CN113378014A - Campus personal carbon footprint evaluation method and system - Google Patents

Abstract

The application discloses a campus personal carbon footprint evaluation method and system, and belongs to the field of campus management. In the campus personal carbon footprint evaluation system, target movement information of target personnel is accurately acquired by arranging a face recognition device and a position monitoring device at important places of a campus, target track information is generated through a track generation platform, and then the target track information is sent to a carbon footprint evaluation platform, so that the operation pressure of the carbon footprint evaluation platform is relieved; in addition, a carbon emission comprehensive calculation platform is provided for periodically acquiring carbon emission data of all buildings in the campus, and accurate acquisition of personal carbon emission data is achieved by combining target track information, so that a carbon footprint evaluation report is obtained, and the carbon emission comprehensive calculation platform plays an important role in improving personal low-carbon life consciousness of the campus through a report form and also makes important preparation for follow-up campus carbon emission big data investigation.

Description

Campus personal carbon footprint evaluation method and system

Technical Field

The invention relates to the field of campus management, in particular to a campus personal carbon footprint evaluation method and system.

Background

The carbon footprint refers to the collection of greenhouse gas emissions caused by the organization, activity, product or individual of an enterprise through transportation, food production and consumption, and various types of production processes, etc.

With the gradual improvement of national environmental protection concept, more and more enterprises, campuses and other groups begin to pay attention to low-carbon operation so as to realize social value and reflect social responsibility.

In order to improve the environmental protection quality of the next generation of national people, the low-carbon concept needs to be advocated from the young generation. The invention relates to the field of campus management, and in the related art, the invention does not relate to a method and a system for accurately evaluating a campus personal carbon footprint.

Disclosure of Invention

The invention provides a campus personal carbon footprint evaluation method and system, and aims to solve the problem that low carbon management accuracy in the campus management field is to be improved in the related technology. The technical scheme is as follows:

in one aspect, a campus personal carbon footprint assessment system is provided, the system comprising: the system comprises a face recognition device, a position monitoring device, a track generation platform, a carbon emission comprehensive calculation platform and a carbon footprint evaluation platform;

the face recognition device and the position monitoring device are arranged at an entrance and an exit in the campus and at a road junction; data interaction is carried out between the track generation platform and the carbon footprint evaluation platform;

the face recognition device is used for recognizing target identity information of a target person; the position monitoring device is used for determining target movement information of the target personnel, wherein the target movement information comprises the target identity information; the track generation platform is used for generating target track information of the target personnel according to the target movement information; the carbon emission comprehensive computing platform is used for periodically acquiring carbon emission data of all buildings in the campus;

and the carbon footprint evaluation platform is used for generating a carbon footprint evaluation report of the target personnel according to the target track information and the carbon emission data of each building.

In another aspect, a campus personal carbon footprint evaluation method is provided, which is applicable to the campus personal carbon footprint evaluation system, and the method includes:

the carbon footprint evaluation platform acquires target track information of the target personnel, the target track information is sent by the track generation platform, the target track information is generated by the track generation platform according to the target movement information, the target movement information is determined by the position monitoring device, the target movement information comprises the target identity information, and the target identity information is recognized by the face recognition device;

the carbon footprint evaluation platform acquires carbon emission data of each building in the campus, and the carbon emission data is sent by the carbon emission comprehensive calculation platform;

the carbon footprint evaluation platform determines the carbon emission data of the target personnel according to the target track information and the carbon emission data of each building;

and the carbon footprint evaluation platform generates a carbon footprint evaluation report of the target personnel according to the carbon emission data of the target personnel.

The invention has the following beneficial effects:

in the embodiment of the invention, the campus personal carbon footprint evaluation system is provided, the face recognition device and the position monitoring device are arranged at important places of the campus, the target movement information of target personnel is accurately acquired, then the target track information is generated through the track generation platform, and then the target track information is sent to the carbon footprint evaluation platform, so that the operation pressure of the carbon footprint evaluation platform is relieved; in addition, a carbon emission comprehensive calculation platform is provided for periodically acquiring carbon emission data of all buildings in the campus, and accurate acquisition of personal carbon emission data is achieved by combining target track information, so that a carbon footprint evaluation report is obtained, and the carbon emission comprehensive calculation platform plays an important role in improving personal low-carbon life consciousness of the campus through a report form and also makes important preparation for follow-up campus carbon emission big data investigation.

