CN107528827B - Traceable data connection method and platform based on digital label - Google Patents

Abstract

The invention discloses a traceable data connection method and a traceable data connection platform based on a digital label. The method comprises the following steps: 1) extracting information of each object, generating a digital label of the object through an OTO coding and decoding server, and sending the digital label to an information server; 2) the information issuing party generates the combined transmission information of the object and generates a digital label of the transmission information through the coding and decoding server; 3) when the information issuing party initiates the propagation behavior to the object, a transfer application is initiated to the information server; 4) the transfer server selects a transfer temporary storage space and obtains a corresponding easy-to-remember code, and stores the digital label of the transmitted information into the transfer temporary storage space; sending the easy-to-remember code to an information issuing party; 6) the information publisher propagates the easy-to-remember code to the receiver through the propagation network; 7) and the editing code server acquires the digital label of the transmitted information according to the easy-to-remember code sent by the receiver, and further acquires the information of the object or an operation entry to the receiver.

Description

Traceable data connection method and platform based on digital label

Technical Field

The invention relates to a traceable data connection method and a traceable data connection platform based on a digital label, belongs to the technical field of computer software, and particularly relates to the technical field of Internet of things.

Background

In one-to-many marketing scenes such as broadcasting marketing, television marketing, conference marketing and the like, a propagator is generally distributed to audiences by printing a large amount of paper data; or use an extremely attractive audio-visual mode to guide the attention of the audience.

However, the conventional transmission method at present has the following problems: 1. the cost of the data printed matter is high, the information value is low, the rebroadcasting is difficult, and the data printed matter is easy to lose; 2. the transmission content is incomplete, and the acquisition of complete data is difficult; 3. the transmission process is not traceable, and the transmission effect cannot be measured; 4. cannot transmit real-time data and change data.

Disclosure of Invention

Aiming at the technical problems in the prior art, the invention aims to provide a traceable data connection method and a traceable data connection platform based on a digital label.

The invention comprises a service-cooperated intelligent terminal digital label system, which comprises an operable object server, a digital label system code sending/decoding server, an intelligent terminal reading APP, an information server, a transfer server and various propagation networks. The defined service and information are realized, and the propagation path can be traced when the propagation network performs propagation in various forms.

The technical scheme of the invention is as follows:

a traceable data connection method based on a digital label comprises the following steps:

1) the operable object server extracts information of each object, generates a digital label of the object through the OTO coding and decoding server, and then sends the information extracted from the object and the digital label of the object to the information server;

2) the information issuing party acquires the information and the digital label of the object through the information server, combines the information and the digital label into transmission information and stores the transmission information in the information server, and the information server generates the digital label of the transmission information through the OTO coding and decoding server;

3) when the information issuing party initiates the propagation behavior to the object, a transfer application for the transfer information is initiated to the information server, and the transfer application comprises the digital label of the transfer information;

4) after receiving the transfer application, the information server applies a transfer temporary storage space to a transfer server; the transfer server selects a transfer temporary storage space and obtains an easy-to-remember code corresponding to the transfer temporary storage space through the OTO coding and decoding server;

5) the transfer server stores the digital label of the transmitted information into the selected transfer temporary storage space; and the easy-to-remember code is sent to the information issuing party through the information server;

6) the information publisher propagates the easy-to-remember code to the receiver through the propagation network;

7) the OTO edit code server obtains the digital label of the transmitted information from the transfer server according to the easy-to-remember code sent by the receiver, and then obtains the information of the object or an operation entry to the receiver through the digital label of the transmitted information.

Furthermore, each transit temporary storage space of the transit server has a corresponding unique address and a corresponding easy-to-remember code on the OTO codec server.

Furthermore, a temporary storage space address table is arranged on the transfer server, when the information issuing direction sends a transfer application to the information server, the information server inquires the space vacancy condition of the temporary storage space address table from the transfer server, and when a vacant temporary storage space exists in the temporary storage space address table, the information server puts the digital label of the transmitted information into a vacant temporary storage space.

Further, in the step 2), when the information issuing party composes the information of the object and the digital tag into the transfer information through the information server, an access control rule of the transfer information is set; wherein the access control rule comprises a user blacklist, a user white list, access time and an access password; in the step 7), the OTO edit code server obtains the digital label of the transfer information from the transfer server according to the easy-to-remember code sent by the receiver, and then sends the digital label of the transfer information to the information server; the information server controls the access of the receiver according to the access control rule, and if the access is allowed, the information or operation entry of the object is sent to the receiver through the OTO editing code server according to the digital label of the transmitted information.

