CN113159849B - Carbon transaction system based on green coin and blue coin system - Google Patents

Abstract

The invention relates to a carbon transaction system based on a green coin and blue coin system, which comprises a user side, an enterprise side, a central server, a user information acquisition subsystem, an enterprise information acquisition subsystem, a user behavior exchange subsystem, an enterprise behavior exchange subsystem and a carbon transaction platform subsystem; firstly, different subsystems are respectively configured for a user side and an enterprise, data acquisition is realized through different monitoring modules, meanwhile, based on basic information of the user side and the enterprise side, a carbon behavior standard of a personal data using habit judgment basis under different types of conditions is determined, then judgment is made according to the basic carbon behavior standard, so that information granularity is finer, low-carbon behaviors are more accurate, and data is not uploaded to a cloud end through a local strategy update and a new verification mode, and data safety and reliability are improved.

Description

Carbon transaction system based on green coin and blue coin system

Technical Field

The present invention relates to carbon transaction systems, and more particularly to a carbon transaction system based on a green and blue coin system.

Background

The carbon transaction test point area is continuously appeared in China, the aim is to push individuals and enterprises to push energy conservation and emission reduction, and the carbon transaction test point area is pushed at present, if the carbon transaction test point area is difficult to avoid by only popularization and dispersion, the technical means are not combined, the efficiency is low, the value quantification of people and enterprises on low-carbon green behaviors is not achieved, if the carbon transaction test point area is realized according to the personal laws, the carbon transaction test point area does not contribute to corresponding value support, the effect is not obvious enough, the design concept supported by big data exists, and three problems are caused in the existing carbon transaction platform: 1. the quantification granularity of the low-carbon behaviors is not fine enough, so that information redundancy is caused, and the increase of the total amount of the low-carbon behaviors can reduce the value of a single low-carbon behavior, so that the purposes of energy conservation and emission reduction cannot be really achieved. 2. Since daily behavioral data needs to be collected if people and enterprises are to be hit, the data with finer granularity is certainly a great information risk if being utilized. 3. The verification system of the low-carbon behavior is not accurate enough, and repeated triggering and authorizing work can occur to a plurality of butting software, so that low-carbon expectation is difficult to achieve.

Disclosure of Invention

In view of the above, it is an object of the present invention to provide a carbon transaction system based on a green and blue coin system to solve the above problems.

In order to solve the technical problems, the technical scheme of the invention is as follows: a carbon transaction system based on a green coin and blue coin system comprises a user side, an enterprise side, a central server, a user information acquisition subsystem, an enterprise information acquisition subsystem, a user behavior exchange subsystem, an enterprise behavior exchange subsystem and a carbon transaction platform subsystem;

the user information acquisition subsystem is configured at a user side and comprises a user configuration module and a user data acquisition module; the user configuration module comprises a user newly-built unit, a user modification unit, a user configuration unit and a user permission unit, wherein the user newly-built unit corresponds to a user reference database, the user reference database stores a plurality of user characteristics and corresponding user options, and a user matches the corresponding user characteristics and selects the user options through the user newly-built unit to generate user reference information; the user modifies the user reference information through the user reference database by the user modification unit; the user reference information comprises a reference item and a corresponding request item, the user configuration unit corresponds to a configuration information base, the configuration information base stores user configuration strategies corresponding to the reference item, and the user configuration unit acquires the corresponding user configuration strategies according to the user reference information; the user license unit is correspondingly provided with a license information base, the user license information base stores a license agreement corresponding to the license item, and the user license unit acquires data acquisition license corresponding to the license item through the license agreement; the user data acquisition module comprises a user monitoring unit, a user interfacing unit and a user conversion unit, wherein the user monitoring unit acquires corresponding hardware data according to a request item to generate first user actual data, the user interfacing unit acquires corresponding software data of a corresponding permission item according to the request item to generate second user actual data, and the user conversion unit processes the first user actual data and the second user actual data according to the user configuration strategy to generate user low-carbon behavior data;

the enterprise information acquisition subsystem comprises an enterprise configuration module and an enterprise data acquisition module, wherein the enterprise configuration module comprises an enterprise authorization unit and an enterprise feedback configuration unit; the enterprise authorization unit is used for configuring an enterprise configuration strategy, the enterprise feedback configuration unit is used for configuring a feedback interface corresponding to a feedback node of an enterprise, and the enterprise data acquisition module comprises an enterprise emission docking unit, an enterprise energy-saving docking unit and an enterprise conversion unit; the enterprise emission interfacing unit is used for generating first enterprise actual data according to the emission-related feedback interface, the enterprise energy-saving interfacing unit is used for generating second enterprise actual data according to the energy-saving-related feedback interface, and the enterprise conversion unit processes the first enterprise actual data and the second enterprise actual data according to the enterprise configuration strategy to generate enterprise low-carbon behavior data;

