CN107506179B - Interface prototype data generation method and computer equipment - Google Patents

Abstract

The present disclosure provides an interface prototype data generation method and computer equipment. The method comprises the following steps: loading business model data of an enterprise, wherein the business model data comprises a data model, a product model, a process model and an interface experience model, establishing a first constraint relation between the data model and the process model through an audit data entity, establishing a second constraint relation between the product model and the process model through an audit client-product-channel CPC adaptation model, and generating interface prototype data according to the data model, the product model, the process model, the first constraint relation, the second constraint relation and the interface experience model. According to the method and the equipment provided by the disclosure, the process model data is introduced in the generation process of the interface prototype data, the constraint relation between the process model and the product model and between the process model and the data model is established, and the accuracy of the data expression of the related business model in the interface prototype is obviously improved.

Description

Interface prototype data generation method and computer equipment

Technical Field

The invention relates to the field of data processing, in particular to an interface prototype data generation method and computer equipment.

Background

In the related art, Acure RP can be used for designing an interface prototype. However, this design lacks the record of the process, and the interaction designer or the demand analyzer needs to interpret other work exhibition-related processes, which negatively affects the generation of the interface prototype data and seriously affects the processing efficiency of the interface prototype data.

In addition, there is no constraint between the data in the Axure RP interface prototype, which results in large deviation between the generated interface prototype data and the actually required expressed interface prototype and low accuracy.

Disclosure of Invention

The invention provides an interface prototype data generation method and computer equipment, which utilize business model data such as a data model, a product model, a flow model, an interface experience model and the like of an enterprise, establish a constraint relation between the data model and the flow model through a check data entity, establish a constraint relation between the product model and the flow model through a check CPC, generate interface prototype data by utilizing the business model data and the constraint relation, introduce the flow model data in the generation process of the interface prototype data, establish the constraint relation between the flow model and the product model and the data model, remarkably improve the accuracy of the data expression of the relevant business model in the interface prototype, and the recorded flow model data is beneficial to improving the processing efficiency of the interface prototype data.

According to a first aspect of embodiments of the present invention, there is provided an interface prototype data generation method, which may include: loading business model data of an enterprise, wherein the business model data comprises a data model, a product model, a process model and an interface experience model; establishing a first constraint relation between the data model and the process model through the check data entity, establishing a second constraint relation between the product model and the process model through the check customer-product-channel CPC adaptation model, and generating interface prototype data according to the data model, the product model, the process model, the first constraint relation, the second constraint relation and the interface experience model.

In some embodiments, the process model includes five levels, where the first level is a description of the business process from an enterprise perspective, the second level is a description of the business process from a user perspective, the third level is a description of the business process from an activity perspective, the fourth level is a description of the business process from a task perspective, and the fifth level is a description of the business process from a step perspective.

In some embodiments, the data model includes entities, and the product model includes a base product, a product group, and a product line.

In some embodiments, the interface experience model is used for determining an interaction mode and a presentation mode of an interface, and one interface component in the interface experience model corresponds to one of the fifth-level steps in the process model.

In some embodiments, generating interface prototype data from the data model, the product model, the process model, the first constraint relationship, the second constraint relationship, and the interface experience model comprises: decomposing scenes in a scene pool into a fifth-level step in a flow model, instantiating the decomposed fifth-level step in the scene, determining an interface interaction rule according to the purpose of the decomposed fifth-level step, determining an associated entity and attributes of the entity according to the decomposed fifth-level step and the first constraint relation, determining product conditions and product attributes of an associated basic product according to the decomposed fifth-level step and the second constraint relation, using the determined entity and attributes of the entity, and the product conditions and product attributes of the basic product as data items for interface display, and associating the data items with interface components in the interface experience model to generate an interface display style.

In some embodiments, the third level activity is a section of business process, the fourth level task is work segmentation of the activity, and the fifth level step is information recording of the task divided into different steps according to rules, CPC and entities.

According to a second aspect of embodiments of the present invention, there is provided a computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing when executing the program: loading business model data of an enterprise, wherein the business model data comprises a data model, a product model, a process model and an interface experience model, establishing a first constraint relation between the data model and the process model through an audit data entity, establishing a second constraint relation between the product model and the process model through an audit client-product-channel CPC adaptation model, and generating interface prototype data according to the data model, the product model, the process model, the first constraint relation, the second constraint relation and the interface experience model.

