CN111696014B

CN111696014B - Garbage collection supervision method and collection processing terminal and system based on Internet of things

Info

Publication number: CN111696014B
Application number: CN202010429313.4A
Authority: CN
Inventors: 李军棉; 周胡顺
Original assignee: Guangzhou Geli Network Technology Co ltd
Current assignee: Guangdong Gree Digital Services Co ltd
Priority date: 2020-05-20
Filing date: 2020-05-20
Publication date: 2023-10-24
Anticipated expiration: 2040-05-20
Also published as: CN111696014A

Abstract

The invention discloses a garbage collection supervision method based on the Internet of things, a converging processing terminal and a converging processing system, wherein the method comprises the following steps: and the convergence processing terminal receives the garbage collection processing information reported by the forwarding node and analyzes the received garbage collection processing information to obtain the garbage disposal condition of the region matched with the forwarding node reporting the garbage collection processing information. Therefore, the invention can collect, analyze and monitor the related data of the garbage in each area, thereby realizing the intelligent monitoring of the garbage in the recycling process and being beneficial to improving the recycling and cleaning efficiency of the garbage; and through the hierarchical collection, forwarding and reporting of the relevant data of the garbage in each area, the analysis efficiency and accuracy of the relevant data can be improved, so that the supervision efficiency and accuracy of the garbage in each area can be improved, and an accurate and reliable garbage supervision and recovery strategy can be formulated for each area.

Description

Garbage collection supervision method and collection processing terminal and system based on Internet of things

Technical Field

The invention relates to the technical field of the Internet of things, in particular to a garbage collection supervision method, a converging processing terminal and a converging processing system based on the Internet of things.

Background

While society is rapidly developing and the level of consumer life of people is increasing, the amount of waste generated is also increasing, and it is counted that waste generated nationally in 2019 exceeds 1.02 trillion tons and is estimated to increase at 10% per year, and if such waste is not treated effectively in time, it can cause serious harm to our society and people's life, for example: hampering the development and progress of society, endangering the physical and mental health of people, etc.

At present, the method for recycling garbage generally comprises the following steps: different garbage recycling points are arranged, and a plurality of garbage cans of different types (such as recyclable garbage types, unrecoverable garbage types and the like) are placed at each garbage recycling point, so that people can put garbage of different types into corresponding garbage cans, and sanitation workers regularly or irregularly go to the area in charge of the garbage cans to recycle and clean the garbage, so that garbage classification and recycling are realized. However, practice finds that under the condition of lacking social atmosphere and responsibility consciousness of garbage classification, when garbage is put in, few people can put garbage in a classified manner, most of the garbage is mixed together and is randomly discarded in a garbage classification recycling bin, and due to over-dispersion of garbage recycling points, effective supervision is difficult to form, so that garbage classification recycling cannot be truly landed.

With rapid progress in science and technology, the internet of things (IoT, internet of things) is well-developed in various fields based on advantages of high data processing efficiency, high data processing accuracy, high data processing security, and the like, for example: in addition to the application of the internet of things technology to the fields, the automotive field, the transportation field, etc., how to apply the internet of things technology to the environmental protection field, for example: the field of garbage classification and recovery for realizing intelligent supervision of garbage classification and recovery is a problem to be solved currently and urgently.

Disclosure of Invention

The invention aims to solve the technical problem of providing a garbage collection and supervision method, a converging processing terminal and a system based on the Internet of things, which can realize the hierarchical forwarding of garbage related data through each acquisition node, each forwarding node and the like arranged in the garbage collection and supervision system, thereby realizing the collection, analysis and supervision of the garbage related data, further realizing the intelligent supervision of the garbage in the recycling process and being beneficial to the recycling and cleaning of the garbage.

In order to solve the technical problem, a first aspect of the present invention discloses a garbage collection and supervision method based on the internet of things, where the method is applied to a garbage collection and supervision system, where the garbage collection and supervision system includes an aggregation processing terminal and hierarchical nodes that are set in each hierarchy, each hierarchical node includes at least an acquisition node and a forwarding node, the acquisition node of each hierarchical node is configured to acquire garbage collection processing information forwarded by the forwarding node of a next hierarchical node, and the forwarding node of each hierarchical node is configured to forward garbage collection processing information acquired by the acquisition node of the hierarchical node to an acquisition node of a previous hierarchical node or the aggregation processing terminal, and the method includes:

The aggregation processing terminal receives target garbage collection processing information reported by at least one target forwarding node, the target garbage collection processing information reported by the target forwarding node comprises garbage collection processing information reported by a forwarding node of a next hierarchical node corresponding to the hierarchical node where the target forwarding node is located, and the target forwarding node is a node capable of directly communicating with the aggregation processing terminal;

and the convergence processing terminal analyzes the received target garbage collection processing information to obtain the garbage disposal condition of the area matched with the target forwarding node reporting the target garbage collection processing information.

