KR101144381B1 - System, apparatus and method for managing low carbon waste treatment based on ubiquitous - Google Patents

Abstract

A ubiquitous based low carbon waste treatment management system, apparatus, and method for a sustainable society is disclosed. The disclosed ubiquitous based low carbon waste treatment management system is based on ubiquitous that transcends time and space based on ubiquitous waste emitters, waste management centers (eg, reuse centers, recycling centers, cogeneration plants, etc.) and waste collection vehicles in multiple directions. Communicate and share waste movement / disposal information within LBS (Location Based Service) based urban communication platform to save energy and material resources by efficiently recycling / recycling waste, and to create a low carbon sustainable society at the city level. Implement waste disposal management system.

Description

Ubiquitous based low carbon waste treatment management system, waste treatment management device and method {SYSTEM, APPARATUS AND METHOD FOR MANAGING LOW CARBON WASTE TREATMENT BASED ON UBIQUITOUS}

Embodiments of the present invention relate to systems, apparatus, and methods for a sustainable society, and more particularly to waste emitters, waste management centers (e.g., based on ubiquitous that transcends time and space). Reuse centers, recycling centers, cogeneration plants, etc.), and waste collection vehicles communicate in multiple directions to share waste movement and disposal information within a LBS (Location Based Service) -based urban communication platform / Ubiquitous, low-carbon smart waste disposal management systems, devices and methods for conserving energy and material resources by recycling and implementing a low carbon sustainable society at the city level.

As global warming accelerates due to the increase in global greenhouse gas emissions, countries have to comply with regulations on low-carbon green growth, including mandatory reporting of greenhouse gas emissions, reduction of mandatory greenhouse gas emissions, and restrictions on total quantity. It is legislated.

Accordingly, there is a growing interest in developing a technology that reduces the amount of carbon generated in the treatment of waste while reducing the amount of waste that is discarded by producing energy or fuel by using the discharged waste.

As a prelude to the development of the above technologies, wastes should be separated and discharged / collected according to their type. However, in the conventional case, it was difficult to accurately grasp the type or amount of waste discharged, and there was a problem in that the waste emitters could not be motivated to separate discharge of wastes and thus the waste emitters could not actively participate in the separate discharge of wastes.

In addition, companies that emit GHGs are promoting the introduction of a system for measuring, recording, maintaining and reporting GHGs, ie Greenhouse Gases Inventory. However, even when treating waste, greenhouse gas such as carbon is emitted, so the waste processor should measure / record / maintain / report the amount of greenhouse gas emitted by waste treatment. Therefore, the necessity of developing the greenhouse gas inventory which can be installed on the waste processor side is increasing.

Meanwhile, with the development of wired and wireless communication technologies, various technologies such as ubiquitous, web 2.0, and WEB-GIS have been developed and used to increase convenience of administrators and users. However, the above complex technologies have been used only in the field of information and communication, and have not been used to efficiently collect / move / process waste.

In order to solve the problems of the prior art as described above, in the present invention, the waste discharger, the waste management center, and the waste collection vehicle communicate in multiple directions based on ubiquitous to transfer waste / movement information to LBS. Ubiquitous low carbon smart waste treatment management system, device and method for saving energy and material resources by efficiently recycling / recycling wastes and sharing low-carbon sustainable society at the city level I would like to suggest.

According to a preferred embodiment of the present invention to achieve the above object, a system for managing the disposal of waste based on ubiquitous, comprising: a first terminal device provided on the waste discharger side; A waste disposal management apparatus provided on the waste management center side; A second terminal device provided on the waste collector side; And a third terminal device provided on the waste processor side, wherein the first terminal device transmits a waste discharge report message to the waste disposal management device through two-way communication by web 2.0, and the waste disposal management device Send the waste discharge confirmation message corresponding to the waste discharge notification message to the first terminal device through the two-way communication by web 2.0, and transmit the waste discharge notification message to the second terminal device through the two-way communication by web 2.0 The second terminal device obtains information on the waste from a tag attached to the waste, and transmits the information on the waste to the waste disposal management apparatus through two-way communication by web 2.0, and the waste treatment. The management device is adapted to reuse / recycle the waste based on the information about the waste. It is determined which kind of waste among waste, energy-efficient waste, and landfill waste, and calculates an incentive point given to the waste discharger in relation to the discharge of the waste according to the determination result, A waste disposal management system for transmitting information to the first terminal device through two-way communication by web 2.0 is provided.

