KR101454431B1 - Green contents management system based on network - Google Patents

Abstract

Based network maintenance and management system that manages the construction and operation cost of a local network and reduces the cost of establishing and operating the network due to changes in the network such as the establishment or replacement of the network, And a system for generating and trading green contents by converting the amount of carbon emission or electricity, which is managed and reduced, into green contents such as carbon credits or power points.

Description

[0001] GREEN CONTENTS MANAGEMENT SYSTEM BASED ON NETWORK [0002]

The present invention relates to a network-based green content management system, and more particularly, to a system for generating and managing green content such as carbon emission rights and power points, such as a reduction amount of carbon dioxide emission and a reduction in power consumption due to a network design change.

In accordance with the Kyoto Protocol, which was adopted in Kyoto, Japan in 1997 (based on the Kyoto Protocol, which was formally adopted on February 16, 2005) based on the Convention on Climate Change in 1992 at the UN Environment Development Conference in Rio, Brazil, To 2012, the carbon emissions will be reduced by 5.2% from 1990 levels. Korea is not obliged to comply, but it is expected that carbon emissions will be regulated after 2013. Therefore, companies with high carbon dioxide emissions should purchase carbon credits from companies that reduce carbon emissions or reduce carbon emissions. Korean Patent No. 10-1052789 discloses a carbon emission trading transaction relay method and system. However, Patent No. 10-1052789 relates to a general carbon emission trading system. Techniques for reducing and trading carbon emissions through the management of a region-based network have not been developed at present.

And to provide a system for reducing the network construction or maintenance cost through efficient management of the area-based network.

Also, it is intended to provide a system which can reduce the carbon emission or power consumption through effective management of the network and convert the reduced carbon emission amount or power consumption reduction amount into carbon emission right or power point, etc. .

According to an aspect of the present invention, there is provided a network management system comprising: a network configuration management unit for updating a network configuration of an entire network of a local network, updating a network configuration when the network is changed and managing the changed network information, A network management unit that includes a network construction cost management unit that manages the construction cost for each or all of the nodes between the nodes, or a network management unit that uses the information of the changed networks when the network is changed, A green content management unit for managing green contents of the network, and a status monitoring unit for monitoring status information including the establishment cost of the current network or the status of green contents.

At this time, the information of the network may include at least one of the type of the network constructed at each branch of the network, the construction length, and the construction cost information.

According to a further aspect, the network information may further include carbon dioxide emission factor information for each type of network, and the green content management unit may use the CO2 emission factor information for each node, each branch or the entire network, And the sales of carbon credits converted to the customer terminal to purchase the carbon credits, and the sales of the carbon credits converted to the carbon credits of the carbon credits And may further include an intermediary selling carbon management authority.

According to a further aspect, the CERM may send a message to the demand customer terminal of the carbon credits to encourage the purchase of carbon credits.

According to a further aspect, the network management unit manages the network operation information including the amount of traffic or power consumption for the current network or the entire network by using the network operation management unit and the network operation information, And a maintenance cost managing unit for managing the maintenance cost for the storage unit.

According to a further aspect, the information of the network may further include the amount of power consumed by the network type, and the green content management unit may use the amount of consumed power of the fluctuated network when the network changes, A power point conversion unit for converting the calculated power reduction amount into a predetermined power point in the content drawn and a sales point of the power point converted to the customer terminal to purchase the power point And a power point sales management unit.

According to a further aspect, the present status information may further include a status of sales of carbon content, a status of sales of green content including a status of sales of power points, or a status of network maintenance expenses, and the status monitoring unit may include a status display unit . ≪ / RTI >

Efficient management of the area-based network can reduce network construction or maintenance costs, eliminate the causes of increased carbon emissions or power consumption, reduce carbon emissions or power consumption reductions to carbon credits or power points And the like, and can efficiently mediate and manage transactions.