In some embodiments, the process model includes five levels, where the first level is a description of the business process from an enterprise perspective, the second level is a description of the business process from a user perspective, the third level is a description of the business process from an activity perspective, the fourth level is a description of the business process from a task perspective, and the fifth level is a description of the business process from a step perspective.

In some embodiments, the data model includes entities, and the product model includes a base product, a product group, and a product line.

In some embodiments, the interface experience model is used for determining an interaction mode and a presentation mode of an interface, and one interface component in the interface experience model corresponds to one of the fifth-level steps in the process model.

In some embodiments, the processor generating interface prototype data from the data model, the product model, the process model, the first constraint relationship, the second constraint relationship, and the interface experience model comprises: decomposing scenes in a scene pool into a fifth-level step in a flow model, instantiating the decomposed fifth-level step in the scene, determining an interface interaction rule according to the purpose of the decomposed fifth-level step, determining an associated entity and attributes of the entity according to the decomposed fifth-level step and the first constraint relation, determining product conditions and product attributes of an associated basic product according to the decomposed fifth-level step and the second constraint relation, using the determined entity and attributes of the entity, and the product conditions and product attributes of the basic product as data items for interface display, and associating the data items with interface components in the interface experience model to generate an interface display style.

In some embodiments, the third level activity is a section of business process, the fourth level task is work segmentation of the activity, and the fifth level step is information recording of the task divided into different steps according to rules, CPC and entities.

According to the interface prototype data generation method and the computer equipment provided by the embodiment of the invention, the data model, the product model, the process model, the interface experience model and other business model data are loaded, the constraint relation between the data model and the product model and the process model is established, and the interface prototype data is generated based on the business model data and the constraint relation, so that the accuracy of the interface prototype on the business model data expression is obviously improved, and the accuracy of the interface prototype data display is further improved; moreover, flow models of different levels are introduced, and the corresponding relation between the steps in the flow models and the interface components is established, so that the expression perfection of the interface prototype on the flow model data is further improved, the data range of the interface prototype expression is expanded, and the data expression integrity and the practicability of the interface prototype are improved; moreover, the method is closer to a real system in the aspects of data and flow, and is convenient for subsequent usability analysis and test modification, so that the overall development cost can be saved.

Drawings

Fig. 1 is a flowchart illustrating an interface prototype data generating method according to an embodiment of the present invention.

FIG. 2 is a schematic diagram of the structure of business model data according to one embodiment of the invention.

FIG. 3 is a schematic diagram of interface prototype data generation according to one embodiment of the present invention.

FIG. 4 is a schematic diagram of a computer device according to an embodiment of the present invention.

Detailed Description

Various aspects of the invention are described in detail below with reference to the figures and the detailed description. Well-known modules, units and their interconnections, links, communications or operations with each other are not shown or described in detail. Furthermore, the described features, architectures, or functions can be combined in any manner in one or more implementations. It will be understood by those skilled in the art that the various embodiments described below are illustrative only and are not intended to limit the scope of the present invention. It will also be readily understood that the modules or units or processes of the embodiments described herein and illustrated in the figures can be combined and designed in a wide variety of different configurations.

Referring to fig. 1, fig. 1 is a schematic flow chart of an interface prototype data generation method according to an embodiment of the present invention, which may include:

s101, loading business model data of an enterprise, wherein the business model data comprises a data model, a product model, a process model and an interface experience model;

s102, establishing a first constraint relation between the data model and the process model through the check data entity, and establishing a second constraint relation between the product model and the process model through the check customer-product-channel CPC adaptation model;

and S103, generating interface prototype data according to the data model, the product model, the process model, the first constraint relation, the second constraint relation and the interface experience model.

The implementation mode of the invention can be suitable for the situations that the business model data is more perfect and the expression rule of the business model data is more complex and various, such as financial institutions like banks with various different business models and requirements.

