CN113645284A - Intention-driven multi-mode DIKW content transmission method - Google Patents

Abstract

The invention provides an intention-driven multi-mode DIKW content transmission method, which is applied to a transmission system based on a DIKW atlas transmission protocol, wherein the DIKW atlas transmission protocol comprises an intention identification layer, a content examination layer, a transmission planning layer and a resource processing layer.

Description

Intention-driven multi-mode DIKW content transmission method

Technical Field

The invention relates to the technical field of data transmission, in particular to an intention-driven multi-mode DIKW content transmission method.

Background

With the continuous development of the internet, the scale of resource transmission is also continuously expanding, a communication protocol is a rule system for managing resource transmission, resource exchange transmission between two or more entities is normalized by establishing rule constraints, transmission resources exist in different forms in a transmission chain, such as texts, images, videos, audios and the like, and the transmission resources are collectively referred to as user-generated content (UGC). The UGC is a carrier of the transmission intention of the sender, interpretation of the transmission intention of the sender is crucial in the transmission process, wrong interpretation of the transmission intention of the sender can cause deviation of the implementation direction of the transmission intention of the subsequent sender, and transmission failure or resource waste is finally caused. The existing computer communication protocol can only simply follow the main purpose that a sender sends transmission resources to a receiver, and cannot reduce resource loss in the transmission process and improve economic benefit on the basis of reading user intention, and improvement is needed.

Disclosure of Invention

In view of the above, the present invention provides an intent-driven multi-modal DIKW content transmission method, so as to overcome or at least partially solve the above problems in the prior art.

In order to achieve the above object, the present invention provides an intention-driven multi-modal didw content transmission method, which is applied to a transmission system based on a didw atlas transmission protocol, where the didw atlas transmission protocol includes an intention identification layer, a content review layer, a transmission plan making layer, and a resource processing layer, and the method includes the following steps:

s101, inputting user generated content to be transmitted into an intention identification layer, carrying out intention identification on the user generated content by the intention identification layer, constructing an intention model of a participating subject and outputting the intention of the participating subject, wherein the participating subject comprises a transmitter, a transmission system and a receiver, and the intention model of the participating subject comprises the intention of the participating subject and the intention priority thereof;

s102, inputting the intention of the participating subject and the user generated content into a content review layer, reviewing and judging whether the intention of the participating subject and the user generated content meet the standard conditions by a content review module, outputting an intention review result if the intention review result meets the standard conditions, and performing the next step;

s103, the transmission plan making layer obtains the intention examining result and generates a transmission scheme based on the intention of the participating subject;

and S104, inputting the transmission scheme into a resource processing layer, and processing the user generated content by the resource processing layer according to the transmission scheme and transmitting the user generated content to a receiver by the resource processing layer.

Further, the regulation condition comprises a legal moral regulation condition, a blacklist regulation condition and a system rule regulation condition.

Further, the intended review result is one of non-transferable, direct transfer, and tape-and-play transferable.

Further, when the intention review result is that the transmission is not possible, the transmission process is terminated; when the intention examination result is direct transmission, the resource processing layer directly transmits the user generated content to the receiver; when the result of the intention review is that the tape piece is transmittable, step S103 is performed.

Further, when the intention of the transmitter is accurate, the transmission scheme is generated based on the intention of the participating subject, specifically: judging whether the size of the user generated content to be transmitted is larger than the transmission capacity, judging whether the time required for transmitting all the user generated content is larger than the expected transmission time, wherein the time required for transmitting all the user generated content is called as the actual transmission time, and if the size of the user generated content is larger than the transmission capacity or the actual transmission time is larger than the expected transmission time, extracting effective content in the user generated content as transmission content.