Drawings

FIG. 1 is a schematic structural diagram of a campus personal carbon footprint evaluation system provided by an exemplary embodiment of the present application;

FIG. 2 is a schematic structural diagram of a campus personal carbon footprint evaluation system provided in another exemplary embodiment of the present application;

FIG. 3 illustrates a flow chart of a campus personal carbon footprint assessment method provided by an exemplary embodiment of the present application;

FIG. 4 shows a flow chart of a campus personal carbon footprint assessment method provided by another example embodiment of the present application.

Detailed Description

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

Reference herein to "a plurality" means two or more. "and/or" describes the association relationship of the associated objects, meaning that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship.

Example 1

Referring to fig. 1, a schematic structural diagram of a campus personal carbon footprint evaluation system according to an exemplary embodiment of the present application is shown. The system comprises a face recognition device 100, a position monitoring device 200, a trajectory generation platform 300, a carbon emission comprehensive calculation platform 400 and a carbon footprint evaluation platform 500.

The face recognition device 100 and the position monitoring device 200 are installed at an entrance and an exit and a road junction in a campus, and data interaction is performed between the track generation platform 300 and the carbon footprint evaluation platform 500.

Optionally, the face recognition device 100 and the position monitoring device 200 may also be installed only at important entrances and exits, such as each gate of a school, a dormitory doorway, a teaching building doorway, and the like, that is, the installation number of the face recognition device 100 and the position monitoring device 200 may be set according to the accuracy of the evaluation.

The face recognition device 100 is configured to recognize target identity information of a target person, and the position monitoring device 200 is configured to determine target movement information of the target person, where the target movement information includes the target identity information. The trajectory generation platform 300 is configured to generate target trajectory information of target persons according to the target movement information, and the carbon emission comprehensive calculation platform 400 is configured to periodically acquire carbon emission data of each building in the campus.

Optionally, the face recognition device 100 may reuse existing monitoring equipment in the school to save the layout cost of the campus personal carbon footprint evaluation system.

The periodic acquisition refers to acquiring carbon emission data of all buildings in the campus at intervals.

The carbon footprint evaluation platform 500 is used for generating a carbon footprint evaluation report of the target personnel according to the target track information and the carbon emission data of each building.

In a possible implementation manner, the carbon footprint evaluation platform can determine buildings and paths that the target personnel have gone through according to the target track information, so that carbon emission data corresponding to the target personnel track are obtained from the carbon emission data of each building, and finally a carbon footprint evaluation report of the target personnel is generated.

Optionally, the carbon footprint evaluation report may be carbon footprint data of the day, or carbon footprint data of other specified time periods, and may also compare the current carbon emission data of the target person according to the low carbon requirement of the campus, evaluate whether the current carbon emission data of the target person meets the standard, provide warning that carbon emission at each building exceeds the standard, and improve the low carbon behavior awareness of individuals in the campus by this way.

In the embodiment of the invention, the campus personal carbon footprint evaluation system is provided, the face recognition device and the position monitoring device are arranged at important places of the campus, the target movement information of target personnel is accurately acquired, then the target track information is generated through the track generation platform, and then the target track information is sent to the carbon footprint evaluation platform, so that the operation pressure of the carbon footprint evaluation platform is relieved; in addition, a carbon emission comprehensive calculation platform is provided for periodically acquiring carbon emission data of all buildings in the campus, and accurate acquisition of personal carbon emission data is achieved by combining target track information, so that a carbon footprint evaluation report is obtained, and the carbon emission comprehensive calculation platform plays an important role in improving personal low-carbon life consciousness of the campus through a report form and also makes important preparation for follow-up campus carbon emission big data investigation.

Example 2

Referring to fig. 2, a schematic structural diagram of a campus personal carbon footprint evaluation system according to another exemplary embodiment of the present application is shown. The system includes an energy source monitoring device 600 in addition to the configuration shown in fig. 1.

