CN108920519A - One-to-many data supply system and method - Google Patents
One-to-many data supply system and method Download PDFInfo
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- CN108920519A CN108920519A CN201810561968.XA CN201810561968A CN108920519A CN 108920519 A CN108920519 A CN 108920519A CN 201810561968 A CN201810561968 A CN 201810561968A CN 108920519 A CN108920519 A CN 108920519A
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- 238000000034 method Methods 0.000 title claims abstract description 26
- 238000012545 processing Methods 0.000 claims description 41
- 238000003860 storage Methods 0.000 claims description 9
- 238000004458 analytical method Methods 0.000 claims description 7
- 230000001419 dependent effect Effects 0.000 claims description 6
- 238000012546 transfer Methods 0.000 claims description 6
- 238000013479 data entry Methods 0.000 claims description 4
- 238000007405 data analysis Methods 0.000 claims 1
- 238000005516 engineering process Methods 0.000 description 3
- 238000013500 data storage Methods 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
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Abstract
The invention discloses a kind of one-to-many data supply system and methods, send original input data to server using input node;Output node generates request of data and receive according to the instruction of user replies data;Server is analyzed and processed to store after obtaining normal data into database to original input data, normal data includes a major key and multiple data segments, there are logic chains between data segment and major key, and the normal data for being associated with request of data is transferred from database according to request of data, and with normal data be to reply data according to generating, server will reply data feedback to output node.Technical solution of the present invention can effectively to store that a large amount of there are the data of logic association in database, according to request of data generation, there are the answer data of logic simultaneously, have while replying the multiple associated data of user, improves the efficiency of one-to-many data supply.
Description
Technical field
The present invention relates to field of communication technology more particularly to one-to-many data supply systems and method
Background technique
With the development of informationization technology, data penetrated into each current industry and business can only field, become
The important factor of production.Mass data effectively manage and is further excavated and is applied, enterprise's raising is had become
Core competitiveness, the key for seizing the first market opportunities.Under this background, big data technology is come into being, it has the data scale of construction
Greatly, the distinguishing features such as data type is more, value density is low and processing speed is fast.
In existing big data platform, different types of data resource is often through the difference in the big data ecosystem
Data management component be respectively managed.But existing data platform is intelligently directed to certain types of data and carries out pipe
Reason is unable to satisfy in existing big data application, the demand of many and diverse Data Integration management of multiclass.Therefore, it is necessary to further to existing
Some data platforms improve.
Summary of the invention
For the above-mentioned problems in the prior art, one-to-many data supply system and method are now provided.
Specific technical solution is as follows:
One-to-many data supply system, including a server, the server have multiple input nodes and multiple defeated
Egress;
The input node is used to send original input data to the server;
The output node is used to generate request of data according to the instruction of user, and the request of data is sent the service
Device, and receive the answer data of the server feedback;
The server connects a database, for receiving the original input data, and to the original input data
It is analyzed and processed to store after obtaining normal data into the database, the normal data includes a major key and multiple data
Section, there are logic chains between the data segment and the major key;
The server is transferred from the database according to the request of data and is associated with described in the request of data
Normal data, and be to reply data according to generating with the normal data, the server is by the answer data feedback to institute
State output node.
Preferably, the server includes:
Data inputting module, for formatting the original input data to generate with described at least one
The normal data of data segment;
Logic generation module connects the data inputting module, for each data segment carry out semantics recognition with
The logic association between the data segment is obtained, and chooses a data segment as the normal data according to the logic association
The major key.
Preferably, the server further includes:
First processing module, for being to be dependent on inquiry in the database to have with the presence or absence of identical with the major key
Major key if it does not exist then directly stores the normal data into the database;
Second processing module connects the first processing module, in the database there are when the existing major key,
It transfers the existing major key and there are the data segments of logic chain deposited described as data are achieved with the existing major key
File data is compared to reject duplicate content in the normal data with the normal data, and will be in the normal data
The remaining data segment is stored into the database.
Database storage unit is separately connected the first processing module and the Second processing module, is used for basis
Logic association between the data segment establishes the logic chain of each data segment and the major key, and is being stored in the data
Section retains the logic chain of the data segment and the major key.