The second aspect of the embodiment of the invention discloses another garbage collection supervision method based on the internet of things, the method is applied to a garbage collection supervision system, the garbage collection supervision system comprises a convergence processing terminal and classification nodes arranged on each classification, each classification node at least comprises a collection node and a forwarding node, the collection node of each classification node is used for collecting garbage collection processing information forwarded by the forwarding node of the next classification node, the forwarding node of each classification node is used for forwarding the garbage collection processing information collected by the collection node of the classification node to the collection node of the previous classification node or the convergence processing terminal, and the method comprises the following steps:

The classification node reports target garbage collection processing information to the convergence processing terminal through a forwarding node of the classification node, the target garbage collection processing information reported by the classification node comprises garbage collection processing information reported by a forwarding node of a next classification node corresponding to the classification node, and the classification node is a node capable of directly communicating with the convergence processing terminal;

the convergence processing terminal is used for receiving the target garbage collection processing information reported by the grading node, analyzing the received target garbage collection processing information and obtaining the garbage disposal condition of an area matched with a target forwarding node reporting the target garbage collection processing information.

The third aspect of the embodiment of the invention discloses a garbage collection supervision method based on the internet of things, the method is applied to a garbage collection supervision system, the garbage collection supervision system comprises a convergence processing terminal and classification nodes arranged on each classification, each classification node at least comprises a collection node and a forwarding node, the collection node of each classification node is used for collecting garbage collection processing information forwarded by the forwarding node of the next classification node, the forwarding node of each classification node is used for forwarding the garbage collection processing information collected by the collection node of the classification node to the collection node of the previous classification node or the convergence processing terminal, and the method comprises the following steps:

and the convergence processing terminal receives the target garbage collection processing information reported by the grading node, analyzes the received target garbage collection processing information, and obtains the garbage disposal condition of the area matched with the target forwarding node reporting the target garbage collection processing information.

The fourth aspect of the embodiment of the invention discloses a convergence processing terminal, which is characterized in that the convergence processing terminal is a processing terminal of a garbage collection supervision system, the garbage collection supervision system further comprises classification nodes arranged on each classification, each classification node at least comprises an acquisition node and a forwarding node, the acquisition node of each classification node is used for acquiring garbage collection processing information forwarded by the forwarding node of the next classification node, the forwarding node of each classification node is used for forwarding the garbage collection processing information acquired by the acquisition node of the classification node to the acquisition node of the last classification node or the convergence processing terminal, wherein the convergence processing terminal comprises a communication module and an analysis module, and the convergence processing terminal comprises:

The communication module is configured to receive target garbage collection processing information reported by at least one target forwarding node, where the target garbage collection processing information reported by the target forwarding node includes garbage collection processing information reported by a forwarding node of a next hierarchical node corresponding to the hierarchical node where the target forwarding node is located, and the target forwarding node is a node capable of directly communicating with the aggregation processing terminal;

the analysis module is used for analyzing the received target garbage collection processing information to obtain the garbage disposal condition of the area matched with the target forwarding node reporting the target garbage collection processing information.

The fifth aspect of the present invention discloses a convergence processing terminal, the convergence processing terminal is a processing terminal of a garbage collection supervision system, and the garbage collection supervision system further includes hierarchical nodes disposed in each hierarchy, each hierarchical node at least includes an acquisition node and a forwarding node, the acquisition node of each hierarchical node is configured to acquire garbage collection processing information forwarded by the forwarding node of the next hierarchical node, and the forwarding node of each hierarchical node is configured to forward the garbage collection processing information acquired by the acquisition node of the hierarchical node to an acquisition node of a previous hierarchical node or the convergence processing terminal, where the convergence processing terminal includes:

A memory storing executable program code;

a processor coupled to the memory;

the processor calls the executable program codes stored in the memory to execute part or all of the steps in the garbage collection supervision method based on the Internet of things disclosed in the first aspect of the invention.

A sixth aspect of the present invention discloses a computer-readable storage medium, where the computer-readable storage medium stores computer instructions for executing part or all of the steps in the garbage collection supervision method based on the internet of things disclosed in the first aspect of the present invention when the computer instructions are called.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

the embodiment of the invention provides a garbage collection and supervision method, a collection and treatment terminal and a system based on the Internet of things, wherein the method is applied to the garbage collection and supervision system, the garbage collection and supervision system comprises a collection and treatment terminal and classification nodes arranged on each classification, each classification node at least comprises a collection node and a forwarding node, the collection node of each classification node is used for collecting garbage collection and treatment information forwarded by the forwarding node of the next classification node, and the forwarding node of each classification node is used for forwarding the garbage collection and treatment information collected by the collection node of the classification node to the collection node or the collection and treatment terminal of the previous classification node, wherein the method comprises the following steps: the method comprises the steps that an aggregation processing terminal receives target garbage collection processing information reported by at least one target forwarding node, the target garbage collection processing information reported by the target forwarding node comprises garbage collection processing information reported by a forwarding node of a next hierarchical node corresponding to the hierarchical node where the target forwarding node is located, and the target forwarding node is a node capable of directly communicating with the aggregation processing terminal; and the convergence processing terminal analyzes the received target garbage collection processing information to obtain the garbage disposal condition of the area matched with the target forwarding node reporting the target garbage collection processing information. Therefore, the embodiment of the invention realizes the hierarchical forwarding of the relevant data of the garbage through each acquisition node and each forwarding node arranged in the garbage recycling and supervising system and reports the relevant data to the convergence processing terminal for analysis, and can collect, analyze and supervise the relevant data of the garbage in each area, thereby realizing the intelligent supervision of the garbage in the recycling process and being beneficial to improving the recycling and cleaning efficiency of the garbage; and through the hierarchical collection, forwarding and reporting of the relevant data of the garbage in each area, the analysis efficiency and accuracy of the relevant data can be improved, so that the supervision efficiency and accuracy of the garbage in each area can be improved, and an accurate and reliable garbage supervision and recovery strategy can be formulated for each area.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic view of an application scenario used in a garbage collection supervision method based on the internet of things, which is disclosed in the embodiment of the invention;