Further, the mnemonic code is a letter, a number or a combination thereof; the extracted information is the driving information and the passive information of the object.

A traceable data connection platform based on a digital label is characterized by comprising an operable object server, an OTO coding and decoding server, an information server and a transfer server; wherein the content of the first and second substances,

the operable object server is used for extracting information of each stored object, generating a digital label of the object through the OTO coding and decoding server, and then sending the information extracted from the object and the digital label of the object to the information server;

the information server is used for providing an information and digital label acquisition interface of the object for an information publisher, storing transfer information formed by combining the information and the digital label of the object, and generating the digital label of the transfer information through the OTO coding and decoding server; when receiving a transfer application of the information publisher to the transfer information, applying a transfer temporary storage space to a transfer server; the transfer application comprises a digital label of the transfer information;

the transfer server is used for selecting a transfer temporary storage space according to the received transfer application and acquiring the easy-to-remember codes corresponding to the transfer temporary storage space through the OTO coding and decoding server; then the digital label of the transmitted information is stored in the selected temporary storage space, and the easy-to-remember code is sent to the information issuing party through the information server;

the OTO coding and decoding server is used for generating a digital label; and acquiring the digital label of the transfer information from the transfer server according to the received easy-to-remember code, and acquiring the information of the object or providing an operation entrance to the sender of the easy-to-remember code through the digital label of the transfer information.

Compared with the prior art, the invention has the following positive effects:

mass data information is carried on a digital label which is easy to remember and consists of 4-6 digits, letters and characters; the propagation path is visible; the storage resource support of the transit service temporary storage server can be used in frequency division and time division, and the security access control is supported.

Drawings

FIG. 1 is a flow chart of a 1:1:1 relay method;

FIG. 2 is a flow chart of a 1: N:1 relay method;

FIG. 3 is a flow chart of an N: N relay method;

FIG. 4 is a block diagram of an access control mechanism;

FIG. 5 is a diagram of an information dissemination application scenario;

fig. 6 is a service propagation scenario diagram.

Detailed Description

The present invention is described in further detail below with reference to the attached drawings.

The invention comprises a digital label system code sending/decoding server, an intelligent terminal reading APP, an information server, a transfer server and various propagation networks, so as to realize the defined service and information, and the propagation path can be traced when the propagation network is used for carrying out propagation in various forms.

The method of the invention has the flow shown in fig. 1-3, and comprises the following steps:

1) the operable object server stores one or more defined objects; the object server can be operated to extract driving information and passive information (the driving information is information which is sent by the object and influences the external environment; the passive information is information which can make the object generate reaction), a digital label of the object is generated by an OTO (object to object) coding and decoding server, and then the information extracted from the object and the digital label of the object are sent to the information server;

2) a user n (namely an information issuing party) acquires the operable object information and the digital label through an information server, combines the operable object information and the digital label into transmission information and stores the transmission information, and the combined transmission information also generates a corresponding digital label through an OTO coding and decoding server;

3) when a user n wants to initiate a propagation behavior to the object, the user n initiates a transfer application for transferring information to an information server, wherein the transfer application comprises information of a digital label corresponding to the information to be transferred;

4) after receiving the user n transmission application, the information server applies for a transmission relay temporary storage space (each relay temporary storage space of the relay server has a corresponding unique address on the OTO codec server, namely a relay server address and an easy-to-remember code), and stores the digital label of the transmitted information into the temporary storage space of the relay server;

5) the information server delivers the easy-to-remember codes (letters, numbers, symbols and the like, in the embodiment of the invention, space numbers formed by numbers are adopted, such as 1818) given by the transfer server to the user n;

6) the user n transmits the easy-to-remember codes to a receiver through various transmission facilities such as a teleconference, a television, a radio and the like;

7) the receiver of the acquired code obtains the digital tag of the transmitted information in the temporary storage area of the transit server through the function of acquiring the easily-remembered code through a user terminal such as a smart phone and an application app (the app is mainly used for information collection and propagation), through the conversion of the easily-remembered code and the transit temporary storage space address of the transit server by the OTO editing code server, and then obtains the operable object information or the operation entry designated by the user n through the digital tag of the transmitted information.

The transit server is provided with a temporary storage space address table, as shown in table 1. The user terminal n sends a transfer application to the information server, the information server inquires the space free state of the transfer server to obtain a reply of the transfer server, the information server puts a digital tag (data address table) corresponding to transfer information to be transferred into the space of the transfer server at a specific time, and feeds back an easily-remembered space number to the information server, and the easily-remembered space number is sent to the user terminal n by the information server.