Preferably, the server includes:
Request analysis module, for receiving and parsing through the request of data, with acquisition request major key and multiple spare major keys;
First enquiry module connects the request analysis module, is used for according to the request major key in the database
Identical target major key is inquired, and there are the extractions of the data segment of logic chain by the target major key and with the target major key
Using as the normal data;
Second enquiry module connects first enquiry module, for that can not inquire institute according to the request major key
When stating target major key, identical alternate target major key is inquired in the database according to the spare major key, chooses to exist and patrol
The most alternate target major key of chain is collected to deposit as the target major key, and by the target major key and with the target major key
It extracts in the data segment of logic chain using as the normal data.
Preferably, the server further includes:
Processing unit is exported, for rejecting the data segment unrelated in the normal data according to the request of data;
Processing unit is replied, the output processing unit is connected, for the normal data to be converted to text, the text
Logical word is added between data segment described in this, each logical word is corresponded to each other with the logic chain, and by the text
This is as the answer data feedback to the output node.
Preferably, one-to-many data supply system further includes multiple data terminals, and each data terminal includes at least
One input node and the output node.
Preferably, one-to-many data furnishing method, applied in any of the above-described one-to-many data supply system,
Data entry process includes the following steps:
Step A1:The input node sends the original input data to the server;
Step A2:The server receives the original input data, and carries out at analysis to the original input data
Reason stores after obtaining the normal data into the database, and the normal data includes a major key and multiple numbers
According to section, there are logic chains between the data segment and the major key;
Data output process includes the following steps:
Step B1:The output node generates the request of data according to the instruction of the user, and sends the service
Device;
Step B2:The server is transferred from the database according to the request of data and is associated with the request of data
The normal data;
Step B3:The server is to reply data according to generation, and feed back to the output section with the normal data
Point.
Step B4:Described and output node receives the answer data of the server feedback.
Preferably, the step A2 includes the following steps:
Step A21:The data inputting module is used to format the original input data to generate and have
The normal data of at least one data segment;
Step A22:The logic generation module is used to carry out semantics recognition to each data segment to obtain the number
The major key of the data segment as the normal data is chosen according to the logic association between section, and according to the logic association.
Preferably, the step A2 is further comprising the steps of:
Step A23:Use whether the first processing module is deposited with the major key to be dependent on to inquire in the database
In the identical existing major key;
As existed, then A25 is entered step;
If it does not exist, then A24 is entered step;
Step A24:Directly the normal data is stored into the database using the first processing module;
Step A25:The existing major key is transferred using the Second processing module and there are logics with the existing major key
The data segment of chain is as data are achieved, the archive data to be compared with the normal data to reject the mark
Duplicate content in quasi- data, and the data segment remaining in the normal data is stored into the database.
Preferably, in the step A24 and the step A25, the normal data is stored using database storage unit,
Specifically include following steps:
Establish the logic chain of each data segment and the major key according to the logic association between the data segment, and
Retain the logic chain of the data segment Yu the major key when being stored in the data segment.
Its above-mentioned technical proposal has the following advantages that or beneficial effect:
It is pre-processed using data of the server to deposit, is patrolled so that can effectively store in database and largely exist
Associated data are collected, while being generated according to request of data there are the answer data of logic, has while replying the multiple associations of user
Data, reduce user's repeat request data, improve the efficiency of one-to-many data supply.
Detailed description of the invention
With reference to appended attached drawing, more fully to describe the embodiment of the present invention.However, appended attached drawing be merely to illustrate and
It illustrates, and is not meant to limit the scope of the invention.
Fig. 1 is the structural schematic diagram of the embodiment of the one-to-many data supply system of the present invention;
Fig. 2 is the structural schematic diagram of the server in the embodiment of the one-to-many data supply system of the present invention;
Fig. 3 is the flow chart of data entry process in the embodiment of the one-to-many data furnishing method of the present invention;
Fig. 4 is the flow chart of data output process in the embodiment of the one-to-many data furnishing method of the present invention;
The process that Fig. 5 is handled original input data in the embodiment for the one-to-many data furnishing method of the present invention
Figure;
Fig. 6 is the flow chart that normal data is stored in the embodiment of the one-to-many data furnishing method of the present invention.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, those of ordinary skill in the art without creative labor it is obtained it is all its
His embodiment, shall fall within the protection scope of the present invention.
