KR102559444B1 - Working Process Management System using block-chain algorithm for user - Google Patents

Abstract

The present invention relates to a business process management system in which processes necessary for executing a specific task are divided into unit process blocks by subject of the process, and block-chain technology is applied to each unit process block (Task Chain) to improve accuracy and usability. The present invention is a business process algorithm for generating and executing a business process, and includes user terminals that receive unit items including an extraction target, an acquisition item for the extraction target, a transmission target, and a transmission item for the transmission target from the user; The work process algorithm may include a work process creation unit that receives the unit item from the user terminal, generates a detailed process, and constructs a unit process block from the generated detailed processes to create a work process; a work process execution unit generating and executing an execution command according to the detailed process generated by the work process generation unit; And it is configured to include a work process sharing unit that records and shares the work process configuration contents generated from the work process creation unit in a detailed process or unit process block linked through a blockchain algorithm. According to the present invention, since the work process is configured as a process-specific chain (Task chain) composed of unit processes, and the task chain's configuration information (config) is called to perform the work process desired by the user, there is an effect that the desired work process can be configured and used simply and easily without a separate management server (or by minimizing the function of the management server).

Description

User-centered work process management system using block chain { Working Process Management System using block-chain algorithm for user }

The present invention relates to a business process management system, and more particularly, to a non-process management system with improved accuracy and usability by classifying processes necessary for the execution of specific tasks into unit process blocks by subject of process, and applying block-technology to each unit process block (Task Chain).

A work processing system refers to a work process standard composed of a process for unit work and a process and work screen for the person in charge of each work process to proceed with work.

In the past, in order to design or purchase a system for providing mutually connected and integrated applications centered on specific users, the person in charge of a company entrusted consulting work to an engineer specializing in systems. The engineer, who was unaware of the flow of the business, established a standard business process through a long consultation process with the person in charge of business, applied business process management (BPM) technology to design a business processing system, and delivered and provided training for use in the business.

Here, Business Process Management (BPM) refers to a new generation of technology for automating, integrating, and optimizing corporate processes, and BPMS (Business Process Management System) refers to a software system or platform that technically enables such BPM.

Most implementations of the user-centered interconnected integrated application providing system in the conventional BPMS were developed by coding by a system engineer using a development tool installed on a local computer.

For example, prior art Korean Patent Publication No. 10-2016-0140475 discloses a business process modeling method and apparatus for modeling a business process optimized for an enterprise environment.

However, the conventional methods do not immediately respond to rapid changes in business types and diversification of tasks requested by users, and thus, there is a problem in that cost and usability of the logistics work process are significantly hindered.

In addition, since the work process management system according to the prior art provides services by relying on the management server, which is the management subject, the configuration of the management server is complicated and operating costs are increased, and the entire work process management system is paralyzed when the management server fails. There was a problem.

Republic of Korea Patent Publication No. 10-2016-0140475

The present invention has been devised to solve the above conventional problems, and the present invention is to configure a work process into a process-specific chain (Task chain) composed of unit processes, and call the configuration information (config) of these task chains to perform the work process desired by the user, so that each user becomes a subject and performs work process management, thereby minimizing the proportion of the management server.

According to the features of the present invention for achieving the above object, the present invention is configured to include user terminals in which a work process algorithm for generating and executing a work process is driven, and receives unit items including an extraction target, an acquisition item for the extraction target, a transmission target, and a transmission item for the transmission target from a user; The work process algorithm may include a work process creation unit that receives the unit item from the user terminal, generates a detailed process, and constructs a unit process block from the generated detailed processes to create a work process; a work process execution unit generating and executing an execution command according to the detailed process generated by the work process generation unit; And a work process sharing unit for recording and sharing the work process components generated from the work process creation unit in a detailed process or unit process block linked through a blockchain algorithm: The work process is a set of processes for performing specific tasks, and is composed of a combination of two or more unit process blocks; The unit process block is composed of a combination of detailed processes processed for each process target; The sub-process is composed of a combination of one or more unit items constituting one execution command: the two or more unit process blocks or sub-processes are configured by a blockchain algorithm (addition and deletion) are shared and stored in each unit process block or sub-process: the argument item is data to be extracted from the extraction target, and the transmission item is data to be transmitted to the transmission target.

Meanwhile, the work process algorithm may be provided with an ID assigned to each user terminal.

Further, the work process algorithm may be provided to a user terminal connected to the cloud in a cloud environment, and may be provided with an ID assigned to each user.