fig. 2 is a schematic flow chart of a garbage collection supervision method based on the internet of things, which is disclosed in the embodiment of the invention;

fig. 3 is a schematic flow chart of another garbage collection supervision method based on the internet of things, which is disclosed in the embodiment of the invention;

fig. 4 is a schematic flow chart of another garbage collection supervision method based on the internet of things according to the embodiment of the invention;

fig. 5 is a schematic structural diagram of another garbage collection supervision method based on the internet of things according to the embodiment of the present invention;

fig. 6 is a schematic structural diagram of a convergence processing terminal according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of another convergence processing terminal according to an embodiment of the present invention;

Fig. 8 is a schematic structural diagram of another convergence processing terminal according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a garbage collection supervision system according to an embodiment of the present invention.

Detailed Description

In order that those skilled in the art will better understand the present invention, a technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The terms first, second, third and the like in the description and in the claims and in the above drawings, are used for distinguishing between different objects and not necessarily for describing a particular sequential or chronological order. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion. For example, a process, method, apparatus, article, or device that comprises a list of steps or elements is not limited to the list of steps or elements but may, in the alternative, include other steps or elements not expressly listed or inherent to such process, method, article, or device.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment may be included in at least one embodiment of the invention. The appearances of such phrases in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments.

The invention discloses a garbage collection and supervision method, a converging processing terminal and a system based on the Internet of things, which can realize the hierarchical forwarding of related data of garbage through each acquisition node and each forwarding node arranged in the garbage collection and supervision system and report the related data of the garbage to the converging processing terminal for analysis, and can collect, analyze and supervise the related data of the garbage in each area, thereby realizing the intelligent supervision of the garbage in the recycling process and being beneficial to improving the recycling and cleaning efficiency of the garbage; and through the hierarchical collection, forwarding and reporting of the relevant data of the garbage in each area, the analysis efficiency and accuracy of the relevant data can be improved, so that the supervision efficiency and accuracy of the garbage in each area can be improved, and an accurate and reliable garbage supervision and recovery strategy can be formulated for each area. The following will describe in detail.

In order to better understand the embodiment of the present invention, an architecture of the internet of things for garbage collection supervision disclosed in the embodiment of the present invention is first described below. Referring to fig. 1, fig. 1 is a schematic diagram of an internet of things architecture for garbage collection supervision according to an embodiment of the present disclosure. As shown in fig. 1, the architecture of the internet of things may include three layers of a terminal device layer, a hierarchical node layer and a convergence layer according to functional division. The terminal equipment layer can comprise mass-scale intelligent garbage recycling equipment (also called intelligent garbage recycling bin, intelligent garbage recycling bin and the like); the node layer may include a large number of hierarchical nodes connected by a network, where each hierarchical node is composed of an acquisition node and a forwarding node, and the hierarchical nodes may include devices such as a router, a repeater, and an access point, and the embodiment of the present invention is not limited; the hierarchical nodes can use any standard networking protocol, and the hierarchical nodes can realize data analysis among different network systems; the convergence layer may include a convergence processing terminal; the intelligent garbage recycling device can comprise intelligent perspective garbage sorting devices, intelligent non-perspective garbage sorting devices and other devices capable of intelligently recycling the garbage sorting devices, and the embodiment of the invention is not limited; the hierarchical node and the convergence processing terminal communicate through the filtering gateway, wherein the filtering gateway can be combined with the convergence processing terminal as a whole or can be independent of the convergence processing terminal. The filtering gateway can be directly or indirectly connected with each grading node of the grading node layer through the Internet; the convergence processing terminal can carry out high-level management on each hierarchical node of the hierarchical node layer through the filtering gateway, so that the control of data transmission frequency, network topology and other networking functions is realized; the convergence processing terminal can analyze and decide the data of the Internet of things generated by mass terminal equipment, and can acquire information or configure terminal equipment parameters by sending instructions (at the moment, the transmission of the data points to the terminal equipment); the convergence processing terminal may also communicate with other terminal devices, for example: advertising terminal equipment, government terminal equipment, and the like. Each intelligent garbage recycling device in the wireless coverage area of each classification node can be internally provided with a wireless communication module, so that each classification node can carry out wireless communication with each intelligent garbage recycling device in the wireless coverage area of the classification node in a wireless network communication mode. In the architecture of the internet of things shown in fig. 1, when a wireless communication module built in the intelligent garbage recycling device is produced, an upper frequency point 470MHz and a lower frequency point 510MHz can be input, so that the wireless communication module can automatically define a communication frequency range as 470MHz to 510MHz so as to meet the specification of the SRRC standard of China; or, the upper frequency point 868MHz and the lower frequency point 908MHz can be input, so that the wireless communication module can automatically define the communication frequency range as 868 MHz-908 MHz so as to meet the specification of European ETSI standard; or, the upper frequency point 918MHz and the lower frequency point 928MHz can be input, so that the wireless communication module can automatically define the communication frequency range as 918 MHz-928 MHz so as to meet the specification of the American FCC standard; alternatively, the communication frequency band of the wireless communication module may be defined to meet the requirements of the asia ARIB standard or the canadian IC standard, which is not limited by the present invention.

