current task node belongs to a task node that is no longer executed or a task node that has already been executed.

Therefore, in order to better demonstrate the execution situation of the task flow, so as to assist the project personnel in improving the execution efficiency, in this embodiment of the present application, as a possible implementation manner, the control node 100 further obtains, according to the processing sequence information included in the target configuration task and the current task node, at least one upstream node of the current task node in the target configuration task when the control node 100 determines that the first endpoint identifier matches with the endpoint identifier corresponding to the task node of the target configuration task according to the processing sequence information of the target configuration task.

Referring to fig. 5, fig. 5 is another interaction diagram of the front-end node 200 and the control node 100. In the application scenario described above, for example, when it is determined that the target task is task1 and it is determined that the current task node is node 3, then the upstream node includes node 1 and node 2; if the control node 100 determines that the current task node is node 2 in task1, then the upstream node includes node 1.

In addition, in the embodiment of the present application, after obtaining at least one upstream node of the current task node, the control node 100 sends third control information to the display endpoint 220, where the third control information includes at least one upstream node obtained by the control node 100, for example, in the above application scenario, in the third control information sent by the control node 100 to the display endpoint 220, when the current task node is node 3 in task1 and at least one upstream node determined by the control node 100 is node 1 and node 2, the third control information includes node 1 and node 2 in task 1. Accordingly, when the display endpoint 220 obtains the third control information, the at least one upstream node is displayed in a third area according to the third control information, where the third area is an area of the display endpoint 220 for identifying the at least one upstream task node, for example, please refer to fig. 3 in combination, and in the application scenario where the current task node is the node 3 in the task1, when the upstream node obtained by the control node 100 is the node 1 and the node 2 of the task1, the information displayed by the display endpoint 220 in the third area is "task1 node 1 is completed" and "task1 node 2 is completed", which is used for characterizing that the task currently being executed by the user is task1, and the task nodes represented by the node 1 and the node 2 are no longer executed.

It should be noted that, in some application scenarios, such as a software development process, two consecutive task nodes may be directly executed by the same user, so that the user may ignore the moving target label; or in some other application scenarios, the software development flow steps are normally executed due to the user's own negligence, but the target labels are not moved correspondingly in the billboard system 10, so that when the billboard system 10 goes to identify the target labels, some task nodes in the task nodes upstream of the current task node are not displayed in the display endpoint 220. Therefore, in the embodiment of the present application, the task node upstream of the current task node may be all task nodes upstream of the current task node in the target matching task, for example, in the application scenario shown in fig. 3, where the current task node is node 3, then the upstream task node includes node 1 and node 2; it may also be that in the target matching task, all task nodes that have been completed upstream of the current task node, for example, in the schematic diagram shown in fig. 6, assuming that the target label is moved to the detection endpoint corresponding to the node 3 directly due to the detection endpoint corresponding to the node 1 in the target configuration task, when the current task node is the node 3, the upstream task node only includes the node 1, and other information, such as "task1 node 2 is not completed", may be displayed in the area corresponding to the node 2 at this time, so as to characterize that the user moves the target label from the detection endpoint corresponding to the node 1 directly to the detection endpoint corresponding to the node 3, and skips the detection endpoint corresponding to the node 2.

In some possible implementations of the embodiments of the present application, for example, in the application scenario that the above-mentioned salient node 3 is the task node currently being executed in the task1, the color is adopted to display the upstream task node in combination with the flashing light, for example, the first area corresponding to the node 3 is displayed with a red highlight and flashes every 10s, which represents that the node 3 is the current task node, the third areas corresponding to the node 1 and the node 2 as the upstream task node are displayed with a green medium brightness and flashes every 30s, or the third areas corresponding to the node 1 and the node 2 are not flashing, which represents that the node 1 and the node 2 are no longer being executed.

Although not every task node of all task nodes set for the target configuration task need be executed. However, in some application scenarios, some task nodes are important to the target configuration task, and if not completed, the subsequent tasks should not be executed, so that project personnel control the important nodes in the project task. For example, in the software development process, the feasibility of the software development project needs to be reviewed for the first time, if the task node is not executed or the task node does not pass, the subsequent task nodes should not execute.