It should be noted that in the absence of conflict, the feature in embodiment and embodiment in the present invention can phase
Mutually combination.
The present invention will be further explained below with reference to the attached drawings and specific examples, but not as the limitation of the invention.
In a kind of preferred embodiment of the present invention, according to Fig. 1, one-to-many data supply system, including a server
3, server has multiple input nodes 2 and multiple output nodes 3;
Input node 1 is used to send original input data to server 3;
Output node 2 is used to generate request of data according to the instruction of user, request of data is sent server 3, and receive
The answer data that server 3 is fed back;
Server 3 connects a database 4, carries out at analysis for receiving original input data, and to original input data
Reason stores after obtaining normal data into database 4, and normal data includes a major key and multiple data segments, data segment and major key it
Between there are logic chains;
Server 3 transfers the normal data for being associated with request of data according to request of data from database 4, and with criterion numeral
According to for according to answer data are generated, server 3 will reply data feedback to output node 2.
Specifically, in the present embodiment, original input data is sent to server 3 using input node 1, by server 3
Processing after, by the structure storage of normal data logic chain to database 4.Meanwhile being in data query, it can be according to data
There are the data of logic chain to carry out dissection process in library 4, feeds back to the various differences that output node 2 is consistent the most with request of data
Data, do not influenced by data type is single in existing database 4, improve the efficiency of one-to-many data supply.
In a kind of preferred embodiment of the present invention, according to Fig.2, server 3 includes:
Data inputting module 5, for formatting original input data to generate and there is at least one data segment
Normal data;
Logic generation module 6 connects data recording module 5, for carrying out semantics recognition to each data segment to obtain number
Major key of the data segment as normal data is chosen according to the logic association between section, and according to logic association.
Specifically, in the present embodiment, above scheme effectively can carry out structuring processing, and shape to original input data
At the logic association between data segment.
In a kind of preferred embodiment of the present invention, according to Fig.2, server 3 further includes:
First processing module 7, for being to be dependent on inquiry in database 4 to whether there is identical existing major key with major key,
If it does not exist, then directly normal data is stored into database 4;
Second processing module 8 connects first processing module 7, for transferring existing when database 4 has existing major key
Major key and there are the data segments of logic chain will achieve data and be compared with normal data as data are achieved with existing major key
To reject duplicate content in normal data, and data segment remaining in normal data is stored into database 4.
Database storage unit 9 is separately connected first processing module 7 and Second processing module 8, and being used for will be according to data segment
Between logic association establish the logic chain of each data segment and major key, and retain when being stored in data segment data segment and major key
Logic chain.
Specifically, in the present embodiment, number is confirmed before data store using first processing module 7 and Second processing module 8
According in library 4 whether there is identical record, and on the basis of rejecting data with existing progress data storage, database storage unit
9 guarantee that the logic chain between data stores together for executing the operation of data storage, and in storage.
In a kind of preferred embodiment of the present invention, according to Fig.2, server 3 includes:
Request analysis module 12, for receiving and parsing through request of data, with acquisition request major key and multiple spare major keys;
First enquiry module 11, connection request parsing module 12 are identical for being inquired in database 4 according to request major key
Target major key, and there are the data segments of logic chain to extract using as normal data by target major key and with target major key;
Second enquiry module 10 connects the first enquiry module 11, for that can not inquire target master according to request major key
When key, identical alternate target major key is inquired in database 4 according to spare major key, chooses the spare mesh most there are logic chain
Major key is marked as target major key, and there are the extractions of the data segment of logic chain using as criterion numeral by target major key and with target major key
According to.
Specifically, it in the present embodiment, is inquired from database 4 using the first enquiry module 11 and the second enquiry module 10
With the strongest normal data of request of data relevance, as reply data basis.