Example 1

Referring to fig. 2, fig. 2 is a flow chart of a garbage collection supervision method based on the internet of things according to an embodiment of the invention. The garbage collection supervision method based on the internet of things described in fig. 2 may be applied to a garbage collection supervision system, where the garbage collection supervision system may be a supervision system of a certain community, a supervision system of a certain county, a supervision system of a certain city, a supervision system of a certain province, or a supervision system of a certain country, and the embodiment of the present invention is not limited. The garbage collection supervision system comprises an aggregation processing terminal and grading nodes arranged on each grade, each grading node at least comprises an acquisition node and a forwarding node, the acquisition node of each grading node is used for acquiring garbage collection processing information forwarded by the forwarding node of the next grading node, and the forwarding node of each grading node is used for forwarding the garbage collection processing information acquired by the acquisition node of the grading node to the acquisition node or the aggregation processing terminal of the previous grading node. As shown in fig. 2, the garbage collection supervision method based on the internet of things may include the following operations:

101. the method comprises the steps that an aggregation processing terminal receives target garbage collection processing information reported by at least one target forwarding node, the target garbage collection processing information reported by the target forwarding node comprises garbage collection processing information reported by a forwarding node of a next hierarchical node corresponding to the hierarchical node where the target forwarding node is located, and the target forwarding node is a node capable of directly communicating with the aggregation processing terminal.

In the embodiment of the invention, at least one target forwarding node indicates that the number of the target forwarding nodes is at least 1, but also can be 4, which is determined according to actual conditions.

In the embodiment of the invention, the target garbage collection processing information reported by the target forwarding node may include at least one of the total number of areas matched with the hierarchical node where the target forwarding node is located, the area identifier of each area (for example, urban area identifier of university, etc.), the total garbage weight of each area, the stacking height of garbage in the intelligent garbage collection device in each area, the identifier information corresponding to the garbage type used for indicating the garbage in the intelligent garbage collection device in each area, the target identifier used for indicating the intelligent garbage collection device in each area, the garbage throwing data of garbage thrower in each area, the operation data (for example, whether the intelligent garbage collection device in each area operates normally, etc.), and the vehicle transportation data (for example, the time for recovering and transporting garbage to the garbage recovery point, etc.) of the garbage transportation vehicle corresponding to each area. The target identifier/the identifier information may include at least one of a unique identifier (for example, a unique model) of the intelligent garbage recycling device, a garbage type of garbage in the intelligent garbage recycling device, a device type of the intelligent garbage recycling device, a coordinate identifier (for example, 39°n,58°e) corresponding to the intelligent garbage recycling device, and an area identifier (for example, a zhongshan district) corresponding to the intelligent garbage recycling device, which is not limited in the embodiment of the present invention. Further, the target garbage collection processing information reported by the target forwarding node may include at least one of information in a picture form, information in a video form and information in a text form, which is not limited in the embodiment of the present invention. The more the content of the identification information is, the more the accuracy and the reliability of determining the garbage type in the intelligent garbage recycling equipment are improved.

In the embodiment of the invention, the nodes capable of directly communicating with the convergence processing terminal include at least one of nodes with a level greater than or equal to a predetermined level threshold value in all the levels (for example, the nodes with a total of 8 levels and the higher the number, the nodes capable of communicating with the convergence processing terminal include the nodes with a level greater than or equal to the 6 th level), the nodes with a region corresponding to the region matched with the nodes include the nodes with one region type in a predetermined region type set (for example, 4A scenic spots, business areas and the like), and the nodes with a region matched with the nodes within a preset time period (for example, 24 hours and the like) meeting a predetermined garbage generation condition. The nodes meeting the garbage generation condition include nodes with garbage generation amount of the region matched with the nodes within a preset time period being greater than or equal to a predetermined garbage generation amount threshold (for example, 1000 kg), and/or all garbage types of the region matched with the nodes within the preset time period include nodes with predetermined garbage types needing to recycle the garbage in time, wherein the predetermined garbage types include at least one of garbage with flammable and explosive types (for example, lighter and the like), garbage with corrosive types (for example, lead-acid batteries, sulfuric acid and the like), garbage capable of volatilizing toxic gas types and garbage with waste medicines types, and the embodiment of the invention is not limited. In this way, communication is established between the system and the nodes containing important attention areas and/or the nodes containing areas with high garbage yield and/or the nodes containing areas with the need of timely cleaning garbage, so that the garbage throwing and recycling conditions of the areas can be effectively monitored, garbage can be timely recycled, and the environment is protected.