Therefore, optionally, referring to fig. 7, fig. 7 is another schematic interaction diagram of the front end node 200 and the control node 100, in this embodiment, as a possible implementation manner, before the control node 100 sends the first control information to the display endpoint 220, the control node 100 needs to monitor the current state information of the target configuration task, where the current state information is used to indicate whether the preset task node in the target configuration task is completed, and the current state information includes the first state information and the second state information, the first state information indicates that the preset task node in the target configuration task is marked, that is, the preset task node is already completed, the preset task node is a task node that must be completed and is set by the user in the target configuration task, and the preset task node is an upstream node of the current task node, such as a task node for the task review in the software development project, and the second state information indicates that the preset task node in the target configuration task is not marked, that the preset task node is not marked, that is not completed.

Thus, for example, in the schematic diagrams shown in fig. 1 and fig. 6, it is assumed that in task1, a task node is preset as node 1, when the user places the target label on the detection endpoint C, if the current state information is the first state information, the token node 1 is marked, and node 1 is already completed, at this time, a task node corresponding to node 3 in the target configuration task may be executed, and at this time, the control node 100 further executes to send the first control information to the display endpoint 220; otherwise, if the current status information is the second status information, which indicates that the node 1 is not marked, the node 1 is not complete, and at this time, the downstream task node of the node 1 cannot be executed, and at this time, the control node 100 may control the display endpoint 220 to display preset error information or prompt information, for example, "xx task node is not complete, please return to execute xx task node.

Based on the above design, in the billboard system 10 provided in this embodiment of the present application, by setting the preset task node in the target configuration task, and monitoring whether the preset task node in the target configuration task is marked, and when the preset task node is marked, the control node 100 responds to the current task node to be executed, and further sends the first control information to the display endpoint 220, so that the execution of the target configuration task is normalized.

Also, in some application scenarios, since the preset task node is one of the nodes of the target configuration task, for example, in the application scenario shown in fig. 6, the node 1 is one of the nodes in the task1, and thus, one of possible reasons that the current state information is the second state information is: the current task node is the preset task node, so that the current state information is the second state information, which is a necessary event.

Therefore, referring to fig. 8, fig. 8 is another interaction diagram between the front end node 200 and the control node 100, in this embodiment, when the control node 100 monitors that the current status information is the second status information, the control node 100 further determines whether the current task node is a preset task node, if the control node 100 determines that the current task node is the preset task node, for example, in the above example, if the preset task node is node 1 and the current task node is also node 1, it indicates that the current status information is the second status information is a necessary event, because node 1 is the task node to be executed, and at this time, the control node 100 also sends the first control information to the display endpoint 220 and records that the current status information is the first status information; otherwise, if the control node 100 determines that the current task node is not the preset task node, for example, in the above application scenario, when the current task node is the node 2 or the node 3, the control node 100 performs an operation such as displaying the preset error information or the prompt information by the control display endpoint 220.

In some application scenarios, to meet the requirement of low power consumption, the detection endpoint 210 may adaptively adjust the operation state of the billboard system 10 according to the requirement of the usage scenario.

For example, optionally, in this embodiment of the present application, as a possible implementation manner, if any one of the target configuration tasks is not executed, the control node 100 will control the detection endpoint corresponding to each of the target configuration tasks to maintain the sleep state, so as to reduce the power consumption of the billboard system 10; when the control node 100 determines that the current task node is the preset task node, for example, in the above example, the preset task node is node 1, and the current task node is also node 1, the control node 100 further controls the detection endpoint corresponding to each task node of the target configuration task to maintain the awake state in advance, so as to characterize that the target configuration task is currently being executed, and it is required to maintain the awake state of the detection endpoint corresponding to each task node.

It should be noted that, in the embodiment of the present application, the detection endpoint keeps the sleep state, which means that the detection endpoint operates at a lower detection frequency than the wake state, and the detection endpoint does not operate, for example, the detection endpoint detects every 0.1s in the wake state, and then the detection endpoint may detect every 5s in the sleep state.

In the above application scenario, the billboard system 10 determines whether the task node downstream of the preset task node can be executed according to whether the preset task node is marked, that is, the subsequent task node can be discontinuously executed as long as the preset task node is marked.

However, in some application scenarios, each task node needs to be executed, and in the target configuration task, all task nodes must be executed according to a preset processing order.

Thus, optionally, referring to fig. 9, fig. 9 is another interaction schematic diagram of the front-end node 200 and the control node 100, in this embodiment, as a possible implementation manner, before the control node 100 sends the first control information to the display endpoint 220, the control node 100 further listens for node status information of the target configuration task, where the node status information characterizes all task nodes marked in the target configuration task, that is, all task nodes marked in the target configuration task are task nodes to be executed, for example, in the schematic diagram shown in fig. 3, assuming that, in task1, both node 1 and node 2 are marked.

