CN113177617A - Tamper-proof energy efficiency identification code identification method and system - Google Patents

Abstract

The invention discloses a method and a system for identifying a tamper-resistant energy efficiency identification code, and the method and the system comprise an identification scanning module, a receiving analysis module, a data storage module and a feedback module, wherein the identification scanning module transmits scanned information to the receiving analysis module, and the receiving analysis module is respectively connected with the data storage module and the feedback module and is used for identifying the tamper-resistant energy efficiency identification code. The energy efficiency identification code information is analyzed to be valid through the receiving analysis module, namely whether the energy efficiency identification code can identify a fake identification code is judged preliminarily, if the energy efficiency identification code can identify the fake identification code effectively, energy efficiency data corresponding to an identified enterprise are fed back to a scanner, the scanner verifies according to the fed-back enterprise energy efficiency data, the enterprise is prevented from tampering the content in the aspects of energy efficiency grade and the like, meanwhile, the energy efficiency associated data of the enterprise can be checked through the feedback module, and the energy efficiency condition of the related industry or region is known.

Description

Tamper-proof energy efficiency identification code identification method and system

Technical Field

The invention relates to the technical field of information processing, in particular to a method and a system for identifying an anti-tampering energy efficiency identification code.

Background

The ratio of the carbon emission of the energy consumption of the enterprise to the total enterprise value is calculated to form an energy carbon consumption index, the carbon emission change of the unit production value of each district (county) can be dynamically reflected, and the influence of factors such as an industrial structure, new energy utilization and the like on the carbon consumption can be visually shown. And obtaining the enterprise energy carbon yield value by comparing the carbon emission of the enterprise unit output value with the industry average value. And correspondingly setting an energy carbon effect identifier according to the energy carbon effect grade of the enterprise. Energy carbon efficiency grades of corresponding enterprises can be checked by scanning energy efficiency identification codes, in order to prevent the enterprises from tampering energy carbon efficiency data, a verification link is added in the identification process of the energy efficiency identification codes, but most of the existing identification code identification methods only consider the scanning problem of the identification codes.

For example, chinese patent CN111428707A, published 2020, 7, 17, discloses a method, an apparatus, a storage medium and an electronic device for recognizing a pattern recognition code. The method comprises the following steps: acquiring a first image containing the pattern identification code; acquiring a second image of the pattern identification code from the first image; determining position information of each target corner point in the graphic identification code in the second image, wherein the target corner points comprise each vertex of the graphic identification code and other vertexes of each positioning pattern of the graphic identification code except the vertex of the graphic identification code; and identifying the pattern identification code according to the second image and the position information of each target corner point in the second image. The method only considers the scanning identification method of the identification code, and does not consider the problem of tamper-proof verification of the identification code.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the prior identification code identification method is short of the technical problem of verifying the feedback function. The method and the system for identifying the tamper-resistant energy efficiency identification code are capable of verifying and feeding back the identified identification code information.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: a method for identifying a tamper-resistant energy efficiency identification code comprises the following steps:

s1: the identification scanning module sends the energy efficiency identification code information to the receiving analysis module;

s2: the receiving analysis module analyzes the received energy efficiency identification code information;

s3: judging whether the energy efficiency identification code information is effective, if so, performing step S5, otherwise, performing step S4;

s4: the feedback module sends the information that the energy efficiency identification code is invalid to the identification scanning module;

s5: the receiving and analyzing module extracts energy efficiency data corresponding to the energy efficiency identification codes in the data storage module;

s6: and feeding back the extracted energy efficiency data to the identification scanning module through the feedback module.

Whether the scanned energy efficiency identification code information is effective or not is analyzed through the receiving and analyzing module, namely whether the energy efficiency identification code can be identified as a fake identification code or not is preliminarily judged, if the energy efficiency identification code can be identified effectively, energy efficiency data corresponding to an identified enterprise are fed back to a scanner, the scanner verifies according to the fed-back enterprise energy efficiency data to prevent the enterprise from tampering with the content of the energy efficiency grade and the like, meanwhile, energy efficiency associated data of the enterprise can be checked through the feedback module, the energy efficiency condition of the relevant industry or area is known, and whether the energy efficiency identification code information is effective or not, namely whether the energy efficiency identification code information is true or false and whether the energy efficiency identification code information can be identified or not is not updated or is expired is judged.