The incentive point may be used to receive energy or fuel produced at the waste processor side through the disposal of the waste or to receive a tax reduction applied to the disposal of the waste.

The first terminal device receives selection information on energy or fuel to be supplied using the incentive point from the waste discharger, and the received waste disposal management device and the bidirectional communication through the web 2.0. It may transmit to at least one of the second terminal device.

The waste information may include discharge information of the waste, type information of the waste, and quantity information of the waste.

The waste disposal management apparatus may include information on the total amount of the waste discharged from the waste discharger, information on the amount of the reusable / recyclable waste, information on the amount of the energy-enabled waste, and the landfill waste. Information about the quantity is further transmitted to the first terminal apparatus through bidirectional communication by web 2.0, the first terminal apparatus receiving information on the incentive point and the total amount of the waste discharged from the waste discharger. The waste discharger may be provided with a user interface displaying at least one of information, information on the amount of the reusable / recyclable waste, information on the amount of the energy-enabled waste, and information on the amount of the landfill waste. .

In addition, according to another embodiment of the present invention, a receiver for receiving information about the waste from a tag attached to the waste-the information on the waste is the discharger information of the waste, the type information of the waste, and the amount of the waste Contains information; Based on the type information of the waste, it is determined whether the waste belongs to a type of waste among reusable / recyclable waste, energy-efficient waste, and landfill waste, and based on the determined type of waste and amount of waste information. A waste management unit for calculating an incentive point granted to the waste discharger in relation to the discharge of the waste material; And a transmission unit for transmitting the information on the incentive point to the waste discharger.

Further, according to another embodiment of the invention, the step of receiving information on the waste from a tag attached to the waste-the information on the waste is the discharger information of the waste, the type information of the waste, and the waste of Contains amount information; Determining which kind of wastes are among the reused / recyclable wastes, energy-efficient wastes, and landfill wastes based on the type information of the wastes; Calculating an incentive point granted to the waste discharger in relation to the discharge of the waste based on the determined type of waste and the amount of waste information; And transmitting the information on the incentive point to the waste emitter.

According to the present invention, waste emitters, waste management centers, and waste collection vehicles communicate in multiple directions based on the ubiquitous concept to share waste movement / processing information within an LBS-based urban communication platform. There is an advantage in that energy and material resources can be saved by reuse / recycling.

In addition, according to the present invention, it is possible to implement a low carbon sustainable society at the city level.

In addition, according to the present invention, by cutting-edge technologies such as ubiquitous, Web 2.0, 3D-GIS, etc., it becomes possible to treat cutting-edge waste.

In addition, according to the present invention, it is possible to reduce the emissions of pollutants such as carbon generated by the treatment of waste, which contributes to environmental conservation and low carbon green growth.

In addition, according to the present invention, the user can efficiently establish the waste discharge plan to discharge the waste, it is possible to reduce the disposal cost of the waste.

1 is a block diagram illustrating a detailed configuration of a ubiquitous based low carbon waste treatment management system according to an embodiment of the present invention.
2 is a view showing an example of information on the obtained waste.
3 and 4 illustrate an example of a user interface displayed on the first terminal device 110 according to an embodiment of the present invention.
5 is a flow chart showing the overall flow of the waste treatment management method according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to or limited by the embodiments. Like reference numerals in the drawings denote like elements.

1 is a block diagram illustrating a detailed configuration of a ubiquitous based low carbon waste treatment management system according to an embodiment of the present invention.

Referring to FIG. 1, a ubiquitous based low carbon waste treatment management system 100 according to an embodiment of the present invention may include a first terminal device 110, a waste treatment management device 120, a second terminal device 130, and The third terminal device 140 is included.

Waste treatment management system 100 according to an embodiment of the present invention is a low-carbon waste treatment management system 100 that can be used to maximize the construction of urban greenhouse inventory (greenhouse inventory), the world's first concept of ubiquitous waste Waste dischargers, waste management centers (e.g., reuse centers, recycling centers, cogeneration plants, etc.), and waste collection vehicles communicate with each other in a multi-directional manner to apply waste movement / treatment information to LBS (Location). Based Service) will be shared within the urban communication platform. This enables efficient reuse / recycling of waste, saving energy and material resources and enabling a low carbon sustainable society at the city level.