Table 1 is a temporary storage space address table

FIG. 4 is a block diagram of an access control mechanism

When the user n forms the transfer information by the information server, access control including measures such as a user black and white list, access time, and access password can be set for the formed transfer information. And obtaining audiences of the easily remembered short codes, and performing access control on the information server according to the access control rule when obtaining the information transmitted by the user n through the short code obtaining function of the specific App.

Fig. 5 is a diagram of an information dissemination scenario.

FIG. 6 is a service propagation scenario.

Example 1

The use scenario is as follows: high-speed rail broadcast marketing

Instructions for use: and according to the arrival schedule of the high-speed rail, converting the storage address of the characteristic goods/service data of the stop into a 3456 short code address digital label. The fixed 3456 short code is used in high-speed rail/motor train (the punctuality rate is over 99%) of a certain shift, and can pass through different regions/cities in different time periods, and the time sharing of using the short code by passengers can provide information such as special goods/service shopping guide and the like of the region/city where the current time is.

The use advantages are as follows: 1. broadcast advertisement products and service information are quickly obtained; 2. linkage is formed between the broadcast and the mobile internet; 4. the listener can conveniently store and review the music; 5. the advertisement products and services are convenient to popularize; 6. realizing the performance evaluation of the broadcast advertisement; 7. the same channel may be used in time.

Example 2

The use scenario is as follows: supplementary material of broadcast advertisement

Instructions for use: in the production of broadcast advertisements, the advertisements cannot be referred to as product or service details for time, cost, and the like, and are completely presented. The product service detail information storage address is converted into an address digital label with 4-6 bits. When broadcasting, the broadcasting host broadcasts the address digital label with 4-6 bits to the audience. The listeners use respective intelligent terminals, open a specific App program to use the address digital tags, are connected to a specific address digital tag analysis server through a WIFI/4G network to obtain data tags corresponding to products or service data related to the advertisements, and push the products or service information related to the advertisements to the intelligent terminal App through the data tags for the listeners to browse/operate.

The use advantages are as follows: 1. broadcast advertisement products and service information are quickly obtained; 2. linkage is formed between the broadcast and the mobile internet; 4. the listener can conveniently store and review the music; 5. the advertisement products and services are convenient to popularize; 6. and realizing the performance evaluation of the broadcast advertisement.

Example 3

The use scenario is as follows: synchronous data of broadcast and television

Instructions for use: the broadcast and television provide a fixed use special 1234 short code, which plays different types/themes of programs in different time periods, and the data label/content of each program taken according to the time sharing of the 1234 short code is different.

The use advantages are as follows: 1. broadcast advertisement products and service information are quickly obtained; 2. linkage is formed between the broadcast and the mobile internet; 4. the listener can conveniently store and review the music; 5. the advertisement products and services are convenient to popularize; 6. realizing the performance evaluation of the broadcast advertisement; 7. the same channel may be used in time.

Example 4

The use scenario is as follows: fast distribution of various meeting data

Instructions for use: the storage address of the conference material to be sent by the conference is converted into an address number label with 4-6 bits. The conference host broadcasts 4-6 bit address digital labels to the participants through the live public address system. After recording the address digital tags, the participants use respective intelligent terminals in real time or afterwards, open a specific App program to use the address digital tags, are connected to a specific address digital tag analysis server through a WIFI/4G network to obtain data tags corresponding to conference materials, and push related information of the conference materials to the intelligent terminal App through the data tags for browsing/operating of the participants.

The use advantages are as follows: 1. mass data transmission is supported; 2. is not limited by meeting place networks; 3. a large amount of conference materials do not need to be printed; 4. the participants can be conveniently stored and viewed again; 5. it is convenient for data exchange and transmission.

Example 5

The use scenario is as follows: various types of emergency notifications

Instructions for use: because the notification content is short and can only inform that details cannot be given, informing the informed person of a 4-6-bit address digital label through the notification, after the informed person completes a specific action, opening a specific App program to use the address digital label under the condition of communication permission, connecting to a specific address digital label analysis server through a WIFI/4G network, acquiring a data label corresponding to detailed background content related to emergency notification, and pushing related information of meeting materials to an intelligent terminal App by the data label for the informed person to browse/operate.

The use advantages are as follows: 1. mass data transmission is supported; 2. supplementing data transmission after the fact; 3. the data address label is simple and easy to remember.