the user behavior exchange subsystem is configured with a green coin user database and a green coin conversion database, the green coin user database stores user information and corresponding green coin values, the green coin conversion database stores a plurality of green coin conversion strategies, the green coin conversion strategies take user types as indexes, the green coin user database and the green coin conversion database are arranged in the central server, the user behavior exchange subsystem comprises a conversion strategy acquisition module, a local conversion module and a conversion verification module, the conversion strategy acquisition module generates user types through user reference information of a user end and sends the user types to a central server, the local conversion module acquires corresponding green coin conversion strategies according to the user types through the central server and sends the corresponding green coin conversion strategies to the user end, the user end processes the user low-carbon behavior data according to the green coin conversion strategies to generate a first updated coin value, the first updated coin value is sent to the central server, the conversion verification module generates a second updated value according to the corresponding green coin conversion strategies, and sends the second updated value to the second theoretical value, and the second value is compared with the theoretical value of the second updated value, and the second value is compared with the theoretical value of the second value which is sent to the second theoretical value of the second updated value;

the enterprise information acquisition subsystem is configured with a blue coin enterprise database and a blue coin conversion database, the blue coin enterprise data is stored with enterprise information and corresponding blue coin values, the blue coin conversion database is stored with a plurality of blue coin conversion strategies, the blue coin conversion strategies are indexed by enterprise types, the blue coin enterprise database and the blue coin conversion database are both arranged on a central server, the enterprise information acquisition subsystem comprises a data uploading module, a cloud conversion module and a data erasing module, the data uploading module is used for acquiring corresponding enterprise low-carbon behavior data from the enterprise end, the cloud conversion module is used for acquiring corresponding blue coin conversion strategies according to enterprise types corresponding to enterprise reference information, processing the enterprise low-carbon behavior data according to the blue coin conversion strategies to generate third updated coin values, inputting the third updated coin values into the blue coin enterprise database to update the corresponding blue coin values, and the data erasing module is used for erasing the enterprise low-carbon behavior data of the central server;

the carbon transaction platform subsystem is provided with a green coin transaction module and a blue coin transaction module, wherein the green coin transaction module is used for supporting the transaction of the green coin in the carbon transaction platform subsystem, and the blue coin transaction module is used for supporting the transaction of the blue coin in the carbon transaction platform subsystem.

Further, the user characteristics comprise travel characteristics, transaction characteristics and contribution characteristics, and the user options corresponding to the travel characteristics comprise travel demand options, general travel options and owned vehicle options; the user options corresponding to the transaction characteristics comprise an online charging option, an online reservation option and an online query option; the user options corresponding to the contribution features include a blood donation option, a volunteer service option, and a donation option.

Further, the central server is configured with a user side updating module, the user side updating module is used for updating a user configuration policy of the configuration user side, and the enterprise side updating module is used for updating an enterprise configuration policy of the enterprise side.

Further, the reference item corresponds to a user option, the user reference database further corresponds to each user option, and has a plurality of contribution values and corresponding condition ranges, and when the first user actual data or the second user actual data accords with the corresponding condition ranges, the corresponding contribution values are obtained to generate the user low-carbon behavior data.

Further, the user configuration policy includes a plurality of user habit references, and the user configuration policy calculates a difference between the contribution value and the corresponding user habit reference to generate the user low-carbon behavior data.

Further, the user information acquisition subsystem further comprises a verification evaluation module, the verification evaluation module is configured with a data verification policy, the data verification policy is used for verifying second user actual data through first user actual data and obtaining deviation results, the central server is provided with a software evaluation database, the software evaluation database is configured with software names and corresponding evaluation weights, the central server corrects the corresponding evaluation weights of the software according to the deviation results, and when a user generates a user configuration policy, the corresponding evaluation weights are called through the corresponding software names to process the second user actual data so as to generate user low-carbon behavior data.

Further, the enterprise configuration policy includes an emission type, an emission reference value, and an enterprise energy consumption reference value.

Further, the carbon transaction platform subsystem further comprises a green coin generation module, wherein the green coin generation module is pre-configured with a plurality of green coin generation products, when a user side purchases the corresponding green coin generation products, a purchase updated coin value is correspondingly generated, and the purchase updated coin value is input into the green coin user database to update the corresponding green coin value;

the carbon transaction platform subsystem further comprises a blue coin generation module, wherein the blue coin generation module is pre-configured with a plurality of blue coin generation products, when the enterprise side sells the corresponding blue coin generation products, the corresponding generation of the sold updated monetary value is performed, and the sold updated monetary value is input into the blue coin enterprise database to update the corresponding blue monetary value.

Further, the carbon transaction platform further comprises a monetary transaction module, wherein the monetary transaction module is configured with a transaction proportion, and the monetary transaction module is used for supporting transaction between green coins at a user side and blue coins at an enterprise side according to the transaction proportion.