And, only when the last task node of the current task node is marked, the control node 100 specifically performs sending the first control information to the display endpoint 220, and marks the current task node, for example, in the schematic diagram shown in fig. 3, if the current task node is node 3, when node 2 is marked, the control node 100 sends the first control information to the display endpoint 220.

On the contrary, referring to fig. 10, fig. 10 is another interaction diagram of the front end node 200 and the control node 100, if the previous task node of the current task node is not marked, the previous task node representing the current task node is not executed, and the previous task node of the current task node cannot be skipped to directly execute the current task node, for example, in the schematic diagram shown in fig. 6, if the current task node is node 3, and if node 2 is not marked, the representation node 2 is not executed, and at this time, the control node 100 will send fourth control information to the display endpoint 220.

Accordingly, when the display endpoint 220 obtains the fourth control information, the characterization control node 100 determines that the user is operating by mistake and tries to skip some task nodes in the target configuration task, and at this time, the display endpoint 220 displays error information according to the fourth control information, where the error information characterizes that the previous task node of the current task node is not marked, for example, information such as "operation error, please execute each task node continuously.

With continued reference to fig. 1, in general, the number of detection terminals is fixed during mass production of the billboard system 10, for example, in the schematic diagram shown in fig. 1, the billboard system 10 includes 7 detection terminals, which means that the billboard system 10 shown in fig. 1 supports configuration tasks of at most 7 task nodes. However, in some application scenarios, if there are too many task nodes to configure tasks, such as 20 task nodes to configure tasks even more, then a single billboard system 10 will not be able to meet the needs of the user.

Thus, in the present embodiment, as one possible way, a way of extending the signage system 10 is provided to accommodate the personalized needs of different projects. Specifically, the billboard system 10 is provided with a first connection node, for example, in the schematic diagram shown in fig. 1, a first male port 231 and a first female port 232 are respectively provided at the left and right sides of the billboard system 10, and any two billboard systems 10 can extend in the lateral direction in a manner that the first male port 231 and the first female port 232 are matched, for example, please refer to fig. 11, fig. 11 is an extended schematic diagram of two billboard systems 10 in the lateral direction, and further, different task nodes of the same target configuration task are configured by the detection endpoints of different billboard systems 10, so as to realize continuous application of the billboard system 10 to the multitasking nodes.

The application shown in fig. 11 is an extended application in the lateral direction of the signage system 10, while in other application scenarios, the same configuration task may be divided into multiple different sub-tasks that, when executed, often require uniform monitoring progress.

Thus, optionally, as a possible implementation manner, please continue to refer to fig. 1, the billboard system 10 is further provided with a second connection point, which is different from the first connection point, for connecting the plurality of billboard systems 10 in the first direction, such as the transverse direction in fig. 1, and the second connection point is for connecting the plurality of billboard systems 10 in the second direction, such as the longitudinal direction in fig. 1.

Also, as a possible implementation manner, the second connection point may be implemented by providing the second male port 241 and the second female port 242 on both sides of the billboard system 10 along the second direction, for example, in the schematic diagram shown in fig. 1, the second male port 241 and the second female port 242 are provided on the upper and lower ends, so that the plurality of billboard systems 10 can be expanded in the second direction, for example, in the longitudinal direction, by the way that the second male port 241 is matched with the second female port 242. For example, referring to fig. 12, fig. 12 is an expanded schematic view of a plurality of billboard systems 10 in a longitudinal direction, so that when splitting the same configuration task into a plurality of different subtasks, respective task nodes of the different subtasks can be respectively configured in the billboard systems 10 of different rows, thereby realizing unified monitoring progress of the plurality of different subtasks; or, the task nodes of the different configuration tasks are respectively configured in the signboard systems 10 of different rows, so that unified monitoring progress is performed on a plurality of different configuration tasks.

In addition, as a possible implementation manner, since the first connection point and the second connection point can enable the plurality of billboard systems 10 to expand in the first direction and the second direction, in this embodiment of the present application, the first connection point and the second connection point may be used to cooperate to expand the plurality of billboard systems 10 in the first direction and the second direction, so as to meet the requirements of some other application scenarios.