102. The convergence processing terminal analyzes the received target garbage collection processing information to obtain the garbage disposal condition of the area matched with the target forwarding node reporting the target garbage collection processing information.

In the embodiment of the present invention, the garbage disposal condition of the area matched with the target forwarding node includes the garbage condition of the area and/or other conditions of the area, and the garbage condition of the area matched with the target forwarding node includes at least one of the garbage classification condition of the area, the garbage collection condition of the area, the garbage cleaning condition of the area, and the garbage generation condition of the area. The garbage generation condition of the area matched with the target forwarding node includes the garbage type of the garbage generated by the area and/or the garbage generation amount of each garbage type, and other conditions of the area matched with the target forwarding node include at least one of the operation state of the intelligent recovery device in the area, the garbage throwing violation data of the area and the operation condition of the garbage transport vehicle of the area, and the embodiment of the invention is not limited. The garbage classification condition can comprise whether garbage in the intelligent garbage recycling equipment is correctly classified and stored in a correct garbage storage space or not; the garbage recycling condition may include the amount of garbage and/or the type of garbage and the like that are recycled within a preset period of time (e.g., within a week, etc.); the garbage cleaning condition can comprise at least one of garbage cleaning amount, garbage cleaning type and garbage cleaning time within a preset time period (such as a month, etc.); the operating state of the intelligent recovery apparatus may include whether to operate normally and/or maintenance information, wherein the maintenance information includes at least one of a personnel identification of a maintenance person, a maintenance time, and a maintenance tool used; the garbage throwing violation data of the area can comprise at least one of the number of garbage throwing violations in a preset time period (such as one week and the like), the number of garbage which is not correctly thrown into a correct garbage storage space in the preset time period and the data of a throwing person who breaks in garbage; the operating conditions of the refuse transport vehicle in the area may include the vehicle identification of the refuse transport vehicle, the time the refuse transport vehicle is recovering the refuse, the destination of the refuse transport vehicle, the interval duration of refuse recovery of the refuse transport vehicle (e.g., once every two days, etc.). Thus, the more detailed the garbage disposal situation is, the more favorable the garbage disposal situation of the region matched with the corresponding node is known, and the different strategies are favorably executed according to the different garbage disposal situations. Further, the garbage disposal condition of the area matched with the target forwarding node may further include a rewarding condition or a punishment/warning condition of the area, and the rewarding condition or the punishment/warning condition is sent to the area matched with the corresponding node. Therefore, through determining the rewarding and punishing conditions, the method is beneficial to stimulating the users to form good delivery habits and effectively supervising the garbage delivery behaviors of the users. The garbage disposal condition of the area matched with the target forwarding node is specifically determined according to the target garbage collection and disposal information reported by the target forwarding node.

In the embodiment of the invention, the area matched with the target forwarding node reporting the target garbage collection processing information comprises areas matched with all next hierarchical nodes corresponding to the hierarchical node where the target forwarding node is located. For example: all next hierarchical nodes of the hierarchical nodes are A, B, C, the number of areas matched with the next hierarchical node A is 4, the number of areas matched with the next hierarchical node B is 6, the number of areas matched with the next hierarchical node C is 4, and the number of areas corresponding to the hierarchical nodes is 14.

In an alternative embodiment, after the completion of step 101, the garbage collection supervision method based on the internet of things may further include the following operations:

the convergence processing terminal detects whether target garbage collection processing information reported by each target forwarding node meets a predetermined information analysis condition;

when detecting that target garbage collection processing information which does not meet the information analysis conditions exists, the convergence processing terminal screens all first garbage collection processing information which does not meet the information analysis conditions from all target garbage collection processing information;

the convergence processing terminal determines first forwarding nodes corresponding to each piece of first garbage collection processing information from all target forwarding nodes, and sends information processing prompts to each first forwarding node, wherein the information processing prompts are used for prompting the first forwarding nodes corresponding to the information processing prompts to report the garbage collection processing information meeting the information analysis conditions.

In this optional embodiment, as an optional implementation manner, the aggregation processing terminal detects whether the target garbage collection processing information reported by each target forwarding node meets the information analysis condition determined in a preselection manner, and may include:

the convergence processing terminal detects whether target garbage collection processing information reported by each target forwarding node contains garbage collection processing information of a predetermined information type;

when detecting that the garbage collection processing information which does not contain the information type exists, the convergence processing terminal determines that the target garbage collection processing information which does not meet the predetermined information analysis condition exists.

In this optional embodiment, the information corresponding to the information type is information of interest to the convergence processing terminal, for example: identification information for representing the type of garbage, garbage placement conditions, and the like.