The technical effects of the invention are mainly as follows: through the arrangement, different subsystems are respectively configured for the user side and the enterprise, data acquisition is realized through different monitoring modules, meanwhile, based on basic information of the user side and the enterprise side, the carbon behavior standard of the personal data using habit judgment base under different types of conditions is determined, then judgment is made according to the basic carbon behavior standard, so that the information granularity is finer, the low-carbon behavior is more accurate, and through local strategy updating and a new verification mode, the data is ensured not to be uploaded to the cloud, and the data safety and reliability are improved.

Drawings

Fig. 1: the invention relates to a framework topology system of a carbon transaction system based on a green coin and blue coin system;

fig. 2: the subsystem relation diagram of the carbon transaction system based on the green coin and blue coin system is provided by the invention;

fig. 3: the invention discloses a user information acquisition subsystem topological graph of a carbon transaction system based on a green coin and blue coin system;

fig. 4: the invention relates to an enterprise information acquisition subsystem topological graph of a carbon transaction system based on a green coin and blue coin system;

fig. 5: the invention relates to a topological diagram of a user behavior exchange subsystem of a carbon transaction system based on a green coin and blue coin system;

fig. 6: the invention relates to an enterprise behavior exchange subsystem topological graph of a carbon transaction system based on a green coin and blue coin system;

fig. 7: the invention relates to a carbon transaction platform subsystem topology map of a carbon transaction system based on a green coin and blue coin system.

Reference numerals: 1. a user terminal; 2. an enterprise end; 3. a central server; 100. a user information acquisition subsystem; 110. a user configuration module; 111. newly building a unit by a user; 1111. a user reference database; 112. A user modification unit; 113. a user configuration unit; 1131. configuring an information base; 114. a user permission unit; 120. a user data acquisition module; 121. a user monitoring unit; 122. a user docking unit; 123. a user conversion unit; 130. a user side updating module; 140. a verification evaluation module; 1401. A software evaluation database; 200. an enterprise information acquisition subsystem; 210. an enterprise configuration module; 211. An enterprise authorization unit; 212. an enterprise feedback configuration unit; 220. an enterprise data acquisition module; 221. An enterprise discharge docking unit; 222. an enterprise energy-saving docking unit; 223. an enterprise conversion unit; 300. A user behavior redemption subsystem; 301. a green coin user database; 302. a green coin conversion database; 310. a conversion strategy acquisition module; 320. a local conversion module; 330. a conversion verification module; 400. an enterprise and industry behavior exchange subsystem; 401. a blue coin enterprise database; 402. a blue coin conversion database; 410. a data uploading module; 420. a cloud conversion module; 430. a data erasing module; 500. a carbon transaction platform subsystem; 510. a green coin transaction module; 520. a blue coin transaction module; 530. a green coin generation module; 540. a blue coin generation module; 550. and a monetary value transaction module.

Detailed Description

The following detailed description of the invention is provided in connection with the accompanying drawings to facilitate understanding and grasping of the technical scheme of the invention.

A carbon transaction system based on a green coin and blue coin system comprises a user side 1, an enterprise side 2, a central server 3, a user information acquisition subsystem 100, an enterprise information acquisition subsystem 200, a user behavior exchange subsystem 300, an enterprise behavior exchange subsystem 400 and a carbon transaction platform subsystem 500; firstly, the user terminal 1, the enterprise terminal 2 and the central server 3 are used, one user terminal 1 is a user mobile terminal, the mobile terminal can correspondingly operate to generate corresponding track information, so that the user terminal 1 is an important data source for acquiring user information, the other fixed embedded terminal can be a user vehicle-mounted system, a user home intelligent system, a user home terminal and the like, electricity and water consumption information of a user can be collected, meanwhile, driving conditions of the user can be collected, and after permission, information interaction with the mobile terminal can be completed. The enterprise terminal 2 may be an enterprise management terminal and a monitoring terminal, where the management terminal records and generates enterprise information such as the type of the enterprise, existing equipment, reference amount of carbon emission and the like, and the monitoring terminal is used for monitoring the working states of corresponding equipment, such as emission equipment and reference equipment, so as to facilitate the subsequent update of the enterprise carbon emission information.