Further, if the intention of the transmitter is inaccurate or there are multiple intentions of the transmitter, the generating the transmission scheme based on the intention of the participating subject specifically includes:

s201, decomposing user generated content to be transmitted into a plurality of resource packages according to the intention of a transmitter;

s202, sequencing the resource packets from high to low based on the importance degree of the intention realization of the transmitter to form a resource packet sequence;

and S203, traversing the resource packet sequence in sequence, and stopping transmitting the resource packets which are not traversed when the traversed resource packets in the resource packet sequence can meet the intention of a transmitter.

Further, the intention identification layer performs intention identification on the user-generated content, specifically: and generating an intention tree by taking the unique parent intention of the transmitter as a root node, and continuously extending the intention tree to more accurate child intentions by calling known DIKW map resources related to the transmitter, the receiver and the user generated content to be transmitted until the most accurate intention which can be reached by the existing resources and the calculation cost is reached.

Further, in step S104, when the system determines that the probability that the receiver cannot understand the intention of the transmitter is greater than a preset threshold according to the didw atlas of the receiver, the resource of the user-generated content to be transmitted is supplemented.

Furthermore, the intention priority is sequentially the intention of the transmitter, the intention of the receiver and the intention of the transmission system from high to low, and when the intentions of different participating subjects conflict in the transmission process, the system preferentially meets the intention of the participating subject with high intention priority.

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

the intention-driven multi-mode DIKW content transmission method provided by the invention is based on understanding and analyzing the intentions of three participating bodies, namely a transmitter, a receiver and a transmission system, realizes maximization of self interests while meeting the intentions of the transmitter and the receiver as far as possible by promoting balance among the intentions of the three participating bodies in the transmission process, analyzes and models the content generated by a user and the intentions of the participating bodies in the transmission process by applying a DIKW technology, and can obtain a more ideal transmission result which is more in line with the requirements of the user at a lower transmission cost compared with the existing computer communication protocol.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is apparent that the drawings in the following description are only preferred embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without inventive efforts.

Fig. 1 is a schematic overall flow chart of an intention-driven multi-modal DIKW content transmission method according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of a relationship between a parent intent and a child intent according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of a resource sorting process according to an embodiment of the present invention.

FIG. 4 is an OBJ-based object oriented presentation system provided by an embodiment of the present invention₁A simple data map of (a).

Fig. 5 is a tree of transmitter intents provided by an embodiment of the present invention.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, the illustrated embodiments are provided to illustrate the invention and not to limit the scope of the invention.

The embodiment provides an intention-driven multi-mode DIKW content transmission method, which is applied to a transmission system based on a DIKW map transmission protocol, wherein the DIKW map transmission protocol comprises an intention identification layer, a content review layer, a transmission plan making layer and a resource processing layer, each layer has specific input and output, after the work of the upper layer is completed, the work of the lower layer is started, the modeling process of the DIKW map penetrates through the transmission protocol, and the content of the DIKW map is continuously enriched and optimized in the transmission process. Referring to fig. 1, the method includes the steps of:

s101, inputting user generated content to be transmitted into an intention identification layer, carrying out intention identification on the user generated content by the intention identification layer, constructing an intention model of a participating subject and outputting the intention of the participating subject, wherein the participating subject comprises a transmitter, a transmission system and a receiver, and the intention model of the participating subject comprises the intention of the participating subject and the intention priority thereof.

In this embodiment, the DIKW map transmission protocol operates under the driving of intention, so intention recognition is the first layer of the DIKW map transmission protocol, which is directly interfaced with a transmitter. The input of the intention recognition layer includes a transmitter (send) and a Receiver (REV) in addition to the user-generated content to be transmitted, and the output thereof includes a combination of the transmitter intention and the Receiver intention.

The sender is the initiator of the transmission process, driving the start of the transmission process, the sender's intent determines the direction of the transmission, the resources that the system can obtain from the sender include user generated content, the recipient, and the recipient's desire or response requests, the recipient's intent has the highest priority among all participating principals, exceptions exist in paid transmissions, and the recipient's intent has a higher priority than the sender's intent when the recipient initiates the paid transmission.