In this optional embodiment, optionally, when it is detected that there is garbage collection processing information that does not include an information type, the information processing prompt is configured to prompt a first forwarding node corresponding to the information processing prompt to report garbage collection processing information that meets an information analysis condition, and specifically: the information processing prompt is used for prompting the first forwarding node corresponding to the information processing prompt to report garbage collection processing information containing the information type, and the information processing prompt comprises the garbage type. In this way, the information of the required information type can be obtained by sending and reporting the garbage collection processing information containing the information type to the node, thereby being beneficial to analyzing the garbage processing condition of the area corresponding to the node.

Therefore, according to the optional implementation mode, whether the garbage collection processing information reported by the forwarding node contains the information of the required information type or not is detected, and the fact that the garbage collection processing information meets the information analysis condition can be achieved.

In this optional embodiment, as another optional implementation manner, the detecting, by the convergence processing terminal, whether the target garbage collection processing information reported by each target forwarding node meets the information analysis condition determined in advance may include:

the convergence processing terminal judges whether target garbage recycling information which is not independently packaged exists in all target garbage recycling information;

when judging that all the target garbage collection processing information has target garbage collection processing information which is not independently packaged, the convergence processing terminal determines that garbage collection processing information which does not meet the predetermined information analysis condition exists.

In this optional embodiment, when it is determined that all the target garbage collection processing information includes target garbage collection processing information that is not independently packaged, the information processing prompt is used to prompt the first forwarding node corresponding to the information processing prompt to report the garbage collection processing information that meets the information analysis condition, and specifically: the information processing prompt is used for prompting the first forwarding node corresponding to the information processing prompt to package the target garbage collection processing information forwarded by the first forwarding node into data elements and re-report the data elements to the convergence processing terminal after the data elements are packaged. Therefore, the garbage collection processing information is prompted to the nodes to be packaged and then reported to the convergence processing terminal, so that the convergence processing terminal can conveniently and clearly distinguish the information reported by each forwarding node, the situation that the garbage collection processing information is matched with the forwarding node corresponding to the garbage collection processing information and is wrong due to the fact that the garbage collection processing information is not packaged independently is reduced, and further the analysis efficiency and the accuracy of the garbage collection processing information of each forwarding node are improved.

Therefore, according to the optional implementation mode, whether the garbage collection processing information reported by the forwarding node is independently packaged or not is judged, and the fact that the garbage collection processing information meets the information analysis condition can be achieved.

In the optional embodiment, it is to be noted that when the garbage collection processing information includes information of an information type and is independently packaged, it is determined that the garbage collection processing information meets the information analysis condition, so that a determination mode that the garbage collection processing information meets the information analysis condition can be enriched, determination accuracy and reliability that the garbage collection processing information meets the information analysis condition can be improved, and an intelligent function of the convergence processing terminal is enriched.

It can be seen that, in this optional embodiment, after receiving the garbage collection processing information reported by the forwarding node, whether all the received garbage collection processing information meets the information analysis condition is further determined, if there is garbage collection processing information that does not meet the information analysis condition, an information processing prompt is issued to the forwarding node that does not meet the information analysis condition, so that the forwarding node reports the information that meets the information analysis condition, thereby being beneficial to improving the analysis accuracy and efficiency of the garbage disposal condition of the area of the forwarding node, and further obtaining an accurate and reliable garbage disposal condition.

In another optional embodiment, the aggregate processing terminal analyzes the received target garbage collection processing information to obtain a garbage disposal situation of an area matched with a target forwarding node that reports the target garbage collection processing information, and may include:

when the information analysis conditions are detected to be met, the convergence processing terminal analyzes the received target garbage collection processing information reported by each target forwarding node to obtain garbage processing conditions of the areas matched with each target forwarding node;

when detecting that target garbage collection processing information which does not meet the information analysis conditions exists, the convergence processing terminal screens all second garbage collection processing information which meets the information analysis conditions from all target garbage collection processing information, analyzes each second garbage collection processing information and obtains garbage disposal conditions of an area matched with a target forwarding node which reports each second garbage collection processing information.

Therefore, according to the alternative embodiment, after all the garbage collection processing information is detected to meet the information analysis condition, each piece of garbage collection processing information is analyzed, or after the garbage collection processing information which does not meet the information analysis condition is detected to exist, the garbage collection processing information which meets the information analysis condition is analyzed, so that intelligent analysis of the garbage collection processing information can be realized, and the analysis efficiency and accuracy of the garbage disposal condition of the region corresponding to the classification node are improved.

In yet another alternative embodiment, after or after the completion of step 102 or during the execution of the foregoing alternative embodiment, the garbage collection supervision method based on the internet of things may further include the following operations:

the convergence processing terminal judges whether areas meeting the predetermined garbage processing conditions exist or not according to all garbage processing conditions, wherein the areas meeting the predetermined garbage processing conditions are areas needing to be subjected to garbage classification recycling processing in time;

when judging that the region meeting the garbage treatment condition exists, the convergence processing terminal screens a third region meeting the garbage treatment condition from the regions matched with each target forwarding node;

the convergence processing terminal generates the garbage disposal early warning of each third area and outputs the garbage disposal early warning of each third area.

