CN114357192B - DIKW-based content integrity modeling and judging method - Google Patents

Abstract

The invention provides a content integrity modeling and judging method based on DIKW, which comprises the following steps: the sender and the receiver establish a sender DIKW content map model and a receiver DIKW content map model based on DIKW; and respectively carrying out integrity judgment on the transmission contents of the sender and the receiver; if the sender DIKW content map model and the receiver DIKW content map model judge that the transmission contents of the sender and the receiver accord with the integrity, the sender and the receiver transmit the contents; if the sender DIKW content map model and the receiver DIKW content map model judge that the transmission contents of the sender and the receiver do not accord with the integrity, the sender DIKW content map model and the receiver DIKW content map model respectively carry out mark interception on the transmission contents of the sender and the receiver; and the transmission contents of the sender and the receiver are decomposed and recombined by marking and intercepting the transmission contents. The invention can judge the integrity of the transmission content, thereby improving the efficiency of the transmission content.

Description

DIKW-based content integrity modeling and judging method

Technical Field

The invention relates to the technical field of transmitted content, in particular to a content integrity modeling and judging method based on DIKW.

Background

With the development of networks, people also use the networks to transmit contents, and the contents are transmitted between a sender and a receiver at any time, however, whether the transmitted contents are complete or not is determined qualitatively on the transmitted contents, which finally results in that the sender and the receiver cannot receive the transmitted contents of both parties completely, thereby reducing the efficiency of transmitting the contents.

Disclosure of Invention

Accordingly, it is an object of the present invention to provide a DIKW-based content integrity modeling and determination method to solve at least the above problems.

The technical scheme adopted by the invention is as follows:

A method for modeling and judging content integrity based on DIKW, the method comprising the steps of:

s1, a sender and a receiver establish a sender DIKW content map model and a receiver DIKW content map model based on DIKW;

S2, the sender DIKW content map model and the receiver DIKW content map model respectively carry out integrity judgment on the transmission contents of the sender and the receiver;

s3, if the sender DIKW content map model and the receiver DIKW content map model judge that the transmission contents of the sender and the receiver accord with the integrity, the sender and the receiver transmit the contents;

S4, if the sender DIKW content map model and the receiver DIKW content map model judge that the transmission contents of the sender and the receiver do not accord with the integrity, the sender DIKW content map model and the receiver DIKW content map model respectively carry out marking interception on the transmission contents of the sender and the receiver;

S5, the sender DIKW content map model and the receiver DIKW content map model decompose and reorganize the transmission content of which the transmission content of the sender and the receiver is subjected to marking interception.

Further, the sender DIKW content profile includes different sender type resource profiles, the type resources that constitute the sender type resource profile include a sender data resource, a sender information resource, a sender knowledge resource, and an intention resource, the receiver DIKW content profile includes different receiver type resource profiles, and the type resources that constitute the receiver type resource profile include a receiver data resource, a receiver information resource, a receiver knowledge resource, and a receiver intention resource.

Further, in step S2, the integrity determination includes a determination that the data resource, the information resource, the knowledge resource, and the intention resource are inconsistent, a determination that the data resource, the information resource, the knowledge resource, and the intention resource are incorrect, and a determination that the data resource, the information resource, the knowledge resource, and the intention resource are inaccurate.

Further, in step S3, the integrity determination of the transmission contents of the sender and the receiver by the sender DIKW content map model and the receiver DIKW content map model respectively specifically includes: the sender DIKW content graph model performs integrity judgment on the sender data resource, the sender information resource, the sender knowledge resource, and the sender intention resource with the inconsistent judgment standard, the incorrect judgment standard, and the inaccurate judgment standard in the sender DIKW content graph model, and the receiver DIKW content graph model performs integrity judgment on the receiver data resource, the receiver information resource, the receiver knowledge resource, and the receiver intention resource with the inconsistent judgment standard, the incorrect judgment standard, and the inaccurate judgment standard in the receiver DIKW content graph model.