The recipient intention is a specification of whether the recipient receives the transmission and the form of the received content, which is a passive process, but the recipient also has some positive rights to be covered in the recipient intention, e.g. the recipient has the right to reject the transmission of the content from a certain transmitter based on a blacklist set before the transmission, and at a moral level, race habits, religious contraindications, regional customs, etc. may also be the content included in the recipient intention.

The intent of the delivery system is a requirement for some system to save computational resources or reduce cost, the delivery system being responsible for serving both the sender and the recipient, so the intent priority of the delivery system intent is lowest. The transmission system intent is also part of the value model, which consists of different reference values in the transmission process. For example, the primary reference value during operation of the transmission system is a regulatory constraint, the secondary reference value is a system profit maximization, and the remaining sub-values include a time loss, a space loss, and a cost loss reduction, etc., and the transmission system may select a transmission scheme most favorable for its own intention without affecting satisfaction of the transmitter intention and the receiver intention.

And S102, inputting the intention of the participating subject and the user generated content into a content review layer, reviewing and judging whether the intention of the participating subject and the user generated content meet the standard conditions by a content review module, outputting an intention review result if the intention review result meets the standard conditions, and carrying out the next step.

Illustratively, the content review layer is the second layer of the didw atlas content transport protocol, and the main review criteria include legal ethics, blacklist and system rules.

Specifically, the legal ethical specification condition is a part of the intention of the transmission system, all works of the DIKW map transmission protocol run under the legal and ethical constraints, and the intention of participating in the subject should not override the laws and ethical constraints. In the content review layer, the system will determine whether the obtained intent of the participating subject meets preset legal and ethical requirements, for example, illegal resources will not be allowed to be transmitted, and if the recipient is a minor, the limitation on the transmitted content will be further increased.

The blacklist specification conditions belong to content in the recipient's intention, and are set in advance by the recipient, for example, a blacklist of transmitters, which indicates that the recipient refuses to accept the transmission of content from some transmitters, the content in the blacklist specification conditions may be dynamically changed, and the recipient has the right to refuse resources from a specific transmitter, or refuse resources with a specific keyword or a specific type.

The system rule specification condition is a representation of the intention of the transmission system, and the transmission system operates transmission with its own interest maximization as a target in the case of satisfying the intention of the transmitter and the intention of the receiver, for example, selecting an idle transmittable device to perform a transmission task, delaying transmission if allowed, and the like.

The input of the content examination layer comprises the intention of participating in the main body and the user generated content to be transmitted, and the output is the intention examination result which comprises one of non-transmission, direct transmission and strip-condition transmission.

S103, the transmission planning layer obtains the intention examination result and generates a transmission scheme based on the intention of the participating subject.

In the present embodiment, the transmission planning layer is configured to propose a solution to a condition in the strip-to-strip-conditional transmissibility output by the previous layer, while making an optimum transmission scheme that does not affect the intention of the transmitter and the intention of the receiver with reference to the transmission system intention.

And S104, inputting the transmission scheme into a resource processing layer, and processing the user generated content by the resource processing layer according to the transmission scheme and transmitting the user generated content to a receiver by the resource processing layer.

The resource processing layer is the last layer of the DIKW atlas transmission protocol and is in butt joint with a receiver. And the resource processing layer is used for transmitting the user generated content to the receiver after meeting the intention of the participation subject.

Specifically, in step S102, if the result of the intention review is that transmission is not possible, it indicates that the intention of the participating subject violates a certain specification condition, and the transmission process is terminated. And if the intention examination result is direct transmission, the transmission plan is not generated through the transmission plan making layer, and the user generated content is directly sent to the specified receiver through the resource processing layer. When the result of the intention examination is that the tape file can be transmitted, the third layer of the DIKW map transmission protocol, namely the transmission scheme making layer, is entered to start working.