Preferably, the step S6 includes the following steps:

s61: the feedback module feeds back energy efficiency data;

s62: selecting enterprise energy efficiency associated data to be viewed through a feedback module;

s63: the feedback module sends a viewing demand to the receiving analysis module;

s64: the receiving and analyzing module searches corresponding database data according to the checking requirement;

s65: and the receiving and analyzing module sends the enterprise energy efficiency associated data to the feedback module.

After the energy efficiency data of the enterprise are received, the enterprise energy efficiency associated data to be checked can be selected through the feedback module, and the data are fed back to the receiving analysis module again to control and extract the data of the corresponding database.

Preferably, the energy efficiency data corresponding to the energy efficiency identification code includes energy efficiency levels corresponding to enterprises and time corresponding to data extraction by the receiving and analyzing module. And the energy efficiency grade scanner corresponding to the enterprise in the energy efficiency data verifies whether the energy efficiency grade on the energy efficiency identification code arranged by the enterprise is false, and the corresponding time when the data is extracted by the receiving and analyzing module is used for checking whether the data is the current scanning time, so that the reliability of the energy efficiency identification code is enhanced.

Preferably, the enterprise energy efficiency related data includes energy efficiency grade data of other enterprises in the enterprise area, energy efficiency grades of other enterprises in the enterprise area and past energy efficiency grade data of the enterprises. By viewing the enterprise energy efficiency associated data, the reliability of the enterprise energy efficiency data can be verified while the knowledge of the enterprise energy efficiency data is increased.

The tamper-resistant energy efficiency identification code identification system comprises an identification scanning module, a receiving analysis module, a data storage module and a feedback module, wherein the identification scanning module transmits scanned information to the receiving analysis module, and the receiving analysis module is respectively connected with the data storage module and the feedback module. A tamper-proof energy efficiency identification code recognition system sends energy efficiency identification code information to a receiving analysis module through a recognition scanning module, the receiving analysis module analyzes the received energy efficiency identification code information and judges whether the energy efficiency identification code information is valid or not, when the energy efficiency identification code information is invalid, a feedback module sends the information that the energy efficiency identification code is invalid to the recognition scanning module, when the energy efficiency identification code information is valid, the receiving analysis module extracts energy efficiency data corresponding to the energy efficiency identification code in a data storage module, and the extracted energy efficiency data is fed back to the recognition scanning module through the feedback module.

Preferably, the identification scanning module comprises a mobile phone scanning unit and a scanning transmission unit, the mobile phone scanning unit and the scanning transmission unit are both connected with the receiving and analyzing module, the scanning transmission unit comprises a scanning transmitter and a display screen, and the display screen is connected with the scanning transmitter. The identification code can be scanned by a mobile phone or a scanning transmission machine, namely a scanning transmission unit, is arranged beside the identification code. The scanning transmission machine can be provided with a scanning transmitter and a display screen, enterprise energy efficiency data received after scanning are displayed through the display screen, an electronic energy efficiency identification code can be directly set to be communicated with the scanning transmission unit, and the electronic energy efficiency identification code is updated through the scanning transmission unit.

Preferably, the receiving and analyzing module includes a receiving unit, an analyzing unit and a data extracting unit, the analyzing unit is respectively connected to the receiving unit, the data extracting unit and the feedback module, and the data extracting unit is connected to the data storage module. The receiving unit receives the scanned identification code data, the analyzing unit verifies the authenticity of identification code data information, the analyzing unit feeds back identification code data error information to the identification scanning module through the feedback module when the scanned identification code data have errors, the analyzing unit judges the identification code to be a true identification code when the scanned identification code data pass the verification, the data extracting unit extracts relevant information of the identification code data of the data storage module, and the analyzing unit and the feedback module feed back the relevant information to the identification scanning module, so that a user can conveniently find and verify the identification code.