In addition, the work process generation unit may include reading a detailed process list from process contents defined as references set in a work process algorithm provided to the user terminal; reading unit items for a detailed process list of work processing targets; Detailed processes may be created according to the order defined by the unit items selected from the user terminal.

The work process execution unit generates and executes an execution command according to the detailed process generated by the work process creation unit, and the execution command may be executed by processing field values of data according to a validation rule.

In addition, the work process execution unit generates and executes an execution command according to the detailed process created in the work process creation unit, and the execution command may be executed according to the data record defined according to a pattern rule.

Also, the execution command may be configured in XML (eXtensible Markup Language).

In addition, the unit process block may be composed of any one of a purchase process, a production process, an order process, a planning process, a storage process, a delivery process, or a return process.

In addition, when the execution command according to the detailed process is a warehousing order for logistics, the work process execution unit may calculate a warehousing location according to the type of logistics or information about the owner of the logistics and include it in the execution command.

In addition, when the execution command according to the detailed process is a logistics release command, the work process execution unit may calculate the release location of the logistics according to the shelf life of the logistics and the storage period of the logistics and include it in the execution command.

On the other hand, the work process algorithm of the present invention provides an alarm message when deletion of some unit process blocks or sub-processes occurs on a combination of unit process blocks shared by the work process sharing unit or a combination between sub-processes. It may be configured to further include a work process monitoring unit.

At this time, when the work process sharing unit creates a detailed process or unit process block excluding a detailed process or unit process block confirming the completion of a work process, if the addition of a subsequent detailed process or unit process block is not confirmed within a predetermined time, a time key may be added so that the created detailed process or unit process block is deleted.

Further, the setting time of the time key may be set by adding a margin value to an average value of the elapsed time according to the addition of a detailed process or unit process block subsequent to the previously created same detailed process or unit process block.

In the user-oriented logistics business process management system and method according to the present invention as discussed above, the following effects can be expected.

That is, in the present invention, since the work process is configured as a process-specific chain (Task chain) composed of unit processes, and the task chain's configuration information (config) is called to perform the work process desired by the user, there is an effect that the desired work process can be configured and used simply and easily without a separate management server (or by minimizing the function of the management server).

In addition, in the present invention, by applying block chain technology to the unit process block, the task execution process is shared among task performing entities, and thus the linkage of tasks can be secured in real time, thereby minimizing or without a management server. There is an effect of securing stability between linked processes.

In addition, according to the present invention, as the management server is minimized, the cost of building the system is reduced, thereby ensuring economic feasibility.

On the other hand, the present invention inserts a time key into the generated unit process block so that an error in the linked process is detected by chaining between unit process blocks without a separate management body, so that the management and supervision of the work process is possible at high efficiency and low cost.

1 is a functional block diagram showing the functional configuration of a work process algorithm constituting a work process management system according to the present invention.
Figure 2 is a configuration diagram showing the hierarchical structure of the work process according to the present invention.
Figure 3 is an exemplary view showing the work processing process of the logistics business process management system according to the present invention.
4 is a block diagram showing an example of a Task-Chain constituting the present invention.
5 is an exemplary view showing the concept of Task-Chain constituting the present invention.
6 is a conceptual diagram showing the management concept of Task-Chain according to the present invention.
7 is a conceptual diagram illustrating the concept of executing an execution command by Task-Chain according to the present invention;

Hereinafter, a user-centered work process management system according to a specific embodiment of the present invention will be described with reference to the accompanying drawings.

Prior to the description, first, the effects, features, and methods of achieving the present invention are clarified in the embodiments described later in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only the present embodiments are provided to complete the disclosure of the present invention and to fully inform those skilled in the art of the scope of the invention to which the present invention belongs, and the present invention is only defined by the scope of the claims.

In describing the embodiments of the present invention, if it is determined that a detailed description of a known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description will be omitted, and the terms described below are terms defined in consideration of functions in the embodiments of the present invention, which may vary according to the intention or custom of a user or operator. Therefore, the definition should be made based on the contents throughout this specification.

Combinations of each block of the accompanying block diagram and each step of the flowchart may be executed by computer program instructions (execution engine), and since these computer program instructions may be loaded into a processor of a general-purpose computer, special-purpose computer, or other programmable data processing equipment, the instructions executed through the processor of the computer or other programmable data processing equipment create means for performing the functions described in each block of the block diagram or each step of the flowchart.