Energy monitoring devices 600 are installed in each building in the campus, and energy monitoring devices 600 are used for periodically monitoring and acquiring carbon emission data of the building, and are further used for interacting the carbon emission data with carbon emission comprehensive computing platform 400.

Optionally, in order to further improve the accuracy of the carbon emission data, the low carbon behavior of the target personnel is also considered, such as the use of public materials (thereby reducing carbon emission). In the embodiment of the present application, the carbon footprint evaluation platform 500 further performs data interaction with a public borrowing system in the school, and the public borrowing system is used to provide carbon saving data to the carbon footprint evaluation platform 500.

Alternatively, considering the complexity and non-monitoring performance of the behaviors, the public borrowing system can be defined as a management system for the use of public materials in the campus, such as book borrowing, bicycle borrowing and the like.

Correspondingly, the carbon footprint evaluation platform 500 is further configured to update the carbon footprint evaluation report of the target person according to the section carbon data.

In the embodiment of the application, the campus personal carbon footprint evaluation system further comprises an energy monitoring device, and the energy monitoring device is installed in each building in the campus, so that accurate data acquisition is realized for each building.

In the embodiment of the application, low-carbon behaviors of target personnel are also considered, and the carbon footprint evaluation platform performs data interaction with a public borrowing system in a school, so that the accuracy of carbon emission data is further improved.

Example 3

Referring to fig. 3, a flow chart of a campus personal carbon footprint assessment method is shown in an exemplary embodiment of the present application. The method is suitable for the campus personal carbon footprint evaluation system shown in FIG. 1, and comprises the following steps:

step 301, the carbon footprint evaluation platform acquires target track information of a target person, and the target track information is sent by the track generation platform.

The target track information is sent by the track generation platform, the target track information is generated by the track generation platform according to target movement information, the target movement information is determined by the position monitoring device, the target movement information comprises target identity information, and the target identity information is recognized by the face recognition device.

And step 302, the carbon footprint evaluation platform acquires carbon emission data of each building in the campus, and the carbon emission data is sent by the carbon emission comprehensive calculation platform.

And step 303, the carbon footprint evaluation platform determines the carbon emission data of the target personnel according to the target track information and the carbon emission data of each building.

And step 304, the carbon footprint evaluation platform generates a carbon footprint evaluation report of the target personnel according to the carbon emission data of the target personnel.

In the embodiment of the present application, a campus personal carbon footprint evaluation method is provided for explaining an information interaction process of the campus personal carbon footprint evaluation system in embodiment 1, and for step explanation, reference is made to the description of embodiment 1, which is not repeated.

Example 4

Referring to FIG. 4, a flow chart of a campus personal carbon footprint assessment method is shown in another exemplary embodiment of the present application. The method is suitable for the campus personal carbon footprint evaluation system shown in FIG. 2, and comprises the following steps:

step 401, the carbon footprint evaluation platform acquires target track information of the target personnel, and the target track information is sent by the track generation platform.

Optionally, please refer to step 301 for the content of this step, which is not described herein again.

And step 402, the carbon footprint evaluation platform acquires carbon emission data of each building in the campus, and the carbon emission data is sent by the carbon emission comprehensive calculation platform.

Optionally, please refer to step 302 for the content of this step, which is not described herein again.

And step 403, the carbon footprint evaluation platform determines periodic carbon emission data of each building according to the carbon emission data.

And step 404, the carbon footprint evaluation platform acquires the activity time sequence of the target personnel at each building according to the target track information.

And step 405, the carbon footprint evaluation platform determines the carbon emission data of the target personnel according to the periodic carbon emission data of each building and the activity time sequence of the target personnel.

In one possible implementation, this step includes the following content one and content two.

The first content and the first carbon footprint evaluation platform acquire the activity time periods of all buildings according to the activity time sequence of the target personnel.

And secondly, acquiring carbon emission data of the target personnel in the activity time period from the periodic carbon emission data of each building by the carbon footprint evaluation platform.

And 406, generating a carbon footprint evaluation report of the target personnel by the carbon footprint evaluation platform according to the carbon emission data of the target personnel.

Step 407, the carbon footprint evaluation platform acquires the data of the number of the nodes, and the data of the number of the nodes is sent by a public borrowing system in the school.