In the application of expanding the plurality of billboard systems 10 in the second direction as shown in fig. 12, since different configuration tasks can be configured by different rows of billboard systems 10, a unified monitoring progress of multiple configuration tasks can be further realized. However, when the plurality of billboard systems 10 are extended in the second direction, different configuration tasks are configured for different rows of billboard systems 10, so that task isolation exists between the detection endpoints of different rows, and the target label must be placed in a designated row of billboard systems 10 to be identified.

Based on this, in the embodiment of the present application, as a possible implementation manner, when the plurality of billboard systems 10 are connected by the second connection point in the second direction, for example, by matching the second male port 241 with the second female port 242 as shown in fig. 12, so that the plurality of billboard systems 10 are expanded in the longitudinal direction, the detection endpoints of the same column are arranged in rows and columns, and the detection endpoints of the same column are configured with the same task node in advance. That is, the control nodes 100 of different rows of the billboard system 10 are configured with the same task clusters, and for the detection endpoints of the same column, the same task nodes are corresponding to any configuration task in the task clusters, so that the user can identify the same target configuration task when placing the target label at the detection endpoints of the same column but different rows.

In the embodiment of the present application, the control node 100, the detection endpoint 210, the display endpoint 220, and the like are all devices that need to be powered. Thus, as a possible implementation, referring to fig. 1, the billboard system 10 is further provided with a power supply node 250, where the power supply node 250 is configured to supply power to the control node 100 and all the detection endpoints 210, for example, the power supply node 250 may be a power supply interface, directly connected to the mains power, or may be a lithium battery.

In addition, as a possible implementation manner, after the multiple billboard systems 10 are expanded in the manner shown in fig. 11 or fig. 12, the power supply nodes 250 of the different billboard systems 10 are all electrically connected, for example, the first male port 231, the first female port 232, the second male port 241 and the second female port 242 in fig. 1 are all configured as power supply ports, the power supply nodes 250 are lithium batteries disposed in the billboard systems 10, and after the multiple billboard systems 10 are electrically connected, the lithium batteries of the different billboard systems 10 can be regarded as being connected in series to form a whole to supply power to the different billboard systems 10, so as to realize integrated sharing of the power supply nodes 250.

With continued reference to fig. 1, in one possible implementation, the front-end node 200 further includes a voice endpoint 260, where the voice endpoint 260 establishes communication with the control node 100.

Referring to fig. 13, fig. 13 is another interaction diagram of the front-end node 200 and the control node 100, in this embodiment, when the control node 100 determines that the first endpoint identifier matches the endpoint identifier corresponding to the task node of the target configuration task, the control node 100 sends fifth control information to the voice endpoint 260, where the fifth control information characterizes that the user normally operates the target label.

Accordingly, when the voice endpoint 260 obtains the fifth control information, the voice endpoint 260 sends out the first voice information according to the fifth control information to characterize the normal operation of the user, where the first endpoint identifier is successfully matched with the endpoint identifier, for example, the voice endpoint 260 may be set as a buzzer, a speaker, etc., and the content of the first voice information may be "card swipe succeeded", "tag recognition succeeded" or may be sound information such as "ticker" for prompting the user that the card swipe succeeds.

Furthermore, it should be noted that, in some other implementations of the embodiments of the present application, when the control node 100 determines that the first endpoint identifier does not match the endpoint identifier corresponding to the task node of the target configuration task, the control node 100 may further send sixth control information to the voice endpoint 260, so that the voice endpoint 260 sends out second voice information, such as "card swiping failure" or "tag identification failure", to alert the user that the user is currently in an erroneous operation.

In the foregoing implementation manner of the embodiment of the present application, in order to be based on a single-point operation of the control node 100, as long as the control node 100 performs determining whether the target configuration task, the current task node, and the endpoint identifier corresponding to the task node of the first endpoint identifier match, etc., the foregoing manner can meet the requirement of a single software development flow, but in some application scenarios, for example, it is required to monitor whether the task node operates according to a normal flow, or record the execution time of each task node, etc., the foregoing implementation manner cannot be met.

Based on this, optionally, as a possible implementation, the signage system 10 further comprises a network node 300, such as a server, with which the control node 100 establishes communication.

Referring to fig. 14, fig. 14 is a schematic diagram illustrating an interaction between a control node 100 and a front end node 200 and a network node 300. At this time, the control node 100 needs to transmit the detection information to the network node 300 before the control node 100 transmits the first control information to the display endpoint 220.