1 is a block diagram of a network-based green content management system according to an embodiment.
2 is a detailed block diagram of a network management unit of a network-based green content management system according to an embodiment.
3 is a detailed block diagram of a green content management unit of a network-based green content management system according to an exemplary embodiment.
4 is a detailed block diagram of a status monitoring unit in a network-based green content management system according to an embodiment.
5 is a flowchart illustrating a network-based green content management method according to an exemplary embodiment of the present invention.

The details of other embodiments are included in the detailed description and drawings. BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and the manner of achieving them, will be apparent from and elucidated with reference to the embodiments described hereinafter in conjunction with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Hereinafter, a network-based green content management system and method according to embodiments of the present invention will be described in detail with reference to the drawings.

1 is a block diagram of a network-based green content management system according to an embodiment. As shown in FIG. 1, the network-based green content management system 1 includes a network management unit 100, a green content management unit 200, and a status monitoring unit 300. At this time, each of the network management unit 100, the green content management unit 200, and the status monitoring unit 300 may be a separate server or the like.

The network management unit 100 manages the information of the changed network when the network is changed due to the management of the network network diagram, the establishment or replacement of the network, and the like. At this time, the information of the network may include the type of the network, the construction length, and the construction cost information of the branches (between the nodes and the nodes) on the network diagram. The green content management unit 200 manages the green contents according to the change of the network network, that is, the establishment of the network due to the addition of the specific node, or the replacement of the network constructed at a certain branch. The status monitoring unit 300 monitors the current status of the network, the status of cost reduction according to the network change, the status of maintenance cost reduction, the status of the reduction of carbon dioxide or consumed power due to the network change, Content sales status, and the like, and displays the status information on a display means such as a monitor.

On the other hand, green contents mean all effects that can be obtained by designing or changing the network to efficiently cope with depletion of natural resources and climate change, such as reduction of network construction cost, reduction of maintenance cost, reduction of power consumption, Point or right. For example, the green content may include a cost reduction point, a carbon emission amount in terms of reduced carbon dioxide emission amount, a power point in terms of reduced power consumption amount, an increased data traffic amount, A data processing efficiency point obtained by converting the processing efficiency to a predetermined point, and the like, which are merely examples, and may include pointing out all positive effects that may occur through efficient management of the network.

2 is a detailed block diagram of a network management unit of a network-based green content management system according to an embodiment. The network management unit 100 will be described in detail with reference to FIG. The network management unit 100 may include a network configuration management unit 120, a network configuration 130, and a network configuration cost management unit 140.

The network configuration management unit 120 generates a network configuration 130 for the currently established network of the entire local network and updates the network configuration 130 when the network is changed. Also, it manages the information of the network for the current network, and updates the information about the network when the network is changed. According to a further aspect, the network management unit 100 may further include a network information DB 110. [ The network configuration management unit 120 can store and update the information of the currently established network or the changed network in the network information DB 110. [ In this case, the network information may include the types of networks (eg, copper network, optical fiber network, and wireless network) built for each branch, construction lengths for each branch, and construction cost information for each branch. In addition, the network information may further include carbon dioxide emission coefficient information and consumed energy amount information depending on the type of network.

The network topology 130 represents the network connecting the local networks such as the municipality and the government as nodes and branches. In the network 130, the type of the network constructed in each branch, the amount of real time traffic of the network, Various information such as construction cost information, data transmission rate, carbon dioxide emission coefficient, and the like can be displayed. At this time, the types of the network may be a copper network, an optical fiber network, a wireless network, etc., and may be classified according to the types of the networks and displayed on the network 130. [ As a method of determining each branch network, for example, it is possible to determine whether the power consumption measured at both ends of the data transmission port or the interface transmission line is less than 0.5 W or 5 W or more by checking with the current sensor. That is, when the power consumption is less than 0.5 W, it can be predicted by using PMMA optical fiber if the used wavelength is less than 700 nm, and by using the fluorinated optical fiber when the wavelength is 700 nm or more and 900 nm or less. It is also predicted that glass optical fibers are used when the distance is more than 800 nm and the distance is more than 500 m. In addition, when the power is 0.5 W or more, it is possible to check the consumed power or the like to determine whether it is a radio (RF) signal or data transmission using a power line (PLC). It can be predicted by this method or it can generate and manage precisely the municipality 130 by using data which is measured and managed by the local government or the government.