And step 408, the carbon footprint evaluation platform updates the carbon footprint evaluation report of the target personnel according to the node number data.

In the embodiment of the present application, another campus personal carbon footprint evaluation method is provided for explaining an information interaction process of the campus personal carbon footprint evaluation system in embodiment 2, and for step explanation, reference is made to the description of embodiment 2, which is not repeated.

The above-mentioned serial numbers of the present invention are for description only and do not represent the merits of the embodiments. The above description is only exemplary of the present application and should not be taken as limiting, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (7)

1. A campus personal carbon footprint evaluation system, the system comprising: the system comprises a face recognition device, a position monitoring device, a track generation platform, a carbon emission comprehensive calculation platform and a carbon footprint evaluation platform;

the face recognition device and the position monitoring device are arranged at an entrance and an exit in the campus and at a road junction; data interaction is carried out between the track generation platform and the carbon footprint evaluation platform;

the face recognition device is used for recognizing target identity information of a target person; the position monitoring device is used for determining target movement information of the target personnel, wherein the target movement information comprises the target identity information; the track generation platform is used for generating target track information of the target personnel according to the target movement information; the carbon emission comprehensive computing platform is used for periodically acquiring carbon emission data of all buildings in the campus;

and the carbon footprint evaluation platform is used for generating a carbon footprint evaluation report of the target personnel according to the target track information and the carbon emission data of each building.

2. The campus personal carbon footprint evaluation system of claim 1, further comprising an energy monitoring device;

the energy monitoring device is installed in each building in the campus and used for periodically monitoring and acquiring carbon emission data of the building, and is further used for interacting the carbon emission data with the carbon emission comprehensive computing platform.

3. The campus personal carbon footprint evaluation system of claim 1, wherein said carbon footprint evaluation platform is further in data interaction with a public borrowing system within the campus, said public borrowing system for providing carbon savings data to said carbon footprint evaluation platform;

the carbon footprint evaluation platform is further used for updating the carbon footprint evaluation report of the target personnel according to the section carbon data.

4. A campus personal carbon footprint evaluation method, wherein the campus personal carbon footprint evaluation method is applied to the campus personal carbon footprint evaluation system of any one of claims 1 to 3, the method comprising:

the carbon footprint evaluation platform acquires target track information of the target personnel, the target track information is sent by the track generation platform, the target track information is generated by the track generation platform according to the target movement information, the target movement information is determined by the position monitoring device, the target movement information comprises the target identity information, and the target identity information is recognized by the face recognition device;

the carbon footprint evaluation platform acquires carbon emission data of each building in the campus, and the carbon emission data is sent by the carbon emission comprehensive calculation platform;

the carbon footprint evaluation platform determines the carbon emission data of the target personnel according to the target track information and the carbon emission data of each building;

and the carbon footprint evaluation platform generates a carbon footprint evaluation report of the target personnel according to the carbon emission data of the target personnel.

5. The method of claim 4, wherein the carbon footprint evaluation platform determines carbon emission data for the target person based on the target trajectory information and the carbon emission data for each building, comprising:

the carbon footprint evaluation platform determines periodic carbon emission data of each building according to the carbon emission data;

the carbon footprint evaluation platform acquires the activity time sequence of the target personnel at each building according to the target track information;

and the carbon footprint evaluation platform determines the carbon emission data of the target personnel according to the periodic carbon emission data of each building and the activity time sequence of the target personnel.

6. The method of claim 5, wherein the carbon footprint evaluation platform determines the carbon emission data of the target person based on the periodic carbon emission data of the respective building and the activity time series of the target person, comprising:

the carbon footprint evaluation platform acquires the activity time periods of all the buildings according to the activity time sequence of the target personnel;

the carbon footprint evaluation platform obtains carbon emission data of the target person during the activity period from periodic carbon emission data of the respective buildings.

7. The method according to any one of claims 4 to 6, further comprising:

the carbon footprint evaluation platform acquires the data of the number of the nodes, and the data of the number of the nodes is sent by a public borrowing system in a school;

and the carbon footprint evaluation platform updates the carbon footprint evaluation report of the target personnel according to the section carbon data.

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