The user information obtaining subsystem 100 is configured at the user terminal 1, and the user information obtaining subsystem 100 includes a user configuration module 110 and a user data obtaining module 120; the user configuration module 110 includes a user new building unit 111, a user modification unit 112, a user configuration unit 113 and a user permission unit 114, where the user new building unit 111 corresponds to a user reference database 1111, the user reference database 1111 stores a plurality of user features and corresponding user options, and a user matches the corresponding user features and selects the user options to generate user reference information through the user new building unit 111; the user modifies the user reference information through the user reference database 1111 by the user modification unit 112; the user reference information includes a reference item and a corresponding request item, the user configuration unit 113 corresponds to a configuration information base 1131, the configuration information base 1131 stores a user configuration policy corresponding to the reference item, and the user configuration unit 113 obtains the corresponding user configuration policy according to the user reference information; the user license unit 114 corresponds to a license information base, the user license information base stores a license agreement corresponding to a license item, and the user license unit 114 obtains a data obtaining license corresponding to the license item through the license agreement; the user data obtaining module 120 includes a user monitoring unit 121, a user docking unit 122, and a user scaling unit 123, where the user monitoring unit 121 obtains data of corresponding hardware according to a request item to generate first user actual data, the user docking unit 122 obtains data of software corresponding to a corresponding license item according to the request item to generate second user actual data, and the user scaling unit 123 processes the first user actual data and the second user actual data according to the user configuration policy to generate user low-carbon behavior data; first, the user information acquisition subsystem 100 includes two parts, the user configuration module 110 performs a function of establishing basic information of a user, and the user newly-built unit 111 generates basic information of the user, where the basic information passes through the user reference database 1111 (which is set in the central server 3 and may be downloaded locally), that is, the user reference database 1111 has many features, such as the number of users in the family, the type of user, the location and time. The user can select according to the situation of the user, the data is used as a reference basis for calculating the low-carbon behavior of the user, after the reference information is determined, the required configuration is needed to be correspondingly obtained, namely logic for calculating the low-carbon behavior of the user is needed, namely a user strategy is set, the user configuration strategy reflects how to judge which behaviors are the low-carbon behaviors adopted by the user, for example, the number of families of the user determines the basic water consumption and the electricity consumption, or the working type of the user can determine the basic trip amount, if the trip amount is exceeded, or the original information of the self-driving trip can be used as the basis for judging the low-carbon behavior of the user, for example, contribution services such as blood donation are judged according to the personal situation of the user, for example, the accumulated blood donation or the number of the provided volunteer services. The permission unit is used for establishing permission according to the data to be called, for example, the data of the line to be called, so that data support of public payment APP is needed, for example, data such as blood donation, on-line office and the like are also provided with corresponding data interfaces, and the permission of hardware can be set for verifying the data, for example, the data such as Bluetooth, GPS and the like can be used as the basis for verifying the first data, and actions such as step number brushing and the like of a user are prevented, so that the accuracy of the data is ensured. The user data acquisition module 120 acquires the actual hardware data of the user and the data of the user software docking through the user monitoring unit 121, and then calculates according to the known configuration strategy to obtain the low-carbon behavior data of the user, and the situation that the following situations are avoided, such as the number of steps of the user going out, is needed, one of which is a standard quantity according to the age of the user, and the other is to monitor whether the user needs to go out through the hardware, for example, the number of steps is high for a period of time, the high low-carbon behavior data of the user cannot be obtained, and the other is to improve the accuracy of the data, and the reliability of the data is ensured. The user characteristics comprise travel characteristics, transaction characteristics and contribution characteristics, and the user options corresponding to the travel characteristics comprise travel demand options, general travel options and owned vehicle options; the user options corresponding to the transaction characteristics comprise an online payment option, an online reservation option and an online query option; the user options corresponding to the contribution features include a blood donation option, a volunteer service option, and a donation option. The user characteristics firstly consider travel, such as walking, public transportation, riding, driving, riding and the like, and the user travel characteristics are the conditions of travel, such as daily travel and working travel of the user, such as travel time and travel distance required by the user, such as travel distance far away, the higher the corresponding green coin obtained by conversion is when the user selects the riding or public transportation mode to replace, and if the standard of daily travel and working travel is exceeded, the extra riding and walking can not generate corresponding low-carbon behavior data, and the transaction characteristics such as online payment, online reservation, online inquiry, such as medical treatment, living water fee payment and online inquiry service can provide help for paperless office work, so that the occupation of public resources is saved. And actions such as blood donation, volunteer service, donation service, etc., can be converted to obtain the use basis of the above content by the corresponding user. Providing a basis for the user's subsequent behavior, such as continuous blood donation or contribution by volunteer service, may encourage the user to adhere to the behavior. The central server 3 is configured with a user side update module 130, where the user side update module 130 is configured to update a user configuration policy of the configuration user side 1, and the enterprise side update module is configured to update an enterprise configuration policy of the enterprise side 2. If the system generates new low-carbon behavior or has new standards and understanding for existing low-carbon behavior, the enterprise configuration policy of the client 1 can be updated by the central server 3. The reference item corresponds to a user option, the user reference database 1111 further has a plurality of contribution values and corresponding condition ranges corresponding to each user option, and when the first user actual data or the second user actual data meets the corresponding condition ranges, the corresponding contribution values are obtained to generate the user low-carbon behavior data. Because the corresponding user reference sets the corresponding condition range, the low-carbon behavior generated by the user is ensured to be in the corresponding condition range, for example, the original working time is replaced by the low-carbon behavior generated by public transportation or walking, and the original working time, namely, the important basis of the condition range, has to have corresponding actual data in the time to achieve the corresponding effect. The user configuration policy comprises a plurality of user habit references, and the user configuration policy calculates the difference value between the contribution value and the corresponding user habit reference to generate the user low-carbon behavior data. After the contribution value is obtained, the low-carbon behavior data of the user can be obtained by calculating the difference value between the user habit standard and the contribution value, for example, the low-carbon behavior data corresponds to daily travel, and according to the obtained user information, the system can give a travel standard, for example, the daily travel is carried out 2 times a month, and within 5 km once, if the travel standard is lower than the travel standard, and meanwhile, the riding behavior is carried out, and the low-carbon behavior contribution of the user can be obtained according to the difference value. The user information obtaining subsystem 100 further includes a verification and evaluation module 140, where the verification and evaluation module 140 is configured with a data verification policy, the data verification policy is used to verify the second user actual data through the first user actual data and obtain a deviation result, the central server 3 is provided with a software evaluation database 1401, the software evaluation database 1401 is configured with a software name and a corresponding evaluation weight, and the central server 3 corrects the corresponding evaluation weight of the software according to the deviation result, and when the user generates the user configuration policy, the corresponding evaluation weight is called through the corresponding software name to process the second user actual data to generate the user low-carbon behavior data. The data generated by the software end is verified through the second user actual data, and because the data generated by the software end may have insufficient reliability, the system configures corresponding evaluation weights, namely trust values, to the software because of the situation of brushing steps or data errors, the trust values of the data generated by the software end are adjusted according to the detected detection so as to judge the reliability of the data, and if different user ends 1 have errors to the data fed back by the same software, the evaluation weights are reduced, namely the low-carbon behaviors generated by the software are smaller, so that the software with optimal data effect and higher accuracy can be screened out in a large data feedback mode, and the actual low-carbon behaviors of the user can be reflected.