Preferably, the data storage module comprises an industry data unit, an area data unit and an energy efficiency grade distribution unit, and the industry data unit, the area data unit and the energy efficiency grade distribution unit are all connected with the data extraction unit. The industry data units are distinguished according to the industry energy efficiency grade, the region data units are distinguished according to the region energy efficiency grade, the energy efficiency grade distribution units comprise distribution data of enterprises with various energy efficiency grades, the data to be searched can be selected in the identification scanning module in a limited mode, or the received enterprise data are selected through the feedback module and fed back to the receiving analysis module again to control and extract the data of the corresponding data units, so that the energy efficiency grades of the industries where the enterprises are located and other enterprises in the regions where the enterprises are located can be checked when the energy efficiency data corresponding to the enterprises are searched, different sub-databases are preset, the corresponding sub-databases can be directly searched according to requirements, the reading pressure of the analysis units is reduced, and the corresponding reading speed can be improved.

The substantial effects of the invention are as follows: the energy efficiency identification code information is analyzed to be valid through the receiving analysis module, namely whether the energy efficiency identification code can identify a fake identification code is judged preliminarily, if the energy efficiency identification code can identify the fake identification code effectively, energy efficiency data corresponding to an identified enterprise are fed back to a scanner, the scanner verifies according to the fed-back enterprise energy efficiency data, the enterprise is prevented from tampering the content in the aspects of energy efficiency grade and the like, meanwhile, the energy efficiency associated data of the enterprise can be checked through the feedback module, and the energy efficiency condition of the related industry or region is known.

Drawings

FIG. 1 is a flow chart showing the steps of the present embodiment;

fig. 2 is a schematic composition diagram of the present embodiment.

Wherein: 1. the device comprises an identification scanning module 2, a receiving analysis module 3, a data storage module 4, a feedback module 5, a receiving unit 6, an analysis unit 7 and a data extraction unit.

Detailed Description

The following provides a more detailed description of the present invention, with reference to the accompanying drawings.

A method for identifying a tamper-resistant energy-efficient identification code, as shown in fig. 1, includes the following steps:

s1: the identification scanning module 1 sends the energy efficiency identification code information to the receiving analysis module 2;

s2: the receiving analysis module 2 analyzes the received energy efficiency identification code information;

s3: judging whether the energy efficiency identification code information is effective, if so, performing step S5, otherwise, performing step S4;

s4: the feedback module 4 sends the information that the energy efficiency identification code is invalid to the identification scanning module 1;

s5: the receiving and analyzing module 2 extracts energy efficiency data corresponding to the energy efficiency identification code in the data storage module 3; the energy efficiency data corresponding to the energy efficiency identification code comprises energy efficiency grades corresponding to enterprises and corresponding time when the receiving analysis module 2 extracts data. The energy efficiency grade scanner corresponding to the enterprise in the energy efficiency data verifies whether the energy efficiency grade on the energy efficiency identification code arranged by the enterprise is false, and the corresponding time when the receiving analysis module 2 extracts the data is used for checking whether the data is the current scanning time, so that the reliability of the energy efficiency identification code is enhanced.

S6: and feeding back the extracted energy efficiency data to the identification scanning module 1 through the feedback module 4. Step S6 includes the following steps:

s61: the feedback module 4 feeds back energy efficiency data;

s62: selecting enterprise energy efficiency associated data to be viewed through a feedback module 4; the enterprise energy efficiency related data comprises energy efficiency grade data of other enterprises in the enterprise industry, energy efficiency grades of other enterprises in the enterprise area and past energy efficiency grade data of the enterprises. By viewing the enterprise energy efficiency associated data, the reliability of the enterprise energy efficiency data can be verified while the knowledge of the enterprise energy efficiency data is increased.