In this optional embodiment, as an optional implementation manner, the outputting, by the convergence processing terminal, the pre-alarm for garbage disposal of each third area may include:

the convergence processing terminal transmits the garbage disposal early warning of each third area to the first garbage disposal management terminal corresponding to the third area through the target forwarding node corresponding to the third area, and the garbage disposal early warning of each third area is used for informing the first garbage disposal management terminal corresponding to the third area to allocate garbage recycling transportation equipment matched with the garbage disposal early warning to recycle the garbage of the third area; and/or

The convergence processing terminal issues the garbage disposal early warning of each third area to a next grading node corresponding to the third area through a target forwarding node corresponding to the third area, so that the next grading node corresponding to each third area issues the garbage disposal early warning of the third area to a second garbage disposal management terminal corresponding to the third area through the forwarding node of the next grading node, and the garbage disposal early warning of each third area is used for notifying the second garbage disposal management terminal corresponding to the third area to allocate garbage recycling transportation equipment matched with the garbage disposal early warning to recycle garbage of the third area; and/or

The convergence processing terminal sends the garbage disposal early warning of each third area to a third garbage disposal management terminal corresponding to the third area, so that the third garbage disposal management terminal corresponding to each third area outputs the garbage disposal early warning of the third area to related personnel, wherein the third garbage disposal management terminal corresponding to each third area is a terminal capable of directly communicating with the convergence processing terminal.

In this alternative embodiment, the predetermined garbage disposal condition may include at least one of a garbage amount greater than or equal to a preset garbage amount threshold (e.g., 800kg, etc.), a garbage height within the intelligent garbage collection device greater than or equal to a preset height threshold, a gas concentration within the intelligent garbage collection device greater than or equal to a preset gas concentration threshold, a gas type within the intelligent garbage collection device including a preset gas type (e.g., formaldehyde, etc.), a temperature within the intelligent garbage collection device greater than or equal to a preset temperature threshold (e.g., 50 ℃), the intelligent garbage collection device having combustible and explosive garbage, the intelligent garbage collection device having corrosive garbage, and the intelligent garbage collection device having waste medicines, which is not limited. Thus, the more the garbage treatment conditions comprise, the more the determination accuracy and reliability of the region meeting the garbage treatment conditions are improved, and the garbage in the region can be recovered in time.

In this alternative embodiment, the first garbage management terminal/the second garbage management terminal/the third garbage management terminal may include a user terminal corresponding to the total garbage management terminal and/or garbage cleaning personnel, for example: and the mobile phone, the computer and the like, wherein the total garbage disposal management terminal can be communicated with the user terminal corresponding to each garbage personnel.

In this alternative embodiment, the early warning of garbage disposal may include at least one of an area identifier of the third area, a garbage type to be disposed in time, a vehicle identifier of a garbage transport vehicle matching the garbage type of the third area, and a latest disposal time of garbage, which is not limited. Therefore, the more detailed the content included in the garbage disposal early warning, the more favorable the garbage recycling and cleaning efficiency and accuracy of the region are improved.

Therefore, after the garbage disposal conditions matched with the classification nodes are obtained, the optional embodiment further analyzes whether the region needing to be subjected to garbage recycling treatment in time exists according to all the garbage disposal conditions, if so, generates and outputs a garbage disposal early warning of the region so as to prompt relevant personnel of the region to recycle the garbage of the region, and is beneficial to emergency recycling of the garbage; the method has the advantages that the method can further send the garbage treatment early warning to the garbage treatment management terminal through the corresponding grading node of the region and/or the next grading node of the corresponding grading node of the region and/or directly send the garbage treatment early warning to the garbage treatment management terminal of the region, so that the early warning that relevant personnel know that the region needs to timely recycle garbage can be improved, the garbage recycling efficiency is improved, the environment pollution caused by the existence of harmful garbage and/or excessive garbage accumulation is reduced, and the physical and mental health of people is further affected.

In yet another alternative embodiment, after the completing step 101 and before the performing step 102, the garbage collection supervision method based on the internet of things may further include the following steps:

the convergence processing terminal acquires the corresponding workload condition when receiving the target garbage collection processing information, and judges whether the current workload value of the convergence processing terminal is smaller than or equal to a predetermined load threshold according to the work coincidence condition.

In this optional embodiment, optionally, the aggregate processing terminal analyzes the received target garbage collection processing information to obtain a garbage disposal situation of an area matched with a target forwarding node that reports the target garbage collection processing information, which may include:

when the current workload value of the convergence processing terminal is judged to be smaller than or equal to a load threshold value, the convergence processing terminal simultaneously analyzes the received target garbage collection processing information to obtain the garbage disposal condition of an area matched with a target forwarding node for reporting the target garbage collection processing information;

when the current workload value of the convergence processing terminal is not less than or equal to the load threshold value, the convergence processing terminal sequences all the target forwarding nodes according to the order from high to low of the node levels to obtain sequenced target forwarding nodes, and analyzes the received target garbage collection processing information one by one according to the order from high to low of the node levels to obtain garbage processing conditions of areas matched with the target forwarding nodes for reporting the target garbage collection processing information; or alternatively, the process may be performed,

When the current workload value of the convergence processing terminal is not larger than or equal to the load threshold value, the convergence processing terminal monitors the real-time workload value, and when the real-time workload value is smaller than or equal to the load threshold value, the received target garbage collection processing information is analyzed at the same time, so that the garbage disposal condition of the area matched with the target forwarding node for reporting the target garbage collection processing information is obtained.