The enterprise information acquisition subsystem 200 includes an enterprise configuration module 210 and an enterprise data acquisition module 220, where the enterprise configuration module 210 includes an enterprise authorization unit 211 and an enterprise feedback configuration unit 212; the enterprise authorization unit 211 is configured to configure an enterprise configuration policy, the enterprise feedback configuration unit 212 is configured to configure a feedback interface corresponding to a feedback node of an enterprise, and the enterprise data acquisition module 220 includes an enterprise emission docking unit 221, an enterprise energy-saving docking unit 222, and an enterprise conversion unit 223; the enterprise emission interfacing unit 221 is configured to generate first enterprise actual data according to the emission-related feedback interface, the enterprise energy-saving interfacing unit 222 is configured to generate second enterprise actual data according to the energy-saving-related feedback interface, and the enterprise scaling unit 223 is configured to process the first enterprise actual data and the second enterprise actual data according to the enterprise configuration policy to generate enterprise low-carbon behavior data; the data acquisition of the enterprise is realized through the enterprise configuration module 210 and the enterprise data acquisition module 220, first, the enterprise configuration module 210 is used, but the enterprise configuration strategy cannot be configured by a mode of type input, but is configured by a system leading mode, for example, by introducing a government database, standard configuration is realized, for enterprise configuration strategies which are different in different types, different in scale and possibly corresponding to enterprises of different production processes, the enterprise configuration strategy is different in energy consumption value which is required to be given by corresponding enterprises besides emission standards in the enterprise production process, the standard energy-saving purification standard is required to be given by corresponding enterprises, the corresponding production equipment and energy-saving equipment are provided with information such as working effective time and emission point, the enterprise feedback configuration unit 212 configures feedback interfaces corresponding to feedback nodes according to the above conditions, for example, for production equipment (carbon emission), purification equipment (carbon neutral) and energy-saving corresponding monitoring equipment, and correspondingly setting feedback interfaces, the working state of corresponding equipment can be obtained from the state of the corresponding equipment, then, first actual data is obtained through the enterprise emission docking unit 221, the corresponding enterprise emission unit is required to be used for carrying out the real-time data corresponding to be prevented from being discharged when the corresponding equipment is required to be normally configured, if the corresponding equipment is not normally discharged, and the corresponding equipment is required to be normally discharged, and if the corresponding equipment is required to be normally discharged is not configured, or is required to be normally, if the corresponding equipment is required to be discharged. Correspondingly, the enterprise energy-saving docking unit 222 correspondingly monitors two states, the first is daily energy-saving data of the enterprise, such as the action of enterprise water and electricity saving, the considered factors include electric energy and water consumption monitoring outside normal time to obtain corresponding data, and the second is the operation state of the enterprise energy-saving device, and likewise, the operation state of the enterprise energy-saving device can be verified in a database configuration mode to timely find out the adjustment of the enterprise device. The enterprise configuration policy includes an emission type, an emission reference value, and an enterprise energy consumption reference value. And setting enterprise standards through the three reference values, judging whether the enterprise performs low-carbon behaviors, and if the enterprise performs low-carbon behaviors, indicating that the enterprise does not perform low-carbon behaviors.