In addition, since the computer program instructions can be loaded on a computer or other programmable data processing equipment, a series of operation steps are performed on the computer or other programmable data processing equipment to generate a process executed by the computer. It is also possible that the instructions for performing the computer or other programmable data processing equipment provide steps for executing the functions described in each block of the block diagram and each step of the flowchart.

Additionally, each block or each step may represent a module, segment or portion of code that contains one or more executable instructions for executing specified logical functions, and in some alternative embodiments it is possible for the functions recited in blocks or steps to occur out of order.

That is, the two shown blocks or steps may in fact be performed substantially simultaneously, and the blocks or steps may be performed in the reverse order of their corresponding functions, if necessary.

Figure 1 is a functional block diagram showing the functional configuration of the business process algorithm constituting the business process management system according to the present invention, Figure 2 is a configuration diagram showing the hierarchical configuration of the business process according to the present invention, Figure 3 is an exemplary view showing the business process of the logistics business process management system according to the present invention, Figure 4 is a block diagram showing an example of the Task-Chain constituting the present invention, Figure 5 is an exemplary view showing the concept of the Task-Chain constituting the present invention 6 is a conceptual diagram showing the management concept of Task-Chain according to the present invention, and FIG. 7 is a conceptual diagram showing the concept of executing an execution command by Task-Chain according to the present invention.

Business processes for various economic activities are being carried out through various systems, and the types of business processes are diversifying day by day. Accordingly, in the detailed description of the present invention, for convenience of the invention, hereinafter, among various types of business processes, the business process of the logistics industry will be described as an example.

Since the system for logistics work process has different management tasks for each shipper or product, logic is implemented through program development whenever a logistics system is built due to the diversity of tasks.

Logic implementation in these program source codes not only requires excessive cost and development time, but also requires a management body (management server, main server, etc.) that can coordinate the linkage of each process, which requires excessive cost and development time, as well as the need to add/modify the program source during scalability, additions, and maintenance.

The present invention introduces the basic concept of the recently developed block chain technology into the work process management system. Through the work process algorithm provided to each user (duty person in charge) terminal without a separate management body, block chain type unit blocks composed of tasks performed in charge are created/shared, and when an abnormality occurs in the linked work, the person in charge of the linked work confirms it, enabling linked management of the work.

To this end, in a specific embodiment of the present invention, the system is basically composed of user terminals provided with the work process algorithm 100 . At this time, the management server (main server) through which the user terminal can access and receive data is not essential, and provides basic data such as providing the work process algorithm, providing update data of the work process algorithm, and providing work process data executed by a third party. It can be optionally included to provide data.

In addition, the basic data providing function of the management server as described above may be provided to connected user terminals in a cloud environment.

On the other hand, the user terminal is a terminal such as a PC or a mobile terminal used by a person in charge for work process management, and a work process algorithm for creating and executing a work process is driven, receiving unit items from a user and creating a work process.

Here, the unit item is a basic process unit constituting a detailed process among various hierarchical process units constituting a business process, and is composed of an acquisition item for an extraction target or a transmission item for a transmission target.

Hereinafter, a process hierarchy of various layers constituting the work process will be described with reference to FIG. 2, and then a work process algorithm that performs practical function implementation in the present invention will be described in detail.

As shown in FIG. 2, the work process according to the present invention can be hierarchically divided into work process, unit process block, detailed process, and unit item.

The work process is a set of processes for performing a specific task, wherein the specific task refers to providing an independently completed service to a consumer. For example, in the case of a service in which a consumer is provided with a specific product, referring to the sum of all related processes (material warehousing, production, delivery, etc.) required for its implementation, in the present invention, it refers to the largest unit hierarchy.

Meanwhile, the work process is composed of a combination of two or more unit process blocks, and the unit process block is composed of a combination of sub-processes processed for each target of the process. That is, the unit process block refers to a combination of detailed processes for the same process performer (warehouse, ship owner, factory, etc.).

In addition, the detailed process is composed of a combination of one or more unit items constituting one execution command, and the detailed processes are composed of a combination of unit items that are a user's task input unit.

If the hierarchical structure of such work processes is described as an example, as in the above example, when a work process is a service for which a consumer is provided with a specific good, the work process includes ordering of raw materials to produce the specific good, delivery of raw materials, production at a factory, delivery of produced goods, etc., and includes all processes that must be performed in connection with each other to provide the corresponding service.