In a kind of preferred embodiment of the present invention, according to Fig.2, server 3 further includes:
Processing unit 13 is exported, for rejecting data segment unrelated in normal data according to request of data;
Reply processing unit 14, connection output processing unit 13, for normal data to be converted to text, data in text
Logical word is added between section, each logical word is corresponded to each other with logic chain, and using text as answer data feedback to output
Node 2.
Specifically, it in the present embodiment, is generated using output processing unit 13 and answer processing unit 14 multi-class data is whole
After conjunction, the text that can be effectively read improves the efficiency of one-to-many data processing, improves to existing big data application
Adaptability.
In a kind of preferred embodiment of the present invention, one-to-many data supply system further includes multiple data terminals, every number
It include at least one input node 1 and output node 2 according to terminal.
In a kind of preferred embodiment of the present invention, one-to-many data furnishing method is most applied to any of the above-described a pair
According in supply system,
According to Fig.3, data entry process includes the following steps:
Step A1:Input node 1 sends original input data to server 3;
Step A2:Server 3 receives original input data, and is analyzed and processed to obtain criterion numeral to original input data
It is stored after into database 4, normal data includes a major key and multiple data segments, and there are logics between data segment and major key
Chain;
According to Fig.4, data output process includes the following steps:
Step B1:Output node 2 generates request of data according to the instruction of user, and sends server 3;
Step B2:Server 3 transfers the normal data for being associated with request of data according to request of data from database 4;
Step B3:Server 3 is to reply data according to generation, and feed back to output node 2 with normal data.
Step B4:Output node 2 receives the answer data that server 3 is fed back.
In a kind of preferred embodiment of the present invention, according to Fig.5, step A2 includes the following steps:
Step A21:Data inputting module 5 is used to format original input data to generate and there is at least one
The normal data of data segment;
Step A22:Logic generation module 6 is used to carry out semantics recognition to each data segment to obtain patrolling between data segment
Association is collected, and chooses major key of the data segment as normal data according to logic association.
In a kind of preferred embodiment of the present invention, according to Fig.6, step A2 is further comprising the steps of:
Step A23:Use first processing module 7 with major key be dependent in database 4 inquiry with the presence or absence of it is identical
There is major key;
As existed, then A25 is entered step;
If it does not exist, then A24 is entered step;
Step A24:Directly normal data is stored into database 4 using first processing module 7;
Step A25:Use Second processing module 8 transfer existing major key and with existing major key there are the data segment of logic chain with
As data are achieved, data will be achieved and be compared with normal data to reject duplicate content in normal data, and by standard
Remaining data segment is stored into database 4 in data.
In a kind of preferred embodiment of the present invention, in step A24 and step A25, is stored and marked using database storage unit 9
Quasi- data, specifically include following steps:
The logic chain of each data segment and major key is established according to the logic association between data segment, and when being stored in data segment
Retain the logic chain of data segment and major key.
The foregoing is merely preferred embodiments of the present invention, are not intended to limit embodiments of the present invention and protection model
It encloses, to those skilled in the art, should can appreciate that all with made by description of the invention and diagramatic content
Equivalent replacement and obviously change obtained scheme, should all be included within the scope of the present invention.
Claims (10)
1. one-to-many data supply system, which is characterized in that including a server, the server have multiple input nodes with
And multiple output nodes;
The input node is used to send original input data to the server;
The output node is used to generate request of data according to the instruction of user, and the request of data is sent the server,
And receive the answer data of the server feedback;
The server connects a database, carries out for receiving the original input data, and to the original input data
Analysis handles to store after obtaining normal data into the database, and the normal data includes a major key and multiple data segments,
There are logic chains between the data segment and the major key;
The server transfers the standard for being associated with the request of data according to the request of data from the database
Data, and be to reply data according to generating with the normal data, the server is by the answer data feedback to described defeated
Egress.
2. one-to-many data supply system according to claim 1, which is characterized in that the server includes:
Data inputting module, for formatting the original input data to generate and there are at least one described data
The normal data of section;
Logic generation module connects the data inputting module, for carrying out semantics recognition to each data segment to obtain
Logic association between the data segment, and a data segment is chosen as described in the normal data according to the logic association
Major key.