The user behavior exchange subsystem 300 is configured with a green coin user database 301 and a green coin conversion database 302, the green coin user database 301 stores user information and corresponding green coin values, the green coin conversion database 302 stores a plurality of green coin conversion strategies, the green coin conversion strategies take a user type as an index, the green coin user database 301 and the green coin conversion database 302 are both arranged in the central server 3, the user behavior exchange subsystem 300 comprises a conversion strategy acquisition module 310, a local conversion module 320 and a conversion verification module 330, the conversion strategy acquisition module 310 generates a user type through user reference information of the user terminal 1 and sends the user type to the central server 3, the local conversion module 320 acquires corresponding green coin conversion strategies according to the user type and sends the corresponding green coin conversion strategies to the user terminal 1, the user terminal 1 processes the user low-carbon behavior data according to the green coin conversion strategies to generate a first updated monetary value, and sends the first updated monetary value to the central server 3, the first updated monetary value is compared with the theoretical low-carbon data and the second updated monetary value is generated by the second user low-carbon data corresponding to the theoretical data corresponding to the second updated monetary value corresponding to the second theoretical data, and the second updated monetary value is compared with the theoretical updated value corresponding to the theoretical updated monetary value corresponding to the second theoretical data which is generated by the second updated value corresponding to the user low-carbon data through the green coin conversion strategies corresponding to the user conversion strategies of the user conversion module 3; first, the green coin user database 301 and the green coin conversion data are configured in the central server 3, the central server 3 processes the two data in a centralized manner, the user behavior exchange subsystem 300 acquires the corresponding user type through the conversion policy acquisition module 310, then generates the conversion policy of the green coin according to the user type, the green coin conversion policy is configured in the green coin conversion database 302, and then the acquired green coin conversion policy is sent to the user terminal, and the user terminal executes the green coin conversion policy to obtain a green coin conversion result. As a key strategy of the present invention, since the calculation of green coin is a local calculation, and a corresponding strategy is generated before each calculation in order to ensure the reliability of data, but there is also a problem that the uploaded data cannot be verified, and the verification is realized by replacing encryption with simulation, that is, each calculation of the updated coin value generates an actual updated coin value (first updated coin value) and a virtual updated coin value (second updated coin value), and the first updated coin value is used as useful information, but if the first updated coin value is to be updated, the second updated coin value needs to be verified, and the principle is the same as that of the theoretical second updated coin value, as follows: firstly, randomly generating low-carbon behavior data of a user, according to the low-carbon behavior data of the user, the central server 3 can know a corresponding second updated monetary value obtained theoretically, then, transmitting the low-carbon behavior data to the user terminal, and executing once to obtain the corresponding second updated monetary value for verification, so that the terminal is prevented from skipping the calculation of the first updated monetary value through the manuscript restoration of a program, the first updated monetary value is directly transmitted to the central server 3, and the reliability of the data can be ensured while the data is processed locally.

The enterprise information obtaining subsystem 200 is configured with a blue coin enterprise database 401 and a blue coin conversion database 402, the blue coin enterprise data stores enterprise information and corresponding blue coin values, the blue coin conversion database 402 stores a plurality of blue coin conversion strategies, the blue coin conversion strategies take enterprise types as indexes, the blue coin enterprise database 401 and the blue coin conversion database 402 are both arranged in the central server 3, the enterprise information obtaining subsystem 200 comprises a data uploading module 410, a cloud conversion module 420 and a data erasing module 430, the data uploading module 410 is used for obtaining corresponding enterprise low-carbon behavior data from the enterprise end 2, the cloud conversion module 420 is used for obtaining corresponding blue coin conversion strategies according to enterprise types corresponding to enterprise reference information, processing the enterprise low-carbon behavior data according to the blue coin conversion strategies to generate third updated coin values, and inputting the third updated values into the blue coin enterprise database 401 to update the corresponding blue coin values, and the data erasing module 430 is used for erasing the low-carbon behavior data of the central server 3; by configuring blue currency for the low-carbon behavior of the enterprise, the blue currency can be sent to the central server 3 through the enterprise data uploading module 410, and indexed through the central server 3, so that all data can be verified at the central server 3, if the modification condition occurs at the enterprise end 2, the central server 3 can learn the condition at the first time, and data erasure is performed after the low-carbon behavior data are converted into blue currency through the data erasure module 430, so that a corresponding updated monetary value can be obtained, and the blue monetary value of the enterprise is updated.