In this embodiment, the intention of the participating subject may be divided into a parent intention and a child intention, the child intention is a branch of the parent intention, and the parent intention may include all the child intentions or may include only one child intention. If the intention of the participating subject is considered as one of the data resources of the typed resource in the DIKW atlas, the parent intention is the scope type data containing one or more child intentions. The sub-intents may continue to be divided into secondary sub-intents, tertiary sub-intents, and so on.

As an optional implementation manner, the intention identifying layer performs intention identification on the user-generated content, specifically: and generating an intention tree by taking the unique parent intention of the transmitter as a root node, and continuously extending the intention tree to more accurate child intentions by calling known DIKW map resources related to the transmitter, the receiver and the user generated content to be transmitted until the most accurate intention which can be reached by the existing resources and the calculation cost is reached.

All transmissions can be collectively summarized as a unique parent intention, namely that a transmitter wants to express a certain content to a receiver, and the transmission content can be various in forms, mainly comprising four types of characters, pictures, videos and audios. As shown in fig. 2, four child intents may be partitioned from the parent intention "Show soving to REV", and the "soving" of the parent intention is replaced by four types of transmission contents, respectively. In the intention system, a plurality of child intents under a parent intention can be in a coexistence relationship rather than an exclusion relationship, and the same child intention can belong to two different parent intents, for example, four types of transmission contents of characters, pictures, videos and audios in fig. 2 can exist in one transmission at the same time.

As an alternative implementation, the solution of the transmission planning layer to the transmission condition mainly includes resource centralization and resource ordering.

In particular, the resource concentration is applicable to the case where the intention of the transmitter is accurate. When the intention of the transmitter is accurate, the transmission planning layer generates a transmission scheme with concentrated resources, specifically: judging whether the size of the user generated content to be transmitted is larger than the transmission capacity and/or judging whether the time required for transmitting all the user generated content is larger than the expected transmission time, wherein the time required for transmitting all the user generated content is called as the actual transmission time, and if the size of the user generated content is larger than the transmission capacity and/or the actual transmission time is larger than the expected transmission time, extracting effective content in the user generated content as transmission content for transmission.

The resource ordering is applicable to the case where the precision of the transmitter intention is not high or a plurality of transmitter intentions coexist. When the intention of the transmitter is inaccurate or multiple intentions of the transmitter exist, the transmission planning layer generates a transmission scheme of resource sequencing, and referring to fig. 3, the method specifically includes the following steps:

s201, decomposing user generated content to be transmitted into a plurality of resource packages according to the intention of a transmitter;

s202, sequencing the resource packets from high to low based on the importance degree of the intention realization of the transmitter to form a resource packet sequence;

and S203, traversing the resource packet sequence in sequence, and stopping transmitting the resource packets which are not traversed when the traversed resource packets in the resource packet sequence can meet the intention of a transmitter.

For example, in the case where multiple transmitters intend to coexist, there are multiple possible resource packet sequences for transmission, and transmission can be performed simultaneously in multiple sequences. In some other embodiments, the transmission system further provides a resource encryption service for charging, and the resource ordering may make an encryption transmission scheme with the highest cost performance for the user, for example, a resource packet in the front of the resource packet sequence is strongly encrypted, a resource packet in the middle of the resource packet sequence is weakly encrypted, and a resource packet in the back of the resource packet sequence may not be encrypted.

As an optional implementation, the resource processing layer also performs certain supplementation and optimization on the transmission content after meeting the intention of participating in the subject. Specifically, in step S104, when the transmission system determines, according to the didw atlas of the receiver, that the probability that the transmitter cannot understand the intention of the transmitter is greater than the preset threshold, that is, the receiver may not fully understand the intention of the transmitter, the resource processing layer may appropriately supplement the transmission content, for example, for the translation of different language characters. Resource replenishment can expand the content of the UGC, so resource replenishment serves as an auxiliary function of the resource processing layer in this embodiment.