3. one-to-many data supply system according to claim 1, which is characterized in that the server further includes:
First processing module, for being to be dependent on inquiry in the database to have master with the presence or absence of identical with the major key
Key if it does not exist then directly stores the normal data into the database;
Second processing module connects the first processing module, for, there are when the existing major key, transferring in the database
The existing major key and with the existing major key there are the data segment of logic chain using as achieve data, by the archive number
According to being compared with the normal data to reject duplicate content in the normal data, and will be remaining in the normal data
The data segment store into the database.
Database storage unit is separately connected the first processing module and the Second processing module, and being used for will be according to described
Logic association between data segment establishes the logic chain of each data segment and the major key, and protects being stored in the data segment
Stay the logic chain of the data segment Yu the major key.
4. one-to-many data supply system according to claim 1, which is characterized in that the server includes:
Request analysis module, for receiving and parsing through the request of data, with acquisition request major key and multiple spare major keys;
First enquiry module connects the request analysis module, for being inquired in the database according to the request major key
Identical target major key, and there are the data segments of logic chain to extract to make by the target major key and with the target major key
For the normal data;
Second enquiry module connects first enquiry module, for that can not inquire the mesh according to the request major key
When marking major key, identical alternate target major key is inquired in the database according to the spare major key, there are logic chains for selection
Most alternate target major keys are patrolled as the target major key, and by the target major key and with target major key presence
The data segment of volume chain is extracted using as the normal data.
5. one-to-many data supply system according to claim 1, which is characterized in that the server further includes:
Processing unit is exported, for rejecting the data segment unrelated in the normal data according to the request of data;
Processing unit is replied, the output processing unit is connected, for the normal data to be converted to text, in the text
Logical word is added between the data segment, each logical word is corresponded to each other with the logic chain, and the text is made
For the answer data feedback to the output node.
6. one-to-many data supply system according to claim 1, which is characterized in that further include multiple data terminals, often
A data terminal includes at least one described input node and the output node.
7. one-to-many data furnishing method, which is characterized in that be applied to such as one-to-many data as claimed in any one of claims 1 to 6
In supply system,
Data entry process includes the following steps:
Step A1:The input node sends the original input data to the server;
Step A2:The server receives the original input data, and is analyzed and processed to the original input data
It stores after to the normal data into the database, the normal data includes a major key and multiple data
Section, there are logic chains between the data segment and the major key;
Data output process includes the following steps:
Step B1:The output node generates the request of data according to the instruction of the user, and sends the server;
Step B2:The server transfers the institute for being associated with the request of data according to the request of data from the database
State normal data;
Step B3:The server is to reply data according to generation, and feed back to the output node with the normal data.
Step B4:The output node receives the answer data of the server feedback.
8. one-to-many data furnishing method according to claim 7, which is characterized in that the step A2 includes following step
Suddenly:
Step A21:The data inputting module is used to format the original input data to generate and have at least
The normal data of one data segment;
Step A22:The logic generation module is used to carry out semantics recognition to each data segment to obtain the data segment
Between logic association, and choose the major key of the data segment as the normal data according to the logic association.
9. one-to-many data furnishing method according to claim 7, which is characterized in that the step A2 further includes following step
Suddenly:
Step A23:The first processing module is used to whether there is phase with the major key to be dependent on inquiry in the database
The same existing major key;
As existed, then A25 is entered step;
If it does not exist, then A24 is entered step;
Step A24:Directly the normal data is stored into the database using the first processing module;
Step A25:The existing major key is transferred using the Second processing module and there are logic chains with the existing major key
The data segment is as data are achieved, the archive data to be compared with the normal data to reject the criterion numeral
The duplicate content in, and the data segment remaining in the normal data is stored into the database.
10. one-to-many data furnishing method according to claim 9, which is characterized in that the step A24 and the step
In A25, the normal data is stored using database storage unit, specifically includes following steps:
The logic chain of each data segment and the major key is established according to the logic association between the data segment, and is being stored in
Retain the logic chain of the data segment Yu the major key when data segment.
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Application publication date: 20181130 |