Thus, the network node 300 performs an operation of determining whether the first endpoint identifier matches the endpoint identifier corresponding to the task node of the target configuration task by the control node 100 based on the obtained detection information (i.e., an operation of the control node 100 before obtaining the detection information and sending the first control information is not described herein in detail); and, when the network node 300 determines that the first endpoint identification matches the endpoint identification corresponding to the task node of the target configuration task, the network node 300 transmits the first identification information to the control node 100.

Accordingly, the control node 100 transmits the first control information to the display endpoint 220 according to the first identification information.

It should be noted that, when the signage system 10 is configured with the network node 300, all the judging and monitoring actions of the control node 100 may be completed by the network node 300, and then the network node 300 sends corresponding identification information to the control node 100, so that the control node 100 executes corresponding control information, such as the first control information, the second control information, and so on. That is, when the network node 300 is configured, the control node 100 may not perform the above-described operations such as determining and monitoring, and the control node 100 may obtain the detection information, forward the detection information to the network node 300, and send the identification information to the control node 100 after the network node 300 performs the operations such as determining and monitoring, so that the control node 100 may send information such as the first control information and the second control information to the front end node 200.

In addition, the network node 300 is further configured with corresponding project management software and a database preset for recording the execution condition of each configuration task. For example, in the embodiment of the present application, all configuration tasks in the task cluster and all task nodes of each configuration task are recorded in the preset database in advance, and when the network node 300 determines the current task node, the network node 300 further marks the current task node in the preset database, and further may record information such as the marked time of the current task node, so as to record the completion condition of each configuration task, so as to facilitate the user to check.

Based on the above design, in the billboard system 10 provided in the embodiment of the present application, by setting the network node 300 in the billboard system 10 and establishing communication between the network node 300 and the control node 100, all the judging and monitoring actions in the billboard system 10 can be completed by the network node 300, so that different billboard systems 10 can realize unified management through the same network node 300, and the completion condition of each configuration task can be recorded, so that the user can check conveniently.

Referring to fig. 15, fig. 15 shows a schematic diagram of a possible structure of a billboard system 10 according to an embodiment of the disclosure, in the billboard system 10, a control node 100 includes a micro-control unit (Micro Control Unit, abbreviated as MCU) and a FLASH Memory (Flash EEPROM Memory, abbreviated as FLASH), a Static Random-Access Memory (abbreviated as SRAM), a Wireless-Fidelity (abbreviated as Wi-Fi), and a data bus electrically connected to the MCU, respectively; the FLASH is used for programming an embedded program for the control node 100; the MCU is used for calculation and control; the SRAM is used for recording temporary data, designation and the like generated in the data processing process; wi-Fi is used to control the node 100 to establish communication with a server; the data bus may be an SPI, I2C, or other bus, and is used to control the node 100 to establish communication with the front-end node 200, such as a display, buzzer, sensor, or other device.

For the front-end node 200 described above in the embodiments of the present application, a possible implementation manner is given below, and the embodiments of the present application further provide a front-end node 200, where the front-end node 200 may be applied to the billboard system 10 described above, and in the embodiments of the present application, the front-end node 200 includes a detection endpoint 210 and a display endpoint 220, where the detection endpoint 210 and the display endpoint 220 each establish communication with the control node 100;

the detecting endpoint 210 is configured to identify a target tag, obtain detecting information, and send the detecting information to the control node 100, so that the control node 100 determines a current task node according to the detecting information and sends first control information to the display endpoint 220, where the detecting information includes a first endpoint identifier and a target identifier, the first endpoint identifier is used to identify the detecting endpoint 210, the target identifier is used to identify the target tag, the current task node belongs to a target configuration task, the target configuration task includes at least one task node corresponding to the endpoint identifier, the current task node belongs to at least one task node corresponding to the endpoint identifier, and the first control information includes the current task node;

the display endpoint 220 is configured to display the current task node in a first area according to the first control information, where the first area is an area in the display endpoint 220 for identifying the current task node.

Based on the above design, in the front-end node 200 provided in the embodiment of the present application, after the detection endpoint 210 identifies the target label, the detection information is sent to the control node 100 after the detection information is obtained, so that the control node 100 determines the target configuration task in the pre-configured task cluster according to the target identifier for identifying the target label included in the detection information, and further determines the current task node in the target configuration task when determining that the first endpoint identifier in the detection information matches with the endpoint identifier allocated to the task node of the target configuration task in advance, so as to send the first control information to the display endpoint 220, thereby, the display endpoint 220 displays the current task node in the first area according to the first control information.