In addition, the waste described in the present invention may pollute general living waste discharged from a house / school / public institution, construction waste discharged from a construction site, workplace facility waste generated from a business place, and the surrounding environment, or may be harmful to a human body. The concept includes all kinds of wastes such as waste oil, waste acid, and designated wastes such as medical waste.

At this time, the waste is classified into waste that can be reused / recycled, waste that can be energized, and landfill.

For example, reusable / recyclable waste includes food waste that can be recycled as household waste, fertilizers, feed, food banks, etc. that can be reused as raw materials, such as bottles, cans, plastics, clothing, furniture, and household appliances. Waste), and construction waste that can be reused as sand and aggregates. In addition, energy-enableable wastes include waste oils, designated wastes such as waste acids, and flammable wastes that can be manufactured or incinerated with solid fuels.

Hereinafter, the function of each component will be described in detail with reference to FIG. 1.

The first terminal device 110 is provided on the waste discharger side, and displays information (message) related to the discharge of the waste to the waste discharger.

In addition, when the waste discharger wants to discharge the waste, the first terminal device 110 receives the waste discharge notification information (message) from the waste discharger and transmits the waste disposal management device 120. When the waste discharger wants to transmit a waste discharge notification message, a user interface for guiding the waste discharge notification is displayed on the first terminal device 110 (refer to the description of FIGS. 3 and 4 below for the user interface). ).

In addition, the waste is discharged with a tag or sticker (hereinafter referred to as "tag") containing information about the waste, which includes information about the waste emitter, information about the type of waste, and the amount of waste. Information about this is included. In one example, the tag may include at least one of an electronic tag and a barcode tag.

Waste treatment management device 120 is provided on the waste manager side, and processes the overall process associated with the management of waste.

In one example, the waste disposal management apparatus 120 generates a waste discharge confirmation message in response to the waste discharge notification message received from the first terminal device 110 and transmits it to the first terminal device 110. The waste emission confirmation message is meant to permit the discharge of waste.

That is, the first terminal device 110 provided on the waste discharger side and the waste disposal management device 120 provided on the waste manager side transmit / receive (exchange) information related to the discharge / permission of the waste through bidirectional communication by Web 2.0. )can do.

web 2.0 refers to a user participation-centered Internet environment that allows anyone to easily produce data and share it on the Internet without the owner or monopoly of the data. Web 2.0 is a user compared to web 1.0, which only collects and displays information on the Internet. The platform that provides the data so that it can handle the data directly is designed to make it easier to share and receive information. That is, the first terminal device 110 and the waste disposal management device 120 may transmit information more efficiently through a web 2.0 technology implemented in such an Internet environment based on user participation.

Accordingly, when the waste emitter wants to discard a large waste such as a refrigerator, it is possible to solve the inconvenience of having to visit a collection institution (a government office or the like) in order to receive a report certificate for discharging the waste.

The second terminal device 130 is provided on the waste collector side (for example, a waste collection vehicle) and obtains information on the waste from a tag attached to the waste.

For example, when the tag includes an RFID tag (electronic tag), the information acquisition unit 121 may obtain information on the waste from the RFID tag using an RFID reader.

At this time, the information on the obtained waste, as described above, includes the waste discharge information, the type of waste information, and the amount of waste information. For example, the second terminal device 130 may obtain information of a form as shown in FIG. 2 from a tag.

In addition, the second terminal device 130 may share information related to the collection of waste with the waste disposal management apparatus 120 based on bidirectional communication by web 2.0. That is, the second terminal device 130 may receive the waste discharge report message from the waste disposal management device 120 and display it to the waste collector and transmit information on the obtained waste to the waste disposal management device 120. have. Accordingly, the waste collector can more easily perform the waste collection operation, and the waste manager can perform various operations described below based on the information on the waste.

In addition, the second terminal device 130 may include a GPS terminal. In this case, the second terminal device 130 may further transmit GPS information including the location information of the current waste collector to the waste disposal management apparatus 120.