The network construction cost management unit 140 manages the construction cost of the currently constructed network using the network information, and updates the construction cost of the network using the information of the changed network when a change occurs in the currently constructed network. At this time, the network construction cost management unit 140 may calculate the current construction cost of each network or each node, or may calculate and manage the entire network. According to a further aspect, the network management unit 100 may further include a network construction information DB 150 for storing construction cost information of the current network. The network construction cost management unit 140 may store the construction cost of the current network calculated for each branch or node or the construction cost calculated for the entire network in the network construction information DB 150. [

According to a further aspect, the network management unit 100 may further include a network operation management unit 160, a maintenance cost management unit 170, and a network operation information DB 180. The network operation management unit 160 manages the dynamic operation state of the network. The network operation management unit 160 manages the dynamic operation state of the network and includes network operation information including traffic volume for a specific network, processing efficiency according to traffic volume, . In addition, maximum, minimum, average traffic volume, maximum, minimum and average power consumption can be managed for each node, node, or whole network in a specific period. In addition, the network operation management unit 160 can store and manage the network operation information in the network operation information DB 180.

The maintenance cost management unit 170 manages the maintenance costs for the current network, the nodes, or the entire network. For example, it may include cost information required to prevent a decrease in processing efficiency or an increase in power consumption depending on a traffic amount. In addition, the maintenance cost management unit 160 can store and manage the network operation information in the network operation information DB 180. [

3 is a detailed block diagram of a green content management unit of a network-based green content management system according to an exemplary embodiment. The green content management unit 200 manages green contents for each node, each branch, or the entire network by using information of the network that is changed when the network is changed. Referring to FIG. 3, the green content management unit 200 may include a reduction information DB 210 and a reduction cost calculation unit 220.

The reduction information DB 210 may store reduction information such as construction costs, carbon dioxide emissions, power consumption, etc., which are reduced or increased when the network is changed, that is, when the network is replaced or newly established or removed. That is, the reduction information can be systematically managed in the reduction information DB 210 for each node, each branch, or the entire network. The reduction cost calculation unit 220 may calculate the network construction cost that is reduced or increased in accordance with the establishment or replacement of the network, and may store and manage the network construction cost in the reduction information DB 210. In this way, the network construction cost is calculated and stored in the database according to the fluctuation of the network. By considering data traffic processing efficiency, power consumption, and carbon emission level, It is possible to utilize it effectively.

According to a further aspect, the green content management unit 200 may further include a carbon reduction amount calculation unit 231, a carbon emission right conversion unit 232, a carbon emission right sale management unit 233, and a carbon emission right sales information DB 234 have. The carbon reduction amount calculation unit 231 calculates and manages the carbon dioxide emission amount according to the design change of the network, that is, the replacement or the establishment of the network. The carbon reduction amount calculation unit 231 may calculate the reduction amount or the increase amount of the carbon dioxide emission according to the network change and store the reduction amount in the reduction information DB 210. On the other hand, the carbon reduction amount calculation unit 231 can calculate the carbon dioxide emission amount according to the fluctuation of the network by using the carbon dioxide emission coefficient information of each network type among the information of the network. The carbon dioxide emission coefficient information for each type of network can be stored and managed in the network information DB 110.