Further, in step S4, the marking interception of the transmission contents of the sender and the receiver by the sender DIKW content map model and the receiver DIKW content map model is specifically: the sender DIKW content graph model and the receiver DIKW content graph model respectively label and intercept data resources, information resources, knowledge resources and intention resources, which respectively meet inconsistent judgment standards, incorrect judgment standards and inaccurate judgment standards.

Further, in step S5, the sender DIKW content map model and the receiver DIKW content map model decompose and reorganize the transmission content of the sender and the receiver, where the transmission content is intercepted by the marking, specifically: the sender DIKW content graph model and the receiver DIKW content graph model decompose the data resources, information resources, knowledge resources and intent resources intercepted by the respective tags.

Further, before the sender DIKW content map model and the receiver DIKW content map model respectively perform integrity judgment on the transmission contents of the sender and the receiver, the sender DIKW content map model and the receiver DIKW content map model respectively perform data resource, information resource, knowledge resource and intention resource type division on the transmission contents of the sender and the receiver.

Compared with the prior art, the invention has the beneficial effects that:

The invention provides a content integrity modeling and judging method based on DIKW, which is characterized in that a sender DIKW content map model and a receiver DIKW content map model which are established by a sender and a receiver based on DIKW are used for carrying out integrity judgment on transmission content through the sender DIKW content map model and the receiver DIKW content map model, carrying out mark interception on transmission content which does not meet the integrity, and then carrying out decomposition and recombination on the transmission content which is intercepted by the mark through the sender DIKW content map model and the receiver DIKW content map model so as to meet the integrity requirement, thereby being capable of rapidly meeting the transmission content requirements of the sender and the receiver and further being capable of improving the efficiency of the transmission content.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only preferred embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic overall flow chart of a content integrity modeling and judging method based on DIKW according to an embodiment of the present invention.

Detailed Description

The principles and features of the present invention are described below with reference to the drawings, the illustrated embodiments are provided for the purpose of illustrating the invention and are not to be construed as limiting the scope of the invention.

Referring to fig. 1, the present invention provides a content integrity modeling and judging method based on DIKW, the method comprising the steps of:

s1, a sender and a receiver establish a sender DIKW content map model and a receiver DIKW content map model based on DIKW;

S2, the sender DIKW content map model and the receiver DIKW content map model respectively carry out integrity judgment on the transmission contents of the sender and the receiver;

s3, if the sender DIKW content map model and the receiver DIKW content map model judge that the transmission contents of the sender and the receiver accord with the integrity, the sender and the receiver transmit the contents;

S4, if the sender DIKW content map model and the receiver DIKW content map model judge that the transmission contents of the sender and the receiver do not accord with the integrity, the sender DIKW content map model and the receiver DIKW content map model respectively carry out marking interception on the transmission contents of the sender and the receiver;

S5, the sender DIKW content map model and the receiver DIKW content map model decompose and reorganize the transmission content of which the transmission content of the sender and the receiver is subjected to marking interception.

The integrity of the transmission content is judged through the sender DIKW content spectrum model and the receiver DIKW content spectrum model established by the sender and the receiver based on DIKW, the transmission content which does not meet the integrity is intercepted through the sender DIKW content spectrum model and the receiver DIKW content spectrum model, and the intercepted transmission content is decomposed and recombined through the sender DIKW content spectrum model and the receiver DIKW content spectrum model to meet the integrity requirement, so that the transmission content requirements of the sender and the receiver can be met rapidly, and the efficiency of the transmission content can be improved.

The sender DIKW content profile includes different sender type resource profiles, the type resources constituting the sender type resource profile include a sender data resource, a sender information resource, a sender knowledge resource and an intention resource, the receiver DIKW content profile includes different receiver type resource profiles, and the type resources constituting the receiver type resource profile include a receiver data resource, a receiver information resource, a receiver knowledge resource and a receiver intention resource.