In addition, the unit process block is a combination of processes performed by each performer, and is composed of a combination of tasks performed by each performer, such as a warehouse, a shipping company, a factory, etc. For example, the unit process block of a warehouse includes detailed processes such as inventory check (detailed process), warehousing (detailed process), warehouse transportation (detailed process), and release (detailed process).

In addition, the detailed processes are composed of a combination of unit items that are the user's work input unit. For example, if the detailed process is transportation in a warehouse, the unit items include forklift assignment, storage location selection, transportation time, etc. It can be a unit item.

On the other hand, the unit item may consist of a takeover item and a transmission item. For example, assuming that the unit item is a forklift assignment, the takeover item may be a list of forklifts that can be assigned (with an empty schedule), and the transmission item may be an item (message, task schedule transmission, etc.) for informing the forklift of task assignment.

Hereinafter, a work process algorithm for operating the work process management system according to the present invention will be described.

The work process algorithm 100 creates unit items, detailed processes, and unit process blocks for performing work processes to be shared among business performers, and may be an algorithm provided to a user terminal or a terminal connected in a cloud environment. It may be an algorithm provided.

Here, the work process algorithm 100 may be provided with an ID assigned to each user terminal according to a provision type for classification of users, or an ID may be assigned to each user connected to the cloud environment.

Functionally, the work process algorithm 100 can be divided into a work process generation unit 110, a work process execution unit 120, a work process sharing unit 130, and a work process monitoring unit 140.

First, the work process generation unit 110 receives the unit item from the user terminal to create a detailed process, and configures a unit process block from the generated detailed processes to create a work process.

At this time, the unit item is composed of the acquisition item and the transmission item selected by the user as described above, and detailed processes are formed by the combination of the unit items, unit process blocks are formed by the combination of the detailed processes, and the entire work process is made by the combination of the unit process blocks as described above.

Looking at an example of detailed process generation by the work process generator 110, the work process generator 110 can read a detailed process list from process contents defined as references set in the work process algorithm 100 provided to the user terminal, read unit items for the detailed process list of work processing targets, and create detailed processes according to the order defined by the unit items selected from the user terminal, thereby facilitating the process creation process of the user.

On the other hand, the work process execution unit 120 generates and executes an execution command according to the detailed process generated by the work process creation unit 110. This is because a detailed process, which is a function execution unit, is generally formed by combining a plurality of unit items.

However, in the case of a simple task that can be exceptionally executed as a single unit item, the work process execution unit 120 may generate and execute an execution command according to the unit item created by the work process creation unit 110 .

Meanwhile, the execution command may be configured in XML (eXtensible Markup Language), and the work process execution unit 120 generates an execution command according to the detailed process generated by the work process creation unit 110. When the execution command is executed, the execution command can be executed by processing field values of data according to validation rules.

The validation rule is a reference value for determining whether the generated execution command is a valid command by setting a data type criterion for an execution command, and is a rule for checking the validity of an execution command generated from a detailed process generated by a user selection. In this case, if the execution command is an execution command that does not satisfy the validation rules, the execution command may be executed by processing data field values to satisfy the validation rules according to the validation rules.

In addition, when the work process execution unit 120 generates and executes an execution command according to the detailed process generated by the work process creation unit 110, the execution command may be executed with the content defined in the data record according to the pattern rule.

The pattern rule stores the pattern of the execution command generated from the corresponding detailed process, and when an execution command of a specific pattern that does not conform to the pattern rule is generated, the pattern rule is used to read an execution command that meets the pattern rule (read stored data records that conform to the pattern rule) and execute it instead.

As a specific example of the execution command, when the execution command by the detailed process is a warehousing order for logistics, the work process execution unit 120 calculates the warehousing location according to the type of logistics or the owner information of the logistics, and includes it in the execution command.

As another example of the execution command, when the execution command according to the detailed process is a logistics release command, the work process execution unit 120 calculates the release location of the logistics according to the shelf life of the logistics and the storage period of the logistics. It may be included in the execution command.

The work process sharing unit 130 allows the work process configuration contents generated by the work process creation unit 110 to be shared with all performers (user terminals, etc.) included in the work process. To this end, the work process sharing unit 130 applies block chain technology.

That is, when the work process generation unit 110 creates a detailed process or unit process block, the work process sharing unit 130 processes the detailed process or unit process block by a blockchain algorithm, so that all detailed processes or unit process blocks generated according to the work process are shared.

Here, the blockchain algorithm is provided as an open source on various platforms, so it will not be described in detail.

Meanwhile, the coupling unit of the block chain may be performed in a detailed process unit or in a unit process block unit, but is preferably performed in a unit process block unit.