S63: the feedback module 4 sends a viewing demand to the receiving and analyzing module 2;

s64: the receiving and analyzing module 2 searches corresponding database data according to the checking requirement;

s65: and the receiving and analyzing module 2 sends the enterprise energy efficiency associated data to the feedback module 4.

After receiving the energy efficiency data of the enterprise, the feedback module 4 can select the enterprise energy efficiency associated data to be checked, and the data is fed back to the receiving and analyzing module 2 again to control and extract the data of the corresponding database.

A tamper-resistant energy efficiency identification code identification system is shown in figure 2, and the tamper-resistant energy efficiency identification code identification system comprises an identification scanning module 1, a receiving analysis module 2, a data storage module 3 and a feedback module 4, wherein the identification scanning module 1 transmits scanned information to the receiving analysis module 2, and the receiving analysis module 2 is respectively connected with the data storage module 3 and the feedback module 4. The identification scanning module 1 comprises a mobile phone scanning unit and a scanning transmission unit, the mobile phone scanning unit and the scanning transmission unit are both connected with the receiving analysis module 2, the scanning transmission unit comprises a scanning transmitter and a display screen, and the display screen is connected with the scanning transmitter. The identification code can be scanned by a mobile phone or a scanning transmission machine, namely a scanning transmission unit, is arranged beside the identification code. The scanning transmission machine can be provided with a scanning transmitter and a display screen, enterprise energy efficiency data received after scanning are displayed through the display screen, an electronic energy efficiency identification code can be directly set to be communicated with the scanning transmission unit, and the electronic energy efficiency identification code is updated through the scanning transmission unit. The energy efficiency identification code information is sent to the receiving analysis module 2 through the identification scanning module 1, the receiving analysis module 2 analyzes the received energy efficiency identification code information and judges whether the energy efficiency identification code information is effective, the information that the energy efficiency identification code is invalid is sent to the identification scanning module 1 through the feedback module 4 when the energy efficiency identification code information is invalid, the receiving analysis module 2 extracts energy efficiency data corresponding to the energy efficiency identification code in the data storage module 3 when the energy efficiency identification code information is valid, and the extracted energy efficiency data is fed back to the identification scanning module 1 through the feedback module 4.

The receiving and analyzing module 2 comprises a receiving unit 5, an analyzing unit 6 and a data extracting unit 7, wherein the analyzing unit 6 is respectively connected with the receiving unit 5, the data extracting unit 7 and the feedback module 4, and the data extracting unit 7 is connected with the data storage module 3. The receiving unit 5 receives the scanned identification code data, the analyzing unit 6 verifies the authenticity of the identification code data information, when the scanned identification code data has errors, the analyzing unit 6 feeds back the information of the identification code data errors to the identification scanning module 1 through the feedback module 4, when the scanned identification code data passes the verification, the identification code is judged to be a true identification code, the data extracting unit 7 extracts the related information of the identification code data of the data storage module 3, and the analyzing unit 6 and the feedback module 4 feed back the related information to the identification scanning module 1, so that a user can conveniently find and verify the identification code data. The data storage module 3 comprises an industry data unit, a region data unit and an energy efficiency grade distribution unit, and the industry data unit, the region data unit and the energy efficiency grade distribution unit are all connected with the data extraction unit 7. The industry data units are distinguished according to the industry energy efficiency grade, the region data units are distinguished according to the region energy efficiency grade, the energy efficiency grade distribution units comprise distribution data of enterprises with various energy efficiency grades, the data to be searched can be selected in the identification scanning module 1 in a limited mode, or the received enterprise data are selected through the feedback module 4 and fed back to the receiving analysis module 2 again to control and extract the data of the corresponding data units, so that the energy efficiency grades of the industries where the enterprises are located and other enterprises in the regions where the enterprises are located can be checked when the corresponding energy efficiency data of the enterprises are searched, different sub-databases are preset, the corresponding sub-databases can be directly searched according to requirements, the reading pressure of the analysis unit 6 is reduced, and the corresponding reading speed can be improved.