The technical solution of the present invention is illustrated by a specific example below:

in a transmission process, a transmitter A transmits a content Text to a receiver B₁And Image₁，Text₁And Image₁All belong to data resources, which are numbered D by the transmission system₁And D₂The transmitter intent is initially defined as the transmission of text and pictures to receiver B. Wherein D₁Is "Here", D₂The content of the picture is a picture in the coffee shop, and the picture content comprises in-shop decoration scenes such as tables and chairs, bar counters, blackboards, lamps and the like and streets outside windows.

Identifying the intention of the transmitter, comprising the following steps:

first, for D₁Typing, it can be known that "Here" belongs to a subclass of "Location", so that it is informed that the Location information may be a sub-intention of the transmitter intention, with IIT_A1IIT indicating the intention of the transmitter_A1"Tell the location message to B". Second pair D₂The contents in (1) are semantically object-recognized to recognize a plurality of Objects (OBJ) including a blackboard, and the OBJ is applied to each of the objects_1～NNumbering is performed. DIKW modeling can promote interest in participating subjectsRecognition of patterns, e.g. OBJ₁For blackboard, with OBJ₁A simple data map centered on is shown in figure 4. D can be determined based on the content of the data map of FIG. 4, driven by the intent of the transmission system and the application of empirical knowledge rules₂The scenario in (1) is likely to be a coffee shop, when the transmitter intends IIT_A1The "location message" in (1) may be updated to the "location of this Cafe".

In the case of no more transmission content conditions, according to the past empirical knowledge rule and the calling of the existing DIKW map, the transmitter intention tree shown in FIG. 5 can be drawn, and the lower half of FIG. 5 is the possible transmitter intention, as shown below, IIT_Sed4Is IIT_Sed1And IIT_Sed2Possible sub-intents.

IIT_Sed1＝“Tell B where A is”；

IIT_Sed2＝“Tell the appointed place to B”；

IIT_Sed3＝“Recommend the Cafe to B”；

IIT_Sed4＝“Inform B to come to the Cafe”。

Content review is next performed by the content review layer. The DIKW map of the system calling transmission system intention is used for judging D under the condition of legal moral standard₁And D₂The two transmission contents are legal and output as Direct-transmissible. The system calls a DIKW map related to the intention of a receiver, traverses the map, finds that the receiver sets resource transmission more than 500M to be received after the resource transmission needs to be agreed by the receiver due to insufficient mobile phone flow, and outputs the result as transmittable with conditions acknowledged. By combining the two outputs, the transmission planning layer needs to process the transmission content.

The transmission plan making layer performs resource centralization processing on the transmission content according to the output result of the content examining layer, and the resource centralization processing method specifically comprises the following steps: receiver intent pair D₂Sampling processing is carried out, and the size of the picture is reduced to be below 500M; carrying out montage cutting on the picture based on the intention of the transmitter, combining with the DIKW map of the receiver, and preferentially transmitting D₂In the method, help to identifyBlackboard and outdoor scenery in specific geographical positions.

The system calls the DIKW map of the receiver, and finds that whether the receiver knows the specific position of the coffee shop or not can not be judged according to the DIKW map analysis, and whether the requirement of the intention of the transmitter can be met or not. At this point the resource handling layer may be paired with D₂Resource replenishment is performed, for example, a specific position of the coffee shop on a map is added, or a specific travel route from the current position of the receiver to the coffee shop is added as replenishment of the transmission resource.