When the combination unit of the blockchain is a detailed process, which is a sub-process, the security of preventing forgery and alteration of the process progress is improved, and the sharing point of the progress process is short, so all users can share the process progress in real time. However, there is a disadvantage that the load of software increases due to the combination of the blockchain.

On the other hand, when the combination unit of the block chain is a unit process block, which is an upper process, there is a disadvantage in that security and the sharing time of the progress process becomes longer, but there is an advantage in that the load of software is reduced.

Considering that the present invention does not require a high level of security like financial services, and that there is little need for other users to know the detailed process progress performed within the same user in real time, it is preferable to use the unit process block as the upper process.

Accordingly, when changes (adding and deleting) of the chain connection configuration of a specific detailed process or unit process block are generated, these configuration changes are recorded in the entire detailed process or unit process block.

Meanwhile, the work process sharing unit 130 may add a time key when processing the detailed process or unit process block by a blockchain algorithm. The time key refers to a code configured to delete a corresponding detailed process or unit process block when the subsequent sub-process or unit process block is not chained together for a predetermined time.

In other words, when the business process is normally operated, subsequent linked processes (detailed processes or unit process blocks) are continuously added. If the chain extension for the linked process is not performed for more than a predetermined time, related users are notified of this, so that the offline process progress can be checked and supplemented.

In the present invention, each process is block-chained without a separate work process monitoring system so that each user terminal can check it through sharing. When an abnormal situation occurs, there is a problem in that it is difficult to detect and respond quickly. Therefore, in the present invention, a time key is inserted into each detailed process or unit process block that is combined by block chaining, so that when an abnormal situation occurs, it is complemented so that it can be quickly recognized.

To this end, the work process algorithm 100 according to the present invention may further include the work process monitoring unit 140.

The work process monitoring unit 140 detects the deletion of some unit process blocks or detailed processes on a combination (chain) of unit process blocks or a combination (chain) of detailed processes shared by the work process sharing unit 130, and provides an alarm message.

On the other hand, the set time of the time key may be stored and applied according to the normal execution time of the corresponding process, or the elapsed time elapsed in the addition of a subsequent process of the existing unit process block or detailed process for which the work process has already been completed. It can be applied using the average value.

Of course, in this case, the average value may be used by adding a margin value sufficient to determine an abnormal situation.

In addition, it is preferable that the time key is not added because there is no further subsequent process in the detailed process or unit process block that confirms the end of the entire work process.

An embodiment of the detailed process generation method of the work process generation unit 110 is shown in FIG. 3. In the case of the embodiment shown in FIG. 3, the work process generation unit reads a detailed process list from process contents defined by references set in a work process algorithm provided to the user terminal, reads unit items for the detailed process list of work processing targets, and creates detailed processes according to the order defined by the unit items selected from the user terminal.

Looking at the driving process of FIG. 3 showing an embodiment of the creation process of the entire business process including this,

Identification code ① indicates that the entire component program is loaded into the entire memory area when the server is started.

At this time, when component program is loaded, ID is assigned to each component and loaded.

And the Component program can be configured to include Function Component, True_False Component, Route Component, Data Component, etc. ㅇ For example, when loading Route Component, ROUTE (ID) = ROUTE.class (program) can be loaded.

Next, identification code ② shows a screen that defines the order of business processes, and at this time, detailed configurations to be processed for each business process must be added to set it.

For example, it may be to register the configuration when checking the warehouse work process.

The specific process for this is performed by steps (a) to (e) as follows.

First, (a) check whether each search condition configured on the screen is correctly entered (field Validation Component registration).

And (b) derive target data as a result of the search. At this time, register the data derivation component.

Next, (c) select the data derived after the search result and check the process data value to proceed with the next process process (field Validation Component registration).

And (d) Check the data processing classification value (field value True/False, route registration).

Lastly, (e) process the next process target data (register data processing component).

On the other hand, the identification code ③ indicates the work process screen.

And the identification code ④ indicates that the entire data of the screen transmitted from the work process screen is structured.

In addition, the identification code ⑤ indicates bringing a list of components as contents to be processed configured (defined) in advance connected to the work process screen.

And the identification code ⑥ indicates that a list of components to be processed in the work process is brought and a component object is brought from the server memory for each component ID.

In addition, the identification code ⑦ executes and processes the components in the order defined in the data received from the business process screen, and the Validation Rule indicates that the field values of the data are processed.