Raw material designation Emission factor unit metal



Copper 4.57E + 00 kg CO ₂ / kg lead 3.92E-01 kg CO ₂ / kg nickel 2.78E + 01 kg CO ₂ / kg Stainless steel 3.23E + 00 kg CO ₂ / kg zinc 2.43E + 00 kg CO ₂ / kg plastic





High density polyethylene 2.03E + 00 kg CO ₂ / kg Impact resistant polystyrene 1.79E + 00 kg CO ₂ / kg Expanded polystyrene 1.96E + 00 kg CO ₂ / kg Foamed polypropylene 2.89E + 00 kg CO ₂ / kg Low density polyethylene 1.86E + 00 kg CO ₂ / kg Polybutadiene 1.17E + 00 kg CO ₂ / kg polystyrene 1.81E + 00 kg CO ₂ / kg Polypropylene 1.47E + 00 kg CO ₂ / kg

The above table is an excerpt of data from the Korea Environmental Industry & Technology Institute. As can be seen from the above table, it can be seen that when using a fiber optic network using a plastic optical fiber instead of a copper network using copper as a raw material in changing the design or network of the network, the carbon dioxide emission is reduced. Using this information, systematically calculating and managing the CO2 emission amount of the network that is currently established, or the amount of carbon dioxide emission that fluctuates when the network is changed, for each node, each branch, and the entire network, It is possible to induce the use of plastic optical fiber network in designing the whole network.

The carbon emission reduction unit 232 converts the carbon emission reduction amount calculated by the carbon reduction amount calculation unit 231 into a carbon emission right in the content. Carbon CERTIFICATE The Sales and Marketing Department (233) mediates the sale of carbon credits converted to customer terminals that are interested in purchasing carbon credits. In addition, the carbon emission right sales management unit 233 can store the carbon emission right sales information in the carbon emission right sales information DB 234 and manage it. The information on the purchaser customer, the sales amount, and the like can be stored in the carbon emission right sales information DB 234.

Carbon Credits Sales Management (233) can send a message to the potential customer of carbon credits to encourage the purchase of carbon credits. The carbon emission certificate sales management section 233 includes a carbon emission certificate customer DB (not shown) for storing customer information for a demanding customer such as a customer (for example, a corporation, a financial institution, a CDM business, etc.) As shown in FIG. At this time, it is possible to invite purchase by transmitting a text message to an e-mail or a cellular phone using terminal information (e.g., e-mail, mobile phone number, etc.) in demand customer information. The purchase solicitation message can be automatically transmitted periodically by the system.

According to a further aspect, the green content management unit 200 may further include a reduction power calculation unit 241, a power point conversion unit 242, a power point sale management unit 243, and a power point sales information DB 244. The power reduction calculator 241 calculates the amount of power reduction for each node, each branch, or the entire network when the network is changed by using the information on the amount of power consumed in the information of the network. The power reduction calculator 241 can store information on the calculated power reduction amount in the reduction information DB 210. [ The power point conversion unit 242 can convert the calculated amount of power reduction to a predetermined point in the content.

The power point sale management unit 243 mediates the sales of the power point to the customer terminal to purchase the power point. The power point sale management unit 243 may transmit a message to the potential demand customer terminal of the power point to invite purchase of the power point. The power point sales management unit 243 may further include a power point customer DB (not shown) for storing customer information on a power trading customer (e.g., KEPCO, etc.). At this time, it is possible to invite purchase by transmitting a text message to an e-mail or a cellular phone using terminal information (e.g., e-mail, mobile phone number, etc.) in demand customer information. The purchase solicitation message can be automatically transmitted periodically by the system.

In this way, it is possible to accurately calculate the degree of reduction of carbon emissions or power consumption when a contractor or the like exchanges with a network in which carbon or power consumption is reduced (for example, a plastic optical fiber network) By creating and databaseing content, contractors and others can make money by selling them to customers who demand carbon credits or power points. In addition, sales information of green contents such as carbon credits or power points is databaseed and monitored to display the current status of the company or to present relevant information to the related persons (contractors, managers, demand customers, etc.) can do.