Claims (10)

1. A traceable data connection method based on a digital label comprises the following steps:

1) the operable object server extracts information of each object, generates a digital label of the object through the OTO coding and decoding server, and then sends the information extracted from the object and the digital label of the object to the information server;

2) the information issuing party acquires the information and the digital label of the object through the information server, combines the information and the digital label into transmission information and stores the transmission information in the information server, and the information server generates the digital label of the transmission information through the OTO coding and decoding server;

3) when the information issuing party initiates the propagation behavior to the object, a transfer application for the transfer information is initiated to the information server, and the transfer application comprises the digital label of the transfer information;

4) after receiving the transfer application, the information server applies a transfer temporary storage space to a transfer server; the transfer server selects a transfer temporary storage space and obtains an easy-to-remember code corresponding to the transfer temporary storage space through the OTO coding and decoding server;

5) the transfer server stores the digital label of the transmitted information into the selected transfer temporary storage space; and the easy-to-remember code is sent to the information issuing party through the information server;

6) the information publisher propagates the easy-to-remember code to the receiver through the propagation network;

7) the OTO coding and decoding server obtains the digital label of the transmitted information from the transfer server according to the easy-to-remember code sent by the receiver, and then obtains the information of the object or an operation entrance to the receiver through the digital label of the transmitted information.

2. The method of claim 1 wherein each relay register space of the relay server has a corresponding unique address and easy-to-remember code on the OTO codec server.

3. The method of claim 1, wherein the relay server has a temporary space address table, when the message publisher sends a relay request to the message server, the message server queries the relay server for a free space of the temporary space address table, and when there is a free relay temporary space in the temporary space address table, the message server places the digital tag of the transferred message in a free relay temporary space.

4. The method as claimed in claim 1, 2 or 3, wherein in step 2), when the information publisher composes the information of the object and the digital label into the delivery information through the information server, the access control rule of the delivery information is set; wherein the access control rule comprises a user blacklist, a user white list, access time and an access password; in the step 7), the OTO codec server obtains the digital tag of the transfer information from the transfer server according to the easy-to-remember code sent by the receiver, and then sends the digital tag of the transfer information to the information server; the information server controls the access of the receiver according to the access control rule, and if the access is allowed, the information or operation entry of the object is sent to the receiver through the OTO coding and decoding server according to the digital label of the transmitted information.

5. The method of claim 1, 2 or 3, wherein the easy-to-remember code is a letter, a number, or a combination thereof; the extracted information is the driving information and the passive information of the object.

6. A traceable data connection platform based on a digital label is characterized by comprising an operable object server, an OTO coding and decoding server, an information server and a transfer server; wherein the content of the first and second substances,

the operable object server is used for extracting information of each stored object, generating a digital label of the object through the OTO coding and decoding server, and then sending the information extracted from the object and the digital label of the object to the information server;

the information server is used for providing an information and digital label acquisition interface of the object for an information publisher, storing transfer information formed by combining the information and the digital label of the object, and generating the digital label of the transfer information through the OTO coding and decoding server; when receiving a transfer application of the information publisher to the transfer information, applying a transfer temporary storage space to a transfer server; the transfer application comprises a digital label of the transfer information;

the transfer server is used for selecting a transfer temporary storage space according to the received transfer application and acquiring the easy-to-remember codes corresponding to the transfer temporary storage space through the OTO coding and decoding server; then the digital label of the transmitted information is stored in the selected temporary storage space, and the easy-to-remember code is sent to the information issuing party through the information server;

the OTO coding and decoding server is used for generating a digital label; and acquiring the digital label of the transfer information from the transfer server according to the received easy-to-remember code, and acquiring the information of the object or providing an operation entrance to the sender of the easy-to-remember code through the digital label of the transfer information.

7. The platform of claim 6, wherein each relay register space of the relay server has a corresponding unique address and easy-to-remember code on the OTO codec server.

8. The platform as claimed in claim 6, wherein the relay server is configured with a temporary storage space address table, when the information distributor sends a relay request to the information server, the information server queries the relay server for a free space of the temporary storage space address table, and when there is a free relay temporary storage space in the temporary storage space address table, the information server places the digital tag of the transferred information into a free relay temporary storage space.

9. The platform of claim 6 or 7 or 8, wherein when the information publisher composes the information of the object and the digital tag into the delivery information through the information server, the access control rule of the delivery information is set; wherein the access control rule comprises a user blacklist, a user white list, access time and an access password; the OTO coding and decoding server acquires the digital label of the transmitted information from the transfer server according to the easy-to-remember code and then sends the digital label of the transmitted information to the information server; and the information server performs access control on the sender of the easy-to-remember code according to the access control rule, and if the access is allowed, the information or operation entry of the object is sent to the sender through the OTO codec server according to the digital label of the transmitted information.

10. The platform of claim 6, 7 or 8, wherein the easy-to-remember code is a letter, a number, or a combination thereof; the extracted information is the driving information and the passive information of the object.

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