The carbon transaction platform subsystem 500 is configured with a green coin transaction module 510 and a blue coin transaction module 520, wherein the green coin transaction module 510 is used for supporting the transaction of green coins in the carbon transaction platform subsystem 500, and the blue coin transaction module 520 is used for supporting the transaction of blue coins in the carbon transaction platform subsystem 500. The carbon transaction platform subsystem 500 further includes a green coin generation module 530, where the green coin generation module 530 configures a plurality of green coin generation products in advance, and when the user side 1 purchases a corresponding green coin generation product, a purchase update monetary value is correspondingly generated, and the purchase update monetary value is input into the green coin user database 301 to update the corresponding green monetary value; the carbon transaction platform subsystem 500 further includes a blue coin generation module 540, where the blue coin generation module 540 configures a plurality of blue coin generation products in advance, and when the enterprise terminal 2 sells the corresponding blue coin generation products, correspondingly generates a sold updated monetary value, and inputs the sold updated monetary value into the blue coin enterprise database 401 to update the corresponding blue monetary value. The carbon transaction platform further comprises a monetary value transaction module 550, wherein the monetary value transaction module 550 is configured with a transaction proportion, and the monetary value transaction module 550 is used for supporting the transaction between the green coin of the user terminal 1 and the blue coin of the enterprise terminal 2 according to the transaction proportion. The carbon transaction platform has the following functions that, for example, the corresponding products, consumption coupons, services and the like can be exchanged through blue coins and green coins, and the second can be exchanged between the blue coins and the green coins, for example, enterprises can improve their emission standards through buying the green coins for users, and can also realize the currency flexibility of the carbon transaction market through buying the blue coins for enterprises to increase their green coins, besides, the blue coins and the green coins can be accumulated in the consumption process, and if the environment-friendly and low-carbon products are authenticated by the country, the corresponding blue coins or the green coins can be obtained through transaction behaviors by both the consumers buying the products and the enterprises producing the products, so that the use of the environment-friendly commodity is promoted.

Of course, the above is only a typical example of the invention, and other embodiments of the invention are also possible, and all technical solutions formed by equivalent substitution or equivalent transformation fall within the scope of the invention.

Claims (6)

1. A carbon transaction system based on a green coin and blue coin system, characterized in that: the system comprises a user end, an enterprise end, a central server, a user information acquisition subsystem, an enterprise information acquisition subsystem, a user behavior exchange subsystem, an enterprise behavior exchange subsystem and a carbon transaction platform subsystem;

the user information acquisition subsystem is configured at a user side and comprises a user configuration module and a user data acquisition module; the user configuration module comprises a user newly-built unit, a user modification unit, a user configuration unit and a user permission unit, wherein the user newly-built unit corresponds to a user reference database, the user reference database stores a plurality of user characteristics and corresponding user options, and a user matches the corresponding user characteristics and selects the user options through the user newly-built unit to generate user reference information; the user modifies the user reference information through the user reference database by the user modification unit; the user reference information comprises a reference item and a corresponding request item, the user configuration unit corresponds to a configuration information base, the configuration information base stores user configuration strategies corresponding to the reference item, and the user configuration unit acquires the corresponding user configuration strategies according to the user reference information; the user license unit is correspondingly provided with a license information base, the user license information base stores a license agreement corresponding to the license item, and the user license unit acquires the data acquisition license corresponding to the license item through the license agreement; the user data acquisition module comprises a user monitoring unit, a user interfacing unit and a user conversion unit, wherein the user monitoring unit acquires data of corresponding hardware according to a request item to generate first user actual data, the user interfacing unit acquires data of software corresponding to a corresponding permission item according to the request item to generate second user actual data, and the user conversion unit processes the first user actual data and the second user actual data according to the user configuration strategy to generate user low-carbon behavior data;

the enterprise information acquisition subsystem comprises an enterprise configuration module and an enterprise data acquisition module, wherein the enterprise configuration module comprises an enterprise authorization unit and an enterprise feedback configuration unit; the enterprise authorization unit is used for configuring an enterprise configuration strategy, the enterprise feedback configuration unit is used for configuring a feedback interface corresponding to a feedback node of an enterprise, and the enterprise data acquisition module comprises an enterprise emission docking unit, an enterprise energy-saving docking unit and an enterprise conversion unit; the enterprise emission interfacing unit is used for generating first enterprise actual data according to the emission-related feedback interface, the enterprise energy-saving interfacing unit is used for generating second enterprise actual data according to the energy-saving-related feedback interface, and the enterprise conversion unit processes the first enterprise actual data and the second enterprise actual data according to the enterprise configuration strategy to generate enterprise low-carbon behavior data;