In the embodiment of the invention, the generation of the interface operation data can be divided into three layers, specifically, the interface operation data comprises a structural layer, a data layer and a display layer. The structure layer records the structure and constraint relationships of the business model, such as the underlying data (data model structure), the data dictionary, and the basic model structure (e.g., flow model and product model). The data layer records the specific contents of the models, and can include texts, graphs, flowcharts and the like, for example. The presentation layer collectively presents the content, relationships, and interface prototypes (scenes) of the model.

Step S101, loading business model data such as a data model, a product model, a process model and an interface experience model through database operation and the like. In a specific embodiment, each model first establishes its own basic structure, and then establishes the relationship between different models.

As shown in FIG. 2, the data model may include entities, etc., and the product model may include base products, product groups, product lines, etc. The process model can be established into five levels from macro to micro, wherein the first level is description of business processes from an enterprise perspective, the second level is description of business processes from a user perspective, the third level is description of business processes from an activity perspective, the fourth level is description of business processes from a character perspective, and the fifth level is description of business processes from a step perspective.

In the process model, the third-level activity can be a section of business process, and the section of business process has a definite business purpose and can embody that a definite value is created for a client or a benefit related party. For example, "establish an electronic banking contract" and "establish a deposit contract" may both be considered a segment of a business process and belong to an activity. The fourth-level task is to further subdivide the third-level activity, the fourth-level task is to divide the work of a section of business process corresponding to the third-level activity, and the division is based on the principles of completeness, correctness, reusability and uniqueness. The fifth stage is to further subdivide the fourth stage task, which is to divide the fourth stage task into different steps according to rules, CPC (client-Product-Channel), entity and other information records.

The interface experience model can be used for determining an interaction mode and a display mode of an interface and can comprise an interaction mode and an interface component, wherein the interaction mode of the interface is determined by the interaction model, and the display mode of the interface is determined by the interface component. One interface component in the interface experience model corresponds to one of the fifth level steps in the process model. The business purpose in the fifth step may correspond to the interaction mode in the interface experience model, and determine the interaction rule of the interface.

The constraint relationship described in step S102 may be established at the level of the fifth step of the process model. The fifth stage performs different rules and different processing of data for different customers, products, channels and other variable factors in the process through a textual description record flow model. Therefore, the data model can establish a first constraint relation at the level of the fifth step through the checking data entity and the process model, and the product model can establish a second constraint relation at the level of the fifth step through the checking CPC adaptive model and the process model. According to the first constraint relation and the process model, entities in the associated data model and related attribute data information thereof can be determined. According to the second constraint relationship and the process model, data information of the associated product can be determined.

In step 103, interface prototype data is generated according to the business model data and the constraint relationship between the business model data. In the generation process of the interface prototype, the process model, the data model and the product model are used as the logic basis of the interface prototype, and the interface experience model is used as the layout, interaction and visual design basis of the prototype. The structure of an interface prototype can be divided into a scene pool, a scene, an instance, and an interface. The scene pool is an aggregation of scenes, and the scene pool fuzziness defines what issues a customer solves a product in a channel. In the scene section, a scene pool is instantiated. For example, the scene pool only presents the proposition of "opening an account for private customers", and the scene pool can be specifically decomposed into different scenes, such as scene one, "mr. 28 years old opens up a zodiac card account at a website," scene two, "mr. 7 years old opens up a zodiac card account for a son, and scene three ┈ ┈. The scenario consists of different instances, and may correspond to a third level activity, or may correspond to a fifth level step.

In some embodiments, the scenes in the scene pool are decomposed into bridge segments corresponding to the process model, and the bridge segments may correspond to third-level activities in the process model or fifth-level steps in the process model. In case the bridge segment of the scene disassembly corresponds to the fifth stage step, step 103 may comprise: dividing the scenes in the scene pool into fifth-level steps in the process model, instantiating the decomposed fifth-level steps in the scenes, specifically designing each interface prototype in the instances, for example, determining an interface interaction rule according to the business purpose of the decomposed fifth-level steps, determining an associated entity and attributes of the entity according to the decomposed fifth-level steps and a first constraint relation between the data model and the process model, determining product conditions and product attributes of an associated basic product according to the decomposed fifth-level steps and a second constraint relation between the product model and the process model, using the determined entity and attributes thereof and the product conditions and product attributes of the basic product as data items for interface display, and associating the determined data items with interface style components in the interface experience model to generate interface display.