Illustratively, there is no specific meaning without context, not associated with a particular purpose of a human being. The information resource is used for analyzing and expressing the interaction relationship between two entities, the entities can be people or things, the entities can be obtained directly through typed targets or can be obtained through conversion of data resources and information resources, and the knowledge resources are obtained through structural and formal statistics and deduction of the data resources and the information resources, and are generalized summary of abstract entity relationship on the basis of the information resources. The intention resource is a specific thing to be done or a result to be obtained by an individual, the intention resource is taken into consideration by combining the intention resource and the data resource into an information resource, and the intention resource is mapped with the related data resource, information resource and knowledge resource, and the intention resource has a relation of inclusion, cascade connection and the like.

In step S2, the integrity determination includes a data resource, an information resource, a knowledge resource, and an intention resource inconsistency determination, a data resource, an information resource, a knowledge resource, and an intention resource incorrect determination, and a data resource, an information resource, a knowledge resource, and an intention resource inaccurate determination.

By dividing the integrity judgment into the inconsistency judgment, the incorrect judgment and the imprecise judgment, the transmission content can be more efficiently transmitted when the sender and the receiver transmit data resources, information resources, knowledge resources and intention resources.

In step S3, the integrity judgment of the transmission contents of the sender and the receiver by the sender DIKW content map model and the receiver DIKW content map model respectively specifically includes: the sender DIKW content graph model performs integrity judgment on the sender data resource, the sender information resource, the sender knowledge resource, and the sender intention resource with the inconsistent judgment standard, the incorrect judgment standard, and the inaccurate judgment standard in the sender DIKW content graph model, and the receiver DIKW content graph model performs integrity judgment on the receiver data resource, the receiver information resource, the receiver knowledge resource, and the receiver intention resource with the inconsistent judgment standard, the incorrect judgment standard, and the inaccurate judgment standard in the receiver DIKW content graph model.

Illustratively, when the sender and the receiver want to transmit contents, the sender DIKW content graph model and the receiver DIKW content graph model are used for judging the integrity of the transmitted contents according to the inconsistent judgment standard, the incorrect judgment standard and the inaccurate judgment standard with respect to the transmitted contents of the information resource, the receiver knowledge resource and the receiver intention resource, and only the transmitted contents with the integrity judgment can be transmitted to both sides.

In step S4, the sender DIKW content map model and the receiver DIKW content map model respectively label and intercept the transmission contents of the sender and the receiver specifically: the sender DIKW content graph model and the receiver DIKW content graph model respectively label and intercept data resources, information resources, knowledge resources and intention resources, which respectively meet inconsistent judgment standards, incorrect judgment standards and inaccurate judgment standards.

Illustratively, the sender DIKW content map model and the receiver DIKW content map model respectively mark and intercept data resources, information resources, knowledge resources and intention resources that meet inconsistent judgment standards, incorrect judgment standards and inaccurate judgment standards, and the sender and the receiver can adjust the next transmitted content by checking the marked and intercepted transmitted content so as to meet the needs of integrity.

In step S5, the sender DIKW content map model and the receiver DIKW content map model decompose and reorganize the transmission content of the sender and the receiver for performing the mark interception specifically: the sender DIKW content graph model and the receiver DIKW content graph model decompose the data resources, information resources, knowledge resources and intent resources intercepted by the respective tags.

Illustratively, the sender DIKW content map model and the receiver DIKW content map model reassemble the data resources, the information resources, the knowledge resources and the intention resources intercepted by the respective marks according to the coincidence judgment standard, the correct judgment standard and the accurate judgment standard, and the transmission contents after the reassembling meet the integrity requirement, so that the sender and the receiver can transmit the content

Before the sender DIKW content map model and the receiver DIKW content map model respectively perform integrity judgment on the transmission contents of the sender and the receiver, the sender DIKW content map model and the receiver DIKW content map model respectively perform data resource, information resource, knowledge resource and intention resource type division on the transmission contents of the sender and the receiver.