4 is a detailed block diagram of a status monitoring unit in a network-based green content management system according to an embodiment. The status monitoring unit 300 will be described in detail with reference to FIG. The status monitoring unit 300 monitors and displays information on the status of various network construction and maintenance costs, sales status of green contents such as carbon emission rights or power points, and displays or manages the information on network status 130, The status monitoring unit 310, the network operation status monitoring unit 320, the sales status monitoring unit 330, the status information DB 340, and the display unit 350.

The network configuration status monitoring unit 310 monitors various information on the current network configuration status, and for example, information on the configuration cost of each node, each branch, or the entire network to the current network, carbon emission amount or power consumption information And so on. In addition, in the case of network fluctuations, the status of the network increases or decreases due to fluctuating network information and the degree of reduction or increase in the construction cost, carbon emission or power consumption is collected and monitored. In addition, the network configuration monitoring unit 310 can store the monitored information in the status information DB 340, and further generate statistical information according to various criteria such as various regions, nodes, local governments, construction companies, Can be stored in an information DB (not shown).

The network operation status monitoring unit 320 monitors various information about the operation of the network that is currently being established, and for example, calculates a real-time or periodic traffic amount of each node, And the cost or input prediction cost to increase such data processing efficiency or reduce carbon emission or power consumption. In addition, the network operation status monitoring unit 310 can store the monitored information in the status information DB 340, and further generates statistical information according to various criteria such as various regions, nodes, local governments, construction companies, Can be stored in an information DB (not shown).

The sales status monitoring unit 340 may monitor sales status information of green contents such as carbon credits and power points and store the status information in the status information DB 340. In addition, various statistical information can be generated and stored in a statistical information DB (not shown) by region, node, local government or construction company by utilizing various sales status information monitored.

The display unit 350 displays various status information stored in the status information DB 340 on display means such as a monitor. At this time, the display unit 350 may display various status information on the screen display 130 to provide the screen display 130 to the user so that the user can easily grasp various statuses. To this end, the miter diagram 130 displayed on the display means by the display unit 350 is generated so that the user interface is intuitive and easy, and the user performs various operations such as enlarging, reducing, moving, etc. Or provide a touch or multi-touch function so that users can easily zoom in, zoom out and move a specific region, node, and the like. In addition, when a specific node or the like is clicked, detailed information can be provided or a map of the area can be displayed. At this time, the map can be provided in cooperation with a map provided through the self-made or open API (Application Programming Interface).

By monitoring various status information in such a manner and displaying it in a database and displaying it through a mobile terminal or a web of a desired user, the local governments and the like have the effect of promoting general policies on the network management in the local area.

The message transmission unit 360 transmits various status information or a statistical information DB (not shown) stored in the status information DB 340 to terminals such as contractors, municipalities, carbon emission certificates or power point purchasing customers, And local governments can utilize these various information in the construction and design of the network network in the future, and customers who need carbon credits can check the carbon emission information of construction companies and use them when making purchases.

5 is a flowchart illustrating a network-based green content management method according to an exemplary embodiment of the present invention. 5, first, the network management unit 100 generates a network configuration 130 for a network in the area, and when the network is newly installed or replaced, the network configuration unit 130 (510). Also, information on the network for the current network is managed, and information on the changed network in the network information DB 110 is updated when the network is changed. In this case, the network information includes information on the type of network (eg, copper network, optical fiber network, wireless network, etc.) constructed for each branch, construction length of each branch, information on construction cost for each branch, , Power consumption information, and the like.

In the meantime, the generated wormhole 130 is represented by nodes and branches that connect local networks such as municipalities and governments. In the wormhole 130, types of networks constructed in each branch, , Power consumption, construction cost information, data transmission rate, carbon dioxide emission coefficient, and the like. And can be displayed on the screen 130 according to the type of each network.

Meanwhile, the network management unit 100 manages the construction cost of the currently established network using the network information, and updates the construction cost of the network using information of the changed network when a change occurs in the currently constructed network . At this time, the network management unit 100 can calculate the construction cost of the current network by each branch or each node, or can calculate and manage the entire network.