The above-described embodiment can be demonstrated through a framework as shown in fig. 3, the scene pool 1 can be decomposed into scenes 10, the scenes can be further instantiated into instances 101 and 102, and the interfaces 1011 and 1022 can be obtained by performing specific interface design on the instances 101 and 102. The right side of fig. 3 shows the associated business model data, and the interface corresponds to the fifth level step of the process model 22, which generates the interface 25 together with the entities and their attributes in the data model 21, the basic products and conditions and attributes in the product model 23, and the interaction model and interface components in the experience model 24. Interface 25 may be one of the interfaces 1011 and 1022 shown on the left, each of which is involved in the processing of these business model data.

In still other embodiments, the scenario may be further broken down into bridge segments corresponding to a third level of activity of the flow model. Each activity is instantiated according to the scene requirement, the primary step of instantiation is to determine the trend in the gateway part of the activity flow chart according to the scene design, and finally a flow chart without branches is extracted from the scene. Each interface prototype in the example was specifically designed. In the specific design, the business purpose of the fifth-level step in the process model is read, the business purpose of the fifth-level step corresponds to the interaction model in the interface experience model, and the interaction rule of the interface is determined. And reading and selecting the entity attribute of the associated entity, the product condition of the basic product and the product attribute as an interface available field, namely a data item according to the business rule. And finally, specifically displaying the components for the available field association interfaces according to the layout and interaction rules of the interface experience model.

The interface prototype data generating method according to the present invention is described above with reference to the specific embodiments, and computer equipment to which the above interface prototype data generating method is applied will be described below.

As shown in fig. 4, the computer device 400 according to the embodiment of the present invention includes a memory 401, a processor 402, and a computer program stored in the memory and capable of running on the processor, and the processor executes the computer program to implement: loading business model data of an enterprise, wherein the business model data comprises a data model, a product model, a process model and an interface experience model, establishing a first constraint relation between the data model and the process model through an audit data entity, establishing a second constraint relation between the product model and the process model through an audit client-product-channel CPC adaptation model, and generating interface prototype data according to the data model, the product model, the process model, the first constraint relation, the second constraint relation and the interface experience model.

In some embodiments, the process model includes five levels, where the first level is a description of the business process from an enterprise perspective, the second level is a description of the business process from a user perspective, the third level is a description of the business process from an activity perspective, the fourth level is a description of the business process from a task perspective, and the fifth level is a description of the business process from a step perspective. The third-level activity is a section of business process, the fourth-level task is the work segmentation of the activity, and the fifth-level step is the information recording of different steps according to rules, CPC and entities.

In some embodiments, the data model includes entities, and the product model includes a base product, a product group, and a product line.

In some embodiments, the interface experience model is used for determining an interaction mode and a presentation mode of an interface, and one interface component in the interface experience model corresponds to one of the fifth-level steps in the process model.

In some embodiments, the processor generating interface prototype data from the data model, the product model, the process model, the first constraint relationship, the second constraint relationship, and the interface experience model comprises: decomposing scenes in a scene pool into a fifth-level step in a flow model, instantiating the decomposed fifth-level step in the scene, determining an interface interaction rule according to the purpose of the decomposed fifth-level step, determining an associated entity and attributes of the entity according to the decomposed fifth-level step and the first constraint relation, determining product conditions and product attributes of an associated basic product according to the decomposed fifth-level step and the second constraint relation, using the determined entity and attributes of the entity, and the product conditions and product attributes of the basic product as data items for interface display, and associating the data items with interface components in the interface experience model to generate an interface display style.

Through the above description of the embodiments, those skilled in the art will clearly understand that the present invention can be implemented by combining software and a hardware platform. With this understanding in mind, all or part of the technical solutions of the present invention that contribute to the background art may be embodied in the form of a software product, which can be stored in a storage medium, such as a ROM/RAM, a magnetic disk, an optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, a smart phone, or a network device, etc.) to execute the methods according to the embodiments or some parts of the embodiments.