And identification code ⑧ executes and processes the data received from the business process screen in the defined order, and Pattern Rule indicates that data records are processed according to the defined content.

In addition, identification code ⑨ indicates the process of executing components in the defined order of the data received from the work process screen and adding/modifying/deleting data records to the database table with the defined contents.

Lastly, the identification code ⑩ indicates that data is transferred to the business process screen after processing the business process (delivery of the result inquiry data screen after processing the process).

The rights of the present invention are defined by what is described in the claims, not limited to the embodiments described above, and those skilled in the art can make various modifications and adaptations within the scope of rights described in the claims. It is obvious.

The present invention relates to a business process management system with improved accuracy and usability by classifying processes necessary for carrying out a specific task into unit process blocks by classifying them into unit process blocks and applying block-chain technology to each unit process block (Task Chain). It has an effect that is easy to configure and use.

100: business process algorithm 110: business process generation unit
120: business process execution unit 130: business process sharing unit
140: work process monitoring department

Claims (10)

A work process algorithm for generating and executing a logistics work process is driven, and includes user terminals that receive unit items including an extraction target, an acquisition item for the extraction target, a transmission target, and a transmission item for the transmission target from the user;
The work process algorithm,
a work process creation unit that receives the unit item from the user terminal, generates a detailed process, and creates a work process by constructing a unit process block from the generated detailed processes;
a work process execution unit generating and executing an execution command according to the detailed process generated by the work process generation unit; and
It is configured to include a work process sharing unit that records and shares the work process configuration contents generated from the work process creation unit in a detailed process or unit process block linked through a blockchain algorithm, and:
The business process is
A set of processes to perform a specific task, consisting of a combination of two or more unit process blocks;
The unit process block,
It is composed of a combination of detailed processes processed by the subject of the process;
The detailed process,
Consists of a combination of one or more unit items constituting one execution command:
The two or more unit process blocks or sub-processes share and store configuration changes (addition and deletion) of the unit process block or sub-process in each unit process block or sub-process by a blockchain algorithm:
The argument item is data to be extracted from the extraction target, and the transmission item is data to be transmitted to the transmission target:
The business process generation unit,
reading a detailed process list from process contents defined as references set in a business process algorithm provided to the user terminal;
reading unit items for a detailed process list of work processing targets; and
Generating the detailed process according to the order defined by the unit items selected from the user terminal; creating the detailed process through a process including:
The business process execution unit,
An execution command is generated and executed according to the detailed process generated by the work process generation unit, and the execution command is executed after processing the field value of the data according to the validation rule:
The work process sharing unit,
When creating a detailed process or unit process block excluding a detailed process or unit process block that confirms the completion of a work process, if the addition of a subsequent detailed process or unit process block is not confirmed within a preset time, the created detailed process or unit process block is deleted. A time key is added;
The setting time of the time key is set by adding a margin to the average value of the elapsed time according to the addition of the subsequent detailed process or unit process block of the previously created same detailed process or unit process block:
The work process algorithm,
When some unit process blocks or sub-processes are deleted in the combination of unit process blocks or sub-processes shared by the work process sharing unit, an abnormal situation occurs in the operation of the work process. A user-centered work process management system using a block chain, characterized in that it is configured to include a work process monitoring unit that provides the user with an alarm message.
According to claim 1,
The work process algorithm,
A user-centered work process management system using a block chain, characterized in that an ID is given and provided for each user terminal.
According to claim 1,
The work process algorithm,
A user-centered work process management system using a block chain, characterized in that it is provided to a user terminal connected to the cloud in a cloud environment, and an ID is provided for each user.
delete delete delete According to any one of claims 1 to 3,
The execution command is
A user-oriented business process management system using a block chain characterized by being composed of XML (eXtensible Markup Language: extensible creation language).
According to any one of claims 1 to 3,
The unit process block,
A user-centered work process management system using blockchain, characterized in that it consists of any one of the purchase process, production process, order process, planning process, storage process, delivery process, or return process.
According to claim 1,
The business process execution unit,
If the execution command by the detailed process is a logistics warehousing order,
A user-centered work process management system using a block chain, characterized in that the storage location is calculated according to the type of logistics or the owner information of the logistics and included in the execution command.
According to claim 1,
The business process execution unit,
If the execution command by the detailed process is a logistics release order,
A user-centered work process management system using blockchain, characterized in that the location of shipment of logistics is calculated according to the storage period of logistics compared to the expiration date of logistics and included in the execution command.