It should be noted that, please refer to the above embodiment for specific execution logic of the detecting endpoint 210 and the displaying endpoint 220, which is not described herein.

Optionally, as a possible implementation, the front-end node 200 further includes a voice endpoint 260, and the voice endpoint 260 establishes communication with the control node 100;

The voice endpoint 260 is configured to send out first voice information according to the fifth control information sent by the control node 100, where the first voice information characterizes that the first endpoint identifier is successfully matched with the endpoint identifier.

It should be noted that, in the embodiment of the present application, the front-end node 200 also has some other functions or roles, and the detailed description is omitted herein.

For the above-mentioned control node 100 in the embodiment of the present application, a possible implementation manner is given below, and the embodiment of the present application further provides a control node 100, where the control node 100 is applicable to the above-mentioned signage system 10, and in the embodiment of the present application, the control node 100 establishes communication with both the display endpoint 220 and the multiple detection endpoints 210;

the control node 100 is configured to receive detection information, where the detection information includes a first endpoint identifier and a target identifier, the first endpoint identifier is used to identify the detection endpoint 210, and the target identifier is used to identify a target tag;

the control node 100 is further configured to determine, according to the detection information, a target configuration task in the task cluster, where the task cluster includes at least one configuration task, the target configuration task is a configuration task corresponding to a target identifier in the task cluster, and the target configuration task includes at least one task node corresponding to an endpoint identifier;

The control node 100 is further configured to determine a current task node when the first endpoint identifier matches the endpoint identifier, and send first control information to the display endpoint 220, so that the display endpoint 220 displays the current task node in a first area according to the first control information, where the current task node belongs to at least one task node corresponding to the endpoint identifier, the first area is an area in the display endpoint 220 for identifying the current task node, and the first control information includes the current task node.

Based on the above design, according to the control node 100 provided in the embodiment of the present application, by obtaining the detection information sent by the detection endpoint 210, further determining the target configuration task in the task cluster configured in advance according to the target identifier for identifying the target label included in the detection information, and further determining the current task node in the target configuration task when determining that the first endpoint identifier in the detection information matches with the endpoint identifier allocated to the task node of the target configuration task in advance, and sending the first control information to the display endpoint 220, so that the display endpoint 220 displays the current task node in the first area.

It should be noted that, please refer to the above embodiment for specific execution logic of the control node 100, which is not described herein.

Optionally, as one possible implementation, the control node 100 also establishes communication with the voice endpoint 260;

the control node 100 is further configured to send fifth control information to the voice endpoint 260, so that the voice endpoint 260 sends first voice information according to the fifth control information, where the first voice information characterizes that the first endpoint identifier is successfully matched with the endpoint identifier.

Optionally, as one possible implementation, the control node 100 also establishes communication with the network node 300;

before the control node 100 sends the first control information to the display endpoint 220, the control node 100 is further configured to send detection information to the network node 300, so that the network node 300 determines a current task node according to the detection information and feeds back first identification information to the control node 100;

the control node 100 is specifically configured to send the first control information to the display endpoint 220 according to the first identification information.

It should be noted that, in the embodiment of the present application, the control node 100 also has some other functions or roles, and the detailed description is omitted herein.

For convenience and brevity of description, those skilled in the art may clearly understand that the specific working process of the system and apparatus described above may refer to the corresponding process in the method embodiment, which is not described in detail in this application. In the several embodiments provided in this application, it should be understood that the disclosed systems, devices, and methods may be implemented in other manners. The above-described apparatus embodiments are merely illustrative, and the division of the modules is merely a logical function division, and there may be additional divisions when actually implemented, and for example, multiple modules or components may be combined or integrated into another system, or some features may be omitted or not performed. Alternatively, the coupling or direct coupling or communication connection shown or discussed with each other may be through some communication interface, indirect coupling or communication connection of devices or modules, electrical, mechanical, or other form.

The modules described as separate components may or may not be physically separate, and components shown as modules may or may not be physical units, may be located in one place, or may be distributed over multiple network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in each embodiment of the present application may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, may be stored in a non-volatile computer readable storage medium executable by a processor. Based on such understanding, the technical solution of the present application may be embodied essentially or in a part contributing to the prior art or in a part of the technical solution, in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the methods described in the embodiments of the present application. And the aforementioned storage medium includes: a usb disk, a removable hard disk, a ROM, a RAM, a magnetic disk, or an optical disk, etc.