The method provided by the embodiment is based on the analysis and understanding of the intentions of three participating agents of a transmitter, a receiver and a transmission system, aims to promote the balance of the intentions of the three participating agents in the transmission process, achieves the maximization of the benefit of the transmission system while meeting the intentions of the transmitter and the receiver as much as possible, and analyzes and models the content generated by the user and the intentions of the participating agents in the transmission process by applying a DIKW technology, so that the optimal transmission effect is obtained at the lowest cost.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (9)

1. An intention-driven multi-modal DIKW content transmission method is applied to a DIKW atlas transmission protocol-based transmission system, wherein the DIKW atlas transmission protocol comprises an intention identification layer, a content review layer, a transmission planning layer and a resource processing layer, and the method comprises the following steps:

s101, inputting user generated content to be transmitted into an intention identification layer, carrying out intention identification on the user generated content by the intention identification layer, constructing an intention model of a participating subject and outputting the intention of the participating subject, wherein the participating subject comprises a transmitter, a transmission system and a receiver, and the intention model of the participating subject comprises the intention of the participating subject and the intention priority thereof;

s102, inputting the intention of the participating subject and the user generated content into a content review layer, reviewing and judging whether the intention of the participating subject and the user generated content meet the standard conditions by a content review module, outputting an intention review result if the intention review result meets the standard conditions, and performing the next step;

s103, the transmission plan making layer obtains the intention examining result and generates a transmission scheme based on the intention of the participating subject;

and S104, inputting the transmission scheme into a resource processing layer, and processing the user generated content by the resource processing layer according to the transmission scheme and transmitting the user generated content to a receiver by the resource processing layer.

2. The intent-driven multi-modal DIKW content delivery method according to claim 1, wherein the canonicalization conditions comprise law moral canonicalization conditions, blacklist canonicalization conditions and system rule canonicalization conditions.

3. The intent-driven multi-modal DIKW content delivery method according to claim 1, wherein the intent review result is one of non-transferable, direct transfer and tape-and-play transferable.

4. The intention-driven multi-modal DIKW content transmission method according to claim 3, wherein when the intention review result is non-transmittable, the transmission process is terminated; when the intention examination result is direct transmission, the resource processing layer directly transmits the user generated content to the receiver; when the result of the intention review is that the tape piece is transmittable, step S103 is performed.

5. The intent-driven multi-modal DIKW content transmission method according to claim 1, wherein when the intention of the transmitter is accurate, the transmission scheme is generated based on the intention of the participating subject, specifically: judging whether the size of the user generated content to be transmitted is larger than the transmission capacity, judging whether the time required for transmitting all the user generated content is larger than the expected transmission time, wherein the time required for transmitting all the user generated content is called as the actual transmission time, and if the size of the user generated content is larger than the transmission capacity or the actual transmission time is larger than the expected transmission time, extracting effective content in the user generated content as transmission content.

6. The intent-driven multi-modal DIKW content transmission method according to claim 1, wherein if the intention of a transmitter is inaccurate or there are multiple intents of transmitters, the generating of the transmission scheme based on the intention of participating subjects specifically comprises:

s201, decomposing user generated content to be transmitted into a plurality of resource packages according to the intention of a transmitter;

s202, sequencing the resource packets from high to low based on the importance degree of the intention realization of the transmitter to form a resource packet sequence;

and S203, traversing the resource packet sequence in sequence, and stopping transmitting the resource packets which are not traversed when the traversed resource packets in the resource packet sequence can meet the intention of a transmitter.

7. The intention-driven multi-modal DIKW content transmission method according to claim 1, wherein the intention recognition layer performs intention recognition on the user-generated content, specifically: and generating an intention tree by taking the unique parent intention of the transmitter as a root node, and continuously extending the intention tree to more accurate child intentions by calling known DIKW map resources related to the transmitter, the receiver and the user generated content to be transmitted until the most accurate intention which can be reached by the existing resources and the calculation cost is reached.

8. The method of claim 7, wherein in step S104, when the system determines that the probability that the receiver cannot understand the intention of the transmitter is greater than a preset threshold according to the DIKW atlas of the receiver, the system supplements the resources of the user-generated content to be transmitted.

9. The method of claim 1, wherein the intention priority is sequentially from high to low, the intention is transmitter intention, receiver intention, and transmission system intention, and when the intentions of different participating subjects conflict during transmission, the system preferentially satisfies the intention of the participating subject with high intention priority.

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