Whether scanned energy efficiency identification code information is effective or not is analyzed through the receiving analysis module 2, namely whether the energy efficiency identification code can be identified as a fake identification code or not is preliminarily judged, if the energy efficiency identification code can be identified effectively, energy efficiency data corresponding to an identified enterprise are fed back to a scanner, the scanner verifies according to the fed-back enterprise energy efficiency data to prevent the enterprise from tampering with content in aspects such as energy efficiency levels and the like, meanwhile, energy efficiency associated data of the enterprise can be checked through the feedback module 4 to know energy efficiency conditions of related industries or regions, and whether the energy efficiency identification code information effectively comprises true or false energy efficiency identification codes or whether the energy efficiency identification code information is not updated or is expired is judged.

The above examples only show some embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (8)

1. A method for identifying a tamper-resistant energy efficiency identification code is characterized by comprising the following steps:

s1: the identification scanning module (1) sends the energy efficiency identification code information to the receiving analysis module (2);

s2: the receiving and analyzing module (2) analyzes the received energy efficiency identification code information;

s3: judging whether the energy efficiency identification code information is effective, if so, performing step S5, otherwise, performing step S4;

s4: the energy efficiency identification code invalid information is sent to the identification scanning module (1) through the feedback module (4);

s5: the receiving and analyzing module (2) extracts energy efficiency data corresponding to the energy efficiency identification codes in the data storage module (3);

s6: and feeding back the extracted energy efficiency data to the identification scanning module (1) through a feedback module (4).

2. The method for identifying the tamper-resistant energy-efficient identification code according to claim 1, wherein the step S6 includes the steps of:

s61: the feedback module (4) feeds back energy efficiency data;

s62: selecting enterprise energy efficiency associated data to be viewed through a feedback module (4);

s63: the feedback module (4) sends a viewing demand to the receiving and analyzing module (2);

s64: the receiving and analyzing module (2) searches corresponding database data according to the checking requirement;

s65: and the receiving and analyzing module (2) sends the enterprise energy efficiency associated data to the feedback module (4).

3. The method for identifying the tamper-resistant energy efficiency identification code according to claim 1 or 2, wherein the energy efficiency data corresponding to the energy efficiency identification code comprises an energy efficiency grade corresponding to an enterprise and a time corresponding to data extraction of the receiving analysis module (2).

4. The method for identifying the tamper-resistant energy efficiency identification code according to claim 1 or 2, wherein the enterprise energy efficiency related data comprises energy efficiency grade data of other enterprises in the enterprise industry, energy efficiency grades of other enterprises in the enterprise area and past energy efficiency grade data of the enterprises.

5. An identification system of a tamper-proof energy efficiency identification code, which utilizes the identification method of the tamper-proof energy efficiency identification code according to any one of claims 1 to 4, and is characterized by comprising an identification scanning module (1), a receiving analysis module (2), a data storage module (3) and a feedback module (4), wherein the identification scanning module (1) transmits scanned information to the receiving analysis module (2), and the receiving analysis module (2) is respectively connected with the data storage module (3) and the feedback module (4).

6. The tamper-resistant energy efficiency identification code recognition system according to claim 5, wherein the recognition scanning module (1) comprises a mobile phone scanning unit and a scanning transmission unit, the mobile phone scanning unit and the scanning transmission unit are both connected with the receiving and analyzing module (2), the scanning transmission unit comprises a scanning transmitter and a display screen, and the display screen is connected with the scanning transmitter.

7. The tamper-proof energy-efficient identification code identification system according to claim 5 or 6, wherein the receiving analysis module (2) comprises a receiving unit (5), an analysis unit (6) and a data extraction unit (7), the analysis unit (6) is respectively connected with the receiving unit (5), the data extraction unit (7) and the feedback module (4), and the data extraction unit (7) is connected with the data storage module (3).

8. The tamper-resistant energy efficiency identification code recognition system according to claim 7, wherein the data storage module (3) comprises an industry data unit, a region data unit and an energy efficiency grade distribution unit, and the industry data unit, the region data unit and the energy efficiency grade distribution unit are all connected with the data extraction unit (7).

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