In summary, in the billboard system, the front end node and the control node provided in the embodiments of the present application, after the detection endpoint 210 identifies the target label, the detection information is sent to the control node 100, and then the control node 100 determines the target configuration task in the pre-configured task cluster according to the target identifier for identifying the target label included in the detection information, and further determines the current task node in the target configuration task when determining that the first endpoint identifier in the detection information matches with the endpoint identifier allocated to the task node of the target configuration task in advance, and sends the first control information to the display endpoint 220, so that the display endpoint 220 displays the current task node in the first area. After the control node 100 determines the target configuration task and the current node, at least one downstream task node of the current task node is obtained according to the processing sequence information of each task node included in the target configuration task, and the obtained at least one downstream task node is displayed through the display endpoint 220, so that a user is reminded of the task node to be executed, and further, after the current task node is executed, the downstream task node can be continuously executed, and further, the completion time of the target configuration task is prevented from being prolonged; setting a preset task node in the target configuration task, monitoring whether the preset task node in the target configuration task is marked, and when the preset task node is marked, responding and executing the current task node by the control node 100, and further sending first control information to the display endpoint 220 to normalize the execution of the target configuration task; by setting the network node 300 in the billboard system 10 and establishing communication between the network node 300 and the control node 100, all the judging and monitoring actions in the billboard system 10 can be completed by the network node 300, so that different billboard systems 10 can realize unified management through the same network node 300, the completion condition of each configuration task can be recorded, and the user can check conveniently.

The foregoing is merely a specific embodiment of the present application, but the protection scope of the present application is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the present application, and the changes or substitutions are covered in the protection scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (18)

1. The billboard system is characterized by comprising a front-end node and a control node, wherein the front-end node comprises a display endpoint and a plurality of detection endpoints, and the display endpoint and each detection endpoint establish communication with the control node;

the detection endpoint is used for identifying a target label, obtaining detection information and sending the detection information to the control node, wherein the detection information comprises a first endpoint identifier and a target identifier, the first endpoint identifier is used for identifying the detection endpoint, and the target identifier is used for identifying the target label;

the control node is used for determining a target configuration task in a task cluster according to the detection information, wherein the task cluster comprises at least one configuration task, the target configuration task is a configuration task corresponding to the target identifier in the task cluster, and the target configuration task comprises at least one task node corresponding to the endpoint identifier;

The control node is further configured to determine a current task node when the first endpoint identifier matches the endpoint identifier; monitoring state information of task nodes in the target configuration task, and responding to marked upstream task nodes of the current task node, wherein the marked upstream task nodes represent that the task nodes are finished; sending first control information to the display endpoint, wherein the current task node belongs to the at least one task node corresponding to the endpoint identifier, and the first control information comprises the current task node so as to indicate the task progress of the target configuration task through the first control information;

the display endpoint is configured to display the current task node in a first area according to the first control information, where the first area is an area in the display endpoint for identifying the current task node.

2. The system of claim 1, wherein the target configuration task further comprises processing order information for each of the task nodes;

the control node is further configured to obtain, when the first endpoint identifier matches the endpoint identifier, at least one downstream task node of the current task node according to the processing sequence information and the current task node;

The control node is further configured to send second control information to the display endpoint, where the first control information includes the at least one downstream node;

the display endpoint is further configured to display the at least one downstream task node in a second area according to the second control information, where the second area is an area in the display endpoint used for identifying the at least one downstream task node.

3. The system of claim 1, wherein the target configuration task further comprises processing order information for each of the task nodes;

the control node is further configured to obtain, when the first endpoint identifier matches the endpoint identifier, at least one upstream task node of the current task node according to the processing sequence information and the current task node;

the control node is further configured to send third control information to the display endpoint, where the third control information includes the at least one upstream node;

the display endpoint is further configured to display the at least one upstream task node in a third area according to the third control information, where the third area is an area in the display endpoint used for identifying the at least one upstream task node.

4. The system of claim 1, wherein the control node, prior to sending the first control information to the display endpoint,

the control node is further configured to monitor current state information of the target configuration task, where the current state information includes first state information and second state information, the first state information indicates that a preset task node in the target configuration task is marked, the second state information indicates that the preset task node in the target configuration task is not marked, and the preset task node is an upstream node of the current task node;

the control node is specifically configured to send the first control information to the display endpoint when the current state information is the first state information.