The waste disposal management apparatus 120 may display the waste collector's location in real time to the waste manager based on the received GPS information. At this time, the waste disposal management apparatus 120 may display the waste manager to easily identify the location of the waste collector through the WEB-GIS system. Accordingly, it is possible to manage LBS location-based waste movement / disposal.

The third terminal device 140 is provided on the waste processor side, and transmits information on energy or fuel produced through the treatment of the waste to the waste disposal management device 120 or the first terminal device 110.

For example, the third terminal device 140 is a reuse / recycling center for reusing / reusing waste, various power plants for producing electrical energy (electric power) and thermal energy by incineration of waste or landfill gas generated from landfilled waste. (Fuel plants, cogeneration plants, landfill gas plants, etc.), fuel gas production facilities that produce fuel gas such as biogas through waste treatment, and solid fuel production facilities that produce solid fuel from waste. In this case, the third terminal device 140 may transmit the generated electric energy, thermal energy, fuel gas, solid fuel, and the like to the waste disposal management device 120 or to the first terminal device 110. have.

As described above, the waste disposal management system 100 according to the present invention provides information related to the discharge / management / disposal of waste by the waste emitter, the waste collector, the waste manager, and the waste processor through the bidirectional information sharing technology by web 2.0. By making it shareable, the overall processor for the disposal of the waste can be easily carried out.

Meanwhile, looking at the waste treatment management apparatus 120 in more detail, the waste treatment management apparatus 120 may include a receiver 121, a waste manager 122, and a transmitter 123.

The receiver 121 receives information about waste from the second terminal device 130.

The waste management unit (waste management server) 122 determines which type of waste is among the reused / recyclable waste, energy-efficient waste, and landfill waste based on the type information of the waste, and determines the type of the determined waste. And based on the amount of waste information, calculate the incentive points awarded for the waste emitters. In this case, the incentive point may be calculated by multiplying the unit incentive point according to the type of waste and the amount of the waste according to each type.

Incentive points are points given to waste emitters in connection with the discharge of waste, which can be used to receive energy or fuel produced through the disposal of the waste, or to be subject to tax reductions added to the disposal of the waste. it means. In other words, the incentive point can be viewed as a point given to the waste emitter to actively participate in the separate discharge of the waste. At this time, the energy or fuel includes the above-described electrical energy (power), thermal energy (hot water, etc.), fuel gas, solid fuel, and the like.

In addition, according to an embodiment of the present invention, the waste management unit 122 calculates the amount of carbon generated by the treatment of the waste based on the type of waste information and the amount of waste information, and based on the amount of carbon emissions It is possible to further calculate the carbon points awarded to waste emitters in relation to their emissions.

Carbon points are points given to waste emitters to further mitigate environmental pollution caused by carbon from waste disposal. In other words, carbon points can be viewed as points given to reduce the amount of waste emitted. Thus, carbon points can be given in inverse proportion to the total amount of waste emitted.

Carbon points, like the incentive points described above, can be used to receive energy or fuel produced by the disposal of waste, or to be subject to tax exemptions payable upon disposal of waste.

By granting such incentive points and carbon points, the present invention enables the waste emitters to more actively participate in the separate discharge of waste and to reduce the emissions of waste.

In addition, the information on the calculated carbon emissions can be easily used in the construction of an urban greenhouse gas inventory for measuring or managing the amount of greenhouse gases emitted by waste treatment throughout the city.

When the incentive point, the carbon emissions, and the carbon points are calculated, the transmitter 123 may transmit at least one of the calculated incentive points, information on the carbon emissions, and information on the carbon points to the first terminal device 110. .

Meanwhile, the receiver 121 may receive information on energy or fuel produced by processing waste from the third terminal device 140. In this case, the waste management unit 122 generates information on energy / fuel that can be purchased using incentive points / carbon points, and the transmission unit 123 transmits information on the generated energy / fuel to the first terminal device ( 110).

In addition, the transmission unit 123 may include information on the total amount of waste, information on the amount of reusable / recyclable waste, information on the amount of energy-enabled waste, and information on the amount of landfill waste. May transmit to 110.