Then, the reduced construction cost, carbon emissions or power consumption due to the fluctuation of the network when the network is changed is calculated (step 520). The green content management unit 200 can calculate the network construction cost reduced or increased in accordance with the establishment or replacement of the network, and store and manage the network construction cost in the reduction information DB 210.

According to a further aspect, the green content managing unit 200 calculates and manages the carbon dioxide emission amount according to the design change of the network network, that is, the replacement or the establishment of the network. The green content management unit 200 may calculate the reduction or increase amount of the carbon dioxide emission due to the network change and store the reduction amount in the reduction information DB 210. The carbon dioxide emission factor of the network can be calculated by using the information of the carbon dioxide emission factor by the network type among the information of the network. The carbon dioxide emission coefficient information for each type of network can be stored and managed in the network information DB 110. By using the information on carbon emission factors for each network of raw materials of these networks, it is possible to systematically calculate and manage the carbon dioxide emissions of the currently constructed network or the carbon dioxide emissions of the respective nodes, the branches, and the entire network, It is possible to induce contractors to use plastic optical fiber networks in the future when designing new network or entire network.

According to a further aspect, the green content management unit 200 can calculate the power reduction amount for each node, each branch, or the entire network when the network is changed by using the consumed power amount information in the information of the network.

Then, the green content management unit 200 converts the calculated carbon emission reduction amount or power reduction amount into carbon emission right or power point (step 530).

The sales are then brokered to customers who wish to purchase the converted carbon credits or power points (step 540). The green content management unit 200 can mediate the sale of the carbon credits converted to the customer terminal to purchase the carbon credits, and store the carbon credits sales information in the carbon credits sales information database 234 and manage it. The green content management unit 200 may transmit a message to the potential demand customer terminal of the carbon emission right to encourage the purchase of the carbon emission right. According to a further aspect, the green content management unit 200 mediates sales of power points to a customer terminal to purchase a power point. Also, the green content management unit 200 may transmit a message to the potential demand customer terminal of the power point to invite purchase of the power point.

In this way, it is possible to accurately calculate the degree of reduction of carbon emission or power consumption, which occurs when a contractor or the like exchanges with a network in which carbon or power consumption is reduced (for example, plastic optical fiber network) , The contractor can sell the carbon credits or power points to the demanding customers and generate revenue. In addition, it can database and monitor carbon credits or power point sales information to display the current status of the network or to provide the current status information to the related person (contractor, manager, demand customer, etc.), thereby mediating the accurate transaction.

Lastly, the status monitoring unit 300 monitors and displays various status information on the configuration of the network such as the network construction cost, the network operation status information such as the maintenance cost, and the sales status information of the carbon emission right or power point 550).

The status monitoring unit 300 can monitor current network configuration status, network operation status, or information on sales status of carbon emission rights or power points. For example, information on the construction cost of each node, each branch, or the entire network to the current network, information on carbon emission or power consumption, information on and change of the changed network when the network is changed, Collect and monitor the status of costs, carbon emissions, or reductions or increases in power consumption. In addition, the amount of real-time or periodic traffic of each node, each branch, or the entire network to the current network, data processing efficiency information according to the traffic, and information for increasing the data processing efficiency or reducing carbon emissions or power consumption And monitors the input cost or input forecasting cost. The monitored status information can be stored in the status information DB 340. In addition, statistical information is generated according to various criteria such as various regions, nodes, local governments, contractors, etc. and stored in a statistical information DB (not shown) .

According to a further aspect, the status monitoring unit 300 can display various status information stored in the status information DB 340 on a display means such as a monitor. At this time, the displayed various status information may be displayed on the screen display 130 and provided to the user. The screen display 130 displayed on the display means is generated so that the user interface is intuitive and easy to perform various operations of the screen display through the operation of the operation unit. Also, it is possible to easily enlarge, reduce, and move a specific region, a node, and the like by providing a touch or multi-touch function to the screening function 130, and to provide detailed information of the node when a specific node is clicked, Can be displayed. At this time, the map can be provided in cooperation with a map provided through the self-made or open API (Application Programming Interface).