5. The system of claim 4, wherein,

the control node is further specifically configured to send the first control information to the display endpoint when the current state information is the second state information and the current task node is the preset task node, and record that the current state information is the first state information.

6. The system of claim 5, wherein,

the control node is further specifically configured to control, when the control node determines that the current task node is the preset task node, to maintain an awake state for a detection endpoint corresponding to each task node of the target configuration task in advance.

7. The system of claim 1 or 4 or 5 or 6, wherein said control node, prior to sending a first of said control information to said display endpoint,

the control node is further configured to monitor node status information of the target configuration task, where the node status information characterizes all task nodes marked in the target configuration task;

the control node is further specifically configured to send first control information to the display endpoint when a previous task node of the current task node is marked, and mark the current task node.

8. The system of claim 7, wherein the system comprises a plurality of sensors,

when the last task node of the current task node is not marked, the control node is further configured to send fourth control information to the display endpoint;

the display endpoint is further configured to display error information according to the fourth control information, where the error information indicates that a last task node of the current task node is not marked.

9. The system of claim 1, wherein the billboard system is provided with a first connection node, a plurality of the billboard systems being connected by the first connection node.

10. The system of claim 9, wherein the signage system is further provided with a second connection node;

a plurality of the billboard systems are connected in a first direction by the first connection node and a plurality of the billboard systems are connected in a second direction by the second connection node.

11. The system of claim 10, wherein a plurality of said billboard systems are preconfigured with identical task nodes for detection endpoints of the same column when connected in a second direction by said second connection node.

12. A system according to claim 9 or 10, wherein the signage system is provided with a power node for powering the control node, the display endpoint and the plurality of detection endpoints;

and after the plurality of signboard systems are connected, the plurality of power supply nodes are electrically connected.

13. The system of claim 1, wherein the front-end node further comprises a voice endpoint that establishes communication with the control node;

When the first endpoint identifier is matched with the endpoint identifier, the control node is further configured to send fifth control information to the voice endpoint;

the voice endpoint is configured to send out first voice information according to the fifth control information, where the first voice information characterizes that the first endpoint identifier is successfully matched with the endpoint identifier.

14. The system of claim 1, wherein the signage system further comprises a network node, the control node establishing communication with the network node;

the control node is further configured to send the detection information to the network node before sending the first control information to the display endpoint;

the network node is used for determining the target configuration task in the task cluster;

the network node is further configured to determine the current task node and send first identification information to the display endpoint when the first endpoint identifier matches the endpoint identifier;

the control node is specifically configured to send first control information to the display endpoint according to the first identification information.

15. The system of claim 14, wherein the system comprises a plurality of sensors,

The network node is further configured to mark the current task node in a preset database when the current task node is determined, where the preset database is pre-recorded with all configuration tasks in the task cluster.

16. A control node, wherein the control node establishes communication with a display endpoint and a plurality of detection endpoints;

the control node is configured to receive detection information, where the detection information includes a first endpoint identifier and a target identifier, the first endpoint identifier is used to identify a detection endpoint, and the target identifier is used to identify a target tag;

the control node is further configured to determine a target configuration task in a task cluster according to the detection information, where the task cluster includes at least one configuration task, the target configuration task is a configuration task corresponding to the target identifier in the task cluster, and the target configuration task includes at least one task node corresponding to an endpoint identifier;

the control node is further configured to determine a current task node when the first endpoint identifier matches the endpoint identifier; monitoring state information of task nodes in the target configuration task, and responding to marked upstream task nodes of the current task node, wherein the marked upstream task nodes represent that the task nodes are finished; and sending first control information to the display endpoint so that the display endpoint displays the current task node in a first area according to the first control information, wherein the current task node belongs to the at least one task node corresponding to the endpoint identifier, the first area is an area used for identifying the current task node in the display endpoint, and the first control information comprises the current task node so as to indicate the task progress of the target configuration task through the first control information.

17. The control node of claim 16, wherein the control node further establishes communication with a voice endpoint;

the control node is further configured to send fifth control information to the voice endpoint, so that the voice endpoint sends first voice information according to the fifth control information, where the first voice information characterizes that the first endpoint identifier is successfully matched with the endpoint identifier.

18. The control node of claim 16, wherein the control node further establishes communication with a network node;

the control node is further configured to send the detection information to the network node before sending first control information to the display endpoint, so that the network node determines the current task node according to the detection information and feeds back first identification information to the control node;

the control node is specifically configured to send first control information to the display endpoint according to the first identification information.