Illustratively, by dividing the types of the transmission contents, the sender DIKW content profile model and the receiver DIKW content profile model can quickly divide the transmission contents of the sender and the receiver, thereby improving the transmission efficiency of the sender and the receiver.

The foregoing description of the preferred embodiments of the invention is not intended to limit the invention to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the invention are intended to be included within the scope of the invention.

Claims (6)

1. A method for modeling and judging content integrity based on DIKW, the method comprising the steps of:

s1, a sender and a receiver establish a sender DIKW content map model and a receiver DIKW content map model based on DIKW;

S2, the sender DIKW content map model and the receiver DIKW content map model respectively carry out integrity judgment on the transmission contents of the sender and the receiver;

S3, if the sender DIKW content map model and the receiver DIKW content map model judge that the transmission contents of the sender and the receiver accord with the integrity, the sender and the receiver transmit the contents, and the sender DIKW content map model and the receiver DIKW content map model respectively judge the integrity of the transmission contents of the sender and the receiver specifically comprises the following steps: the sender DIKW content graph model performs integrity judgment on the sender data resource, the sender information resource, the sender knowledge resource and the sender intention resource with the inconsistent judgment standard, the incorrect judgment standard and the inaccurate judgment standard in the sender DIKW content graph model respectively, and the receiver DIKW content graph model performs integrity judgment on the receiver data resource, the receiver information resource, the receiver knowledge resource and the receiver intention resource with the inconsistent judgment standard, the incorrect judgment standard and the inaccurate judgment standard in the receiver DIKW content graph model;

S4, if the sender DIKW content map model and the receiver DIKW content map model judge that the transmission contents of the sender and the receiver do not accord with the integrity, the sender DIKW content map model and the receiver DIKW content map model respectively carry out marking interception on the transmission contents of the sender and the receiver;

S5, the sender DIKW content map model and the receiver DIKW content map model decompose and reorganize the transmission content of which the transmission content of the sender and the receiver is subjected to marking interception.

2. The DIKW-based content integrity modeling and determination method of claim 1, wherein the sender DIKW content profile comprises different sender type resource profiles, type resources comprising sender type resource profiles comprise sender data resources, sender information resources, sender awareness resources, and intent resources, the receiver DIKW content profile comprises different receiver type resource profiles, and type resources comprising receiver data resources, receiver information resources, receiver knowledge resources, and receiver intent resources.

3. The DIKW-based content integrity modeling and determination method as claimed in claim 2, wherein in step S2, the integrity determination includes a data resource, an information resource, a knowledge resource, and an intention resource inconsistency determination, a data resource, an information resource, a knowledge resource, and an intention resource incorrect determination, and a data resource, an information resource, a knowledge resource, and an intention resource inaccurate determination.

4. The DIKW-based content integrity modeling and determination method as claimed in claim 3, wherein in step S4, the sender DIKW content graph model and the receiver DIKW content graph model respectively label and intercept transmission contents of the sender and the receiver specifically: the sender DIKW content graph model and the receiver DIKW content graph model respectively label and intercept data resources, information resources, knowledge resources and intention resources, which respectively meet inconsistent judgment standards, incorrect judgment standards and inaccurate judgment standards.

5. The method for modeling and determining integrity of content based on DIKW as claimed in claim 1, wherein in step S5, the sender DIKW content graph model and the receiver DIKW content graph model decompose and reassemble the transmission content of the sender and the receiver, where the transmission content is intercepted by the tag, specifically: the sender DIKW content graph model and the receiver DIKW content graph model decompose the data resources, information resources, knowledge resources and intent resources intercepted by the respective tags.

6. The DIKW-based content integrity modeling and determination method of claim 2, wherein the sender DIKW content map model and the receiver DIKW content map model perform data resource, information resource, knowledge resource, and intention resource type division on the transmission contents of the sender and the receiver, respectively, before the sender DIKW content map model and the receiver DIKW content map model perform integrity determination on the transmission contents of the sender and the receiver, respectively.