The above information (information on incentive points / carbon points, total amount of waste discharged by waste emitters, amount of reused / recyclable waste, amount of energy-enabled waste, and amount of landfill waste, etc.) Receiving the first terminal device 110 by providing a user interface containing the received information to the waste discharger, the waste discharger uses the information, waste incentive points / carbon points, and each point about the waste discharged by the waste discharger To check the type of energy / fuel available.

As a result, waste emitters can appropriately control the amount of waste discharged by waste type, and find ways to use incentive points / carbon points.

In addition, the first terminal device 110 may receive selection information on energy / fuel to be supplied using the incentive point / carbon point from the waste discharger and transmit it to the third terminal device 140. The waste processor confirming the energy / fuel supply request through the third terminal device 140 supplies energy / fuel to the waste discharger based on the received information.

Hereinafter, an example of a user interface displayed on the first terminal device 110 will be described with reference to FIGS. 3 and 4.

3 and 4 illustrate an example of a user interface displayed on the first terminal device 110 according to an embodiment of the present invention.

First, FIG. 3 illustrates a user interface displayed when a waste discharger wants to report waste discharge.

When the waste discharger wants to report the waste discharge, a user interface for guiding the selection of the type of waste to be discharged as shown in FIG. 3A is displayed on the first terminal device 110. The waste discharger may select the type of waste to be reported by selecting any one of the four lists (recyclable and recyclable waste, food waste, large waste, household waste) shown in FIG.

If the "reusable and recyclable waste" list is selected, a user interface displaying the types of reusable and recyclable waste as shown in (b) of FIG. 3 is displayed, and if the "food waste" list is selected, FIG. A user interface is displayed that displays the amount of food waste as shown in (c) of FIG. In addition, when the "large waste" list is selected, a user interface displaying the type of the large waste as shown in (d) of FIG. 3 is displayed, and when the "living waste" list is selected, the (e) in FIG. A user interface is displayed that displays the amount of household waste as shown.

The waste discharger can report the discharge by selecting the type or amount of waste to be discharged through the user interface.

Next, FIG. 4 illustrates a user interface when displaying information received from the waste disposal management apparatus 120.

First, as illustrated in (a) of FIG. 4, the first terminal device 110 includes information on weekly waste discharge, information on monthly waste discharge, information on annual waste discharge, and respective incentive points / carbon points. Can be displayed to provide the waste emitters with overall information of the wastes discharged and the resulting point information.

At this time, if the "weekly waste discharge" list is selected, a user interface including information on weekly waste discharge as shown in FIG. 4 (b) and corresponding weekly incentive point / carbon point information is displayed, Once the "Monthly Garbage Emissions" list is selected, a user interface is displayed that includes information on monthly waste emissions as shown in FIG. 4C and corresponding monthly incentive point / carbon point information. Is selected, a user interface is displayed that includes information about annual waste emissions and thus annual incentive point / carbon point information as shown in FIG. 4D.

Accordingly, the waste discharger can check the information on the waste discharged and the acquired point information, so that the waste discharge can be more reasonably performed.

As such, the waste disposal management system 100 according to the present invention allows the waste discharge / collection / treatment to be made reasonably by sharing information through bidirectional communication between the waste discharger / collector / manager / processor. As a result, the amount of production / emission of waste can be adjusted appropriately, and ultimately, the amount of various pollutants (carbon, etc.) generated during waste treatment can be reduced, thereby contributing to environmental conservation.

5 is a flow chart showing the overall flow of the waste treatment management method according to an embodiment of the present invention. Hereinafter, a process performed at each step will be described with reference to FIG. 5.

First, in step S510, information about the waste is received from a tag attached to the waste. Information on the waste includes information on the waste's emitter, the type of the waste, and the amount of the waste.

In step S520, based on the type information of the waste, it is determined whether the waste belongs to a type of waste among reusable / recyclable waste, energy-efficient waste, and landfill waste, and in step S530, the type and the determined waste and Incentive points are calculated based on the amount of waste information.

Finally, in step S540, the information on the incentive points is sent to the waste discharger (waste discharger) to check the incentive points given by the waste discharger by the waste discharged by the waste discharger. To ensure a stable supply of energy / fuel.