By monitoring various status information in such a manner and displaying it in a database and displaying it through a mobile terminal or a web of a desired user, the local governments and the like have the effect of promoting general policies on the network management in the local area. In addition, by transmitting various status information or statistical information DB (not shown) stored in the status information DB 340 to a terminal such as a contractor, a municipality, a carbon emission authority or a power point purchaser, Customers can utilize this information when constructing and designing network networks. Customers who need carbon credits can check carbon emission information that contractors are reducing and use them when making purchases.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the appended claims rather than the foregoing detailed description, and all changes or modifications derived from the meaning and scope of the claims and the equivalents thereof are included in the scope of the present invention Should be interpreted.

1: Local-based Green Network Management System
100: network management unit 110: network information DB
120: network configuration management unit 130:
140: network building cost management unit 150: network building information DB
160: Network Operation Management Unit 170: Maintenance and Cost Management Unit
180: Network operation information DB 200: Green content management unit
210: Reduction Information DB 220: Reduction Cost Calculator
231: Carbon reduction amount calculation unit 232: Carbon reduction right conversion unit
233: Carbon emission right sales department 234: Carbon emission right sales information DB
241: power reduction amount calculation unit 242: power point conversion unit
243: Power Point Sales Management Section 244: Power Point Sales Information DB
300: status monitoring unit 310:
320: Network operation monitoring part 330: Sales status monitoring part
340: Status information DB 350: Display section
360:

Claims (7)

Wherein the network configuration information includes at least one of a network configuration for the entire network of the local network and a network configuration at each branch of the network configuration, A network management unit including a network configuration management unit for managing information of a network, and a network establishment cost management unit for managing a configuration cost for each node or between all nodes using information of the changed network;
A cost reduction point in which the construction cost reduced by the replacement of the network is converted into a predetermined point, and a reduction amount of the carbon dioxide emission is calculated for each node, each branch, or the entire network using the information of the changed network when the network fluctuates A green content management unit for managing green contents including a carbon emission right, a power point converted into a power reduction amount, and a data processing efficiency point obtained by converting an increased data traffic processing efficiency into a predetermined point ; And
And a status monitoring unit for monitoring status information including a current cost for the network or a status of the green content. The network-based green content management system according to claim 1, wherein the network is a plastic optical fiber network. 3. The method according to claim 2,
And carbon dioxide emission coefficient information for each kind of network,
The green content management unit,
A carbon reduction amount calculation unit for calculating the carbon dioxide emission reduction amount due to the fluctuation of the network using the carbon dioxide emission coefficient information for each node or each branch or the entire network;
A carbon credits conversion unit for converting the calculated amount of carbon dioxide emission reduction into carbon credits in the content; And
And a carbon emission right sales management unit for mediating the sale of carbon emission rights converted to the customer terminal for purchasing carbon emission rights. 4. The carbon emission management system according to claim 3,
And a message requesting the purchase of the carbon credits is transmitted to the demand client of the carbon credits. The network management system according to claim 2,
A network operation management unit for managing network operation information including a traffic volume or a power consumption for each branch or an entire network of the current network; And
And a maintenance cost management unit for managing maintenance costs of the current network or the entire network using the network operation information. 6. The method according to claim 5,
And a power consumed by each type of network.
The reduction management unit,
A power reduction unit that calculates the power reduction amount for each node, each branch, or the entire network by using the power consumption of the fluctuated network when the network is changed;
A power point conversion unit for converting the calculated power reduction amount to a predetermined power point in the content; And
And a power point sales management unit for mediating sales of the power points converted to the customer terminals for which the power points are to be purchased. The information processing apparatus according to claim 1,
The present invention is characterized by further comprising the status of sales of green contents including the status of sale of carbon emission rights, the status of sales of power points,
In addition,
And a display unit for displaying the status information on the screen.

Images