the user behavior exchange subsystem is configured with a green coin user database and a green coin conversion database, the green coin user database stores user information and corresponding green coin values, the green coin conversion database stores a plurality of green coin conversion strategies, the green coin conversion strategies take user types as indexes, the green coin user database and the green coin conversion database are arranged in the central server, the user behavior exchange subsystem comprises a conversion strategy acquisition module, a local conversion module and a conversion verification module, the conversion strategy acquisition module generates user types through user reference information of a user end and sends the user types to a central server, the local conversion module acquires corresponding green coin conversion strategies according to the user types through the central server and sends the corresponding green coin conversion strategies to the user end, the user end processes the user low-carbon behavior data according to the green coin conversion strategies to generate a first updated value, and sends the first updated coin value to the central server, the conversion verification module generates a second updated value which is obtained by randomly generating a pair of user low-carbon behaviors according to the corresponding green coin conversion strategies, and sends the second updated value to the theoretical value to the central server, and the second updated value is compared with the theoretical value of the second money is obtained by the second conversion module, and the second value is updated by the second value of the theoretical value is compared with the second value of the theoretical value of the second money which is obtained by the second updating the theoretical value;

the enterprise information acquisition subsystem is configured with a blue coin enterprise database and a blue coin conversion database, the blue coin enterprise data is stored with enterprise information and corresponding blue coin values, the blue coin conversion database is stored with a plurality of blue coin conversion strategies, the blue coin conversion strategies are indexed by enterprise types, the blue coin enterprise database and the blue coin conversion database are both arranged on a central server, the enterprise information acquisition subsystem comprises a data uploading module, a cloud conversion module and a data erasing module, the data uploading module is used for acquiring corresponding enterprise low-carbon behavior data from the enterprise end, the cloud conversion module is used for acquiring corresponding blue coin conversion strategies according to enterprise types corresponding to enterprise reference information, processing the enterprise low-carbon behavior data according to the blue coin conversion strategies to generate third updated coin values, the third updated coin values are input into the blue coin enterprise database to update the corresponding blue coin values, and the data module erases the enterprise low-carbon behavior data of the central server;

the carbon transaction platform subsystem is provided with a green coin transaction module and a blue coin transaction module, wherein the green coin transaction module is used for supporting the transaction of green coins in the carbon transaction platform subsystem, and the blue coin transaction module is used for supporting the transaction of blue coins in the carbon transaction platform subsystem;

the reference item corresponds to a user option, the user reference database also corresponds to each user option and has a plurality of contribution values and corresponding condition ranges, and when the first user actual data or the second user actual data accords with the corresponding condition ranges, the corresponding contribution values are obtained to generate the user low-carbon behavior data;

the user configuration strategy comprises a plurality of user habit references, and the user configuration strategy calculates the difference value between the contribution value and the corresponding user habit reference to generate the user low-carbon behavior data;

the user information acquisition subsystem further comprises a verification evaluation module, the verification evaluation module is configured with a data verification strategy, the data verification strategy is used for verifying second user actual data through first user actual data and obtaining deviation results, the central server is provided with a software evaluation database, the software evaluation database is configured with software names and corresponding evaluation weights, the central server corrects the evaluation weights of corresponding software according to the deviation results, and when a user generates a user configuration strategy, the corresponding evaluation weights are called through the corresponding software names to process the second user actual data so as to generate user low-carbon behavior data.

2. A carbon transaction system based on a green and blue coin system as claimed in claim 1 wherein: the user characteristics comprise travel characteristics, transaction characteristics and contribution characteristics, and the user options corresponding to the travel characteristics comprise travel demand options, general travel options and owned vehicle options; the user options corresponding to the transaction characteristics comprise an online charging option, an online reservation option and an online query option; the user options corresponding to the contribution features include a blood donation option, a volunteer service option, and a donation option.

3. A carbon transaction system based on a green and blue coin system as claimed in claim 1 wherein: the central server is configured with a user side updating module, the user side updating module is used for updating the user configuration strategy of the configuration user side, and the enterprise side updating module is used for updating the enterprise configuration strategy of the enterprise side.

4. A carbon transaction system based on a green and blue coin system as claimed in claim 1 wherein: the enterprise configuration policy includes an emission type, an emission reference value, and an enterprise energy consumption reference value.

5. A carbon transaction system based on a green and blue coin system as claimed in claim 1 wherein: the carbon transaction platform subsystem further comprises a green coin generation module, wherein the green coin generation module is pre-configured with a plurality of green coin generation products, when a user side purchases the corresponding green coin generation products, a purchase update monetary value is correspondingly generated, and the purchase update monetary value is input into the green coin user database to update the corresponding green coin value;

the carbon transaction platform subsystem further comprises a blue coin generation module, wherein the blue coin generation module is pre-configured with a plurality of blue coin generation products, when the enterprise side sells the corresponding blue coin generation products, the corresponding generation of the sold updated monetary value is performed, and the sold updated monetary value is input into the blue coin enterprise database to update the corresponding blue monetary value.

6. A carbon transaction system based on a green and blue coin system as claimed in claim 1 wherein: the carbon transaction platform further comprises a monetary transaction module, wherein the monetary transaction module is configured with a transaction proportion, and the monetary transaction module is used for supporting transaction between green coins at a user side and blue coins at an enterprise side according to the transaction proportion.