In the waste treatment management method illustrated in FIG. 5, since the configuration of the waste treatment management apparatus 120 described with reference to FIG. 1 may be applied as it is, a detailed description thereof will be omitted.

In addition, embodiments of the present invention may be implemented in the form of program instructions that may be executed by various computer means to be recorded on a computer readable medium. The computer readable medium may include program instructions, data files, data structures, etc. alone or in combination. Program instructions recorded on the media may be those specially designed and constructed for the purposes of the present invention, or they may be of the kind well-known and available to those having skill in the computer software arts. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tape, optical media such as CD-ROMs, DVDs, and magnetic disks, such as floppy disks. Examples of program instructions such as magneto-optical, ROM, RAM, flash memory, etc. may be executed by a computer using an interpreter as well as machine code such as produced by a compiler. Contains high-level language codes. The hardware device described above may be configured to operate as at least one software module to perform the operations of one embodiment of the present invention, and vice versa.

In the present invention as described above has been described by the specific embodiments, such as specific components and limited embodiments and drawings, but this is provided to help a more general understanding of the present invention, the present invention is not limited to the above embodiments. For those skilled in the art, various modifications and variations are possible from these descriptions. Therefore, the spirit of the present invention should not be limited to the described embodiments, and all of the equivalents or equivalents of the claims as well as the claims to be described later will belong to the scope of the present invention. .

Claims (16)

In the system for managing the disposal of waste based on ubiquitous,
A first terminal device provided on the waste discharger side;
A waste disposal management apparatus provided on the waste management center side;
A second terminal device provided on the waste collector side; And
Including a third terminal device provided on the waste processor side,
The first terminal device transmits a waste discharge report message to the waste disposal management device through two-way communication by web 2.0,
The waste disposal management apparatus transmits a waste discharge confirmation message corresponding to the waste discharge notification message to the first terminal device through two-way communication through web 2.0, and sends the waste discharge notification message through two-way communication through web 2.0. Transmits to the second terminal device,
The second terminal device obtains information on the waste from the tag attached to the waste, and transmits the information on the waste to the waste disposal management device through two-way communication by web 2.0,
The waste disposal management apparatus determines which type of waste is among the reused / recyclable waste, the energy-efficient waste, and the landfill waste based on the information on the waste, and according to the determination result, Calculating an incentive point granted to the waste discharger in relation to the discharge, and transmitting information on the incentive point to the first terminal device through bidirectional communication by web 2.0;
The third terminal device transmits the information on the energy or the fuel produced through the treatment of the waste to the waste disposal management device or the first terminal device through bidirectional communication by web 2.0,
The waste disposal management apparatus generates information on energy or fuel that can be purchased using the incentive point, and transmits the generated energy or fuel information to the first terminal device through two-way communication by web 2.0. ,
The first terminal device displays information on energy or fuel that can be purchased using the incentive point to the waste discharger, and performs bidirectional communication by web 2.0 for selecting information on energy or fuel received from the waste discharger. Waste treatment management system, characterized in that for transmitting to the third terminal device through. The method of claim 1,
The waste disposal management apparatus calculates the amount of carbon generated by the waste treatment based on the type information of the waste and the amount information of the waste, and the discharge of the waste in relation to the emission of the waste based on the amount of carbon emitted. Calculating a carbon point assigned to the waste discharger, and further transmitting at least one of information on the carbon emission and information on the carbon point to the first terminal device. The method of claim 2,
The information on the emission of carbon is waste treatment management system, characterized in that used to build a greenhouse gas inventory. delete delete The method of claim 1,
And the information on the waste includes discharger information of the waste, type information of the waste, and quantity information of the waste. The method of claim 1,
The waste disposal management apparatus may include information on the total amount of the waste discharged from the waste discharger, information on the amount of the reusable / recyclable waste, information on the amount of the energy-enabled waste, and the landfill waste. Further transmitting information about the quantity to the first terminal device through bidirectional communication by web 2.0,
The first terminal device may include information on the incentive point, information on the total amount of the waste discharged from the waste discharger, information on the amount of the reusable / recyclable waste, and the amount of the energy-enabled waste. And providing the waste discharger with a user interface displaying at least one of information and information on the amount of landfill waste. delete delete delete delete delete delete delete delete delete

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