The terms and expressions used in the specification of the present invention have been set forth for illustrative purposes only and are not meant to be limiting. It will be appreciated by those skilled in the art that changes could be made to the details of the above-described embodiments without departing from the underlying principles thereof. The scope of the invention is, therefore, indicated by the appended claims, in which all terms are intended to be interpreted in their broadest reasonable sense unless otherwise indicated.

Claims (6)

1. A method for generating interface prototype data, the method comprising:

loading business model data of an enterprise, wherein the business model data comprises a data model, a product model, a process model and an interface experience model, and the process model comprises five levels: the first level is the description of the business process from the enterprise perspective, the second level is the description of the business process from the user perspective, the third level is the description of the business process from the activity perspective, the fourth level is the description of the business process from the task perspective, and the fifth level is the description of the business process from the step perspective; the interface experience model is used for determining an interaction mode and a display mode of an interface, and one interface component in the interface experience model corresponds to one of the steps of the fifth level in the process model;

establishing a first constraint relation between the data model and the process model through the check data entity;

establishing a second constraint relation between the product model and the process model through a check customer-product-channel CPC adaptation model;

generating interface prototype data according to the data model, the product model, the process model, the first constraint relation, the second constraint relation and the interface experience model;

generating interface prototype data according to the data model, the product model, the process model, the first constraint relation, the second constraint relation and the interface experience model comprises the following steps: the method comprises the steps of decomposing scenes in a scene pool into a fifth level in a flow model, instantiating the decomposed fifth level steps in the scenes, determining interface interaction rules according to the purpose of the decomposed fifth level steps, determining associated entities and attributes of the entities according to the decomposed fifth level steps and the first constraint relation, determining product conditions and product attributes of associated basic products according to the decomposed fifth level steps and the second constraint relation, using the determined entities and the attributes of the entities, the product conditions and the product attributes of the basic products as data items of interface display, associating the data items with interface components in the interface experience model, and generating an interface display style.

2. The method of claim 1, wherein the data model comprises entities and the product model comprises a base product, a product group, and a product line.

3. The method of claim 1, wherein the activity of the third level is a section of business process, the task of the fourth level is work slicing on the activity, and the step of the fifth level is information recording according to rules, CPC and entities, for separating the task into different steps.

4. A computer device comprising a memory, a processor, and a computer program stored on the memory and operable on the processor, wherein the processor when executing the program implements:

loading business model data of an enterprise, wherein the business model data comprises a data model, a product model, a process model and an interface experience model, and the process model comprises five levels: the first level is the description of the business process from the enterprise perspective, the second level is the description of the business process from the user perspective, the third level is the description of the business process from the activity perspective, the fourth level is the description of the business process from the task perspective, and the fifth level is the description of the business process from the step perspective; the interface experience model is used for determining an interaction mode and a display mode of an interface, and one interface component in the interface experience model corresponds to one of the steps of the fifth level in the process model;

establishing a first constraint relation between the data model and the process model through the check data entity;

establishing a second constraint relation between the product model and the process model through a check customer-product-channel CPC adaptation model;

generating interface prototype data according to the data model, the product model, the process model, the first constraint relation, the second constraint relation and the interface experience model;

generating interface prototype data according to the data model, the product model, the process model, the first constraint relation, the second constraint relation and the interface experience model comprises the following steps: the method comprises the steps of decomposing scenes in a scene pool into a fifth level in a flow model, instantiating the decomposed fifth level steps in the scenes, determining interface interaction rules according to the purpose of the decomposed fifth level steps, determining associated entities and attributes of the entities according to the decomposed fifth level steps and the first constraint relation, determining product conditions and product attributes of associated basic products according to the decomposed fifth level steps and the second constraint relation, using the determined entities and the attributes of the entities, the product conditions and the product attributes of the basic products as data items of interface display, associating the data items with interface components in the interface experience model, and generating an interface display style.

5. The computer device of claim 4, wherein the data model comprises entities and the product model comprises a base product, a product group, and a product line.

6. The computer device of claim 4, wherein the activity of the third level is a segment of a business process, the task of the fourth level is work-slicing of the activity, and the step of the fifth level is information recording of the task divided into different steps according to rules, CPC and entities.

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