Therefore, in this optional embodiment, after receiving the garbage collection processing information reported by the forwarding node, whether the workload value of the convergence processing terminal is smaller is further determined, if so, the garbage collection processing information is simultaneously analyzed and received, if so, the garbage collection processing information is analyzed one by one according to the order from high to low of the node level, or the real-time workload value of the convergence processing terminal is monitored until the real-time workload value is larger, and then the garbage collection processing information is simultaneously analyzed and received, so that the occurrence of the conditions that the information processing efficiency is low and even the failure occurs due to the congestion condition of the link of the convergence processing terminal caused by more information can be reduced; and by analyzing the garbage collection processing information one by one, the processing of the garbage collection processing information which needs urgent processing is not delayed, and the intelligent function of the convergence processing terminal can be further enriched.

after the target garbage collection processing information reported by the target forwarding node is not received, the convergence processing terminal judges whether the time length from the moment when the convergence processing terminal needs to analyze and make a decision is less than or equal to a determined time length threshold (for example, 1 hour and the like);

when the time length of the moment when the current moment is less than or equal to the determined time length threshold from the moment when the current moment is required to be analyzed and decided by the convergence processing terminal, the convergence processing terminal issues a report prompt of the garbage collection processing information to a classification node capable of communicating with the convergence processing terminal so as to prompt the classification node to report the corresponding garbage collection processing information.

In this alternative embodiment, the reporting directive may include the type of garbage collection processing information that needs to be reported (e.g., the type of recyclable garbage) and/or the reporting deadline. Therefore, the accuracy and reliability of the garbage collection processing information reported by the classification nodes can be improved by issuing the type of the garbage collection processing information to be reported and/or reporting cut-off time to the classification nodes.

In this optional embodiment, when it is determined that the time length of the current time from the time when the convergence processing terminal needs to perform analysis and decision is not less than or equal to the determined duration threshold, the convergence processing terminal ends the current flow.

Therefore, in the optional embodiment, after the garbage collection processing information reported by the classification node is not received, when the current moment approaches the moment when the analysis and decision are needed by the convergence processing terminal, a report prompt of the garbage collection processing information is further issued to the classification node, so that the classification node is convenient to report the garbage collection processing information, the analysis and decision of the garbage collection processing terminal are convenient, and the recovery supervision of the regional garbage matched with the classification node is further facilitated.

Therefore, the implementation of the garbage collection supervision method based on the internet of things described in fig. 2 can realize the hierarchical forwarding of the related data of the garbage through each acquisition node and each forwarding node arranged in the garbage collection supervision system and report the related data to the convergence processing terminal for analysis, and can collect, analyze and supervise the related data of the garbage in each area, so that the intelligent supervision of the garbage in the recycling process is realized, and the recycling and cleaning efficiency of the garbage is improved; and through the hierarchical collection, forwarding and reporting of the relevant data of the garbage in each area, the analysis efficiency and accuracy of the relevant data can be improved, so that the supervision efficiency and accuracy of the garbage in each area can be improved, and an accurate and reliable garbage supervision and recovery strategy can be formulated for each area.

Example two

Referring to fig. 3, fig. 3 is a flow chart of another method for monitoring and controlling garbage collection based on internet of things according to an embodiment of the present invention. The garbage collection supervision method based on the internet of things described in fig. 3 may be applied to a garbage collection supervision system, where the garbage collection supervision system may be a supervision system of a certain community, a supervision system of a certain county, a supervision system of a certain city, a supervision system of a certain province, or a supervision system of a certain country, and the embodiment of the present invention is not limited. The garbage collection supervision system comprises an aggregation processing terminal and grading nodes arranged on each grade, each grading node at least comprises an acquisition node and a forwarding node, the acquisition node of each grading node is used for acquiring garbage collection processing information forwarded by the forwarding node of the next grading node, and the forwarding node of each grading node is used for forwarding the garbage collection processing information acquired by the acquisition node of the grading node to the acquisition node or the aggregation processing terminal of the previous grading node. As shown in fig. 3, the garbage collection supervision method based on the internet of things may include the following operations:

201. the method comprises the steps that an aggregation processing terminal receives target garbage collection processing information reported by at least one target forwarding node, the target garbage collection processing information reported by the target forwarding node comprises garbage collection processing information reported by a forwarding node of a next hierarchical node corresponding to the hierarchical node where the target forwarding node is located, and the target forwarding node is a node capable of directly communicating with the aggregation processing terminal.

202. The convergence processing terminal analyzes the received target garbage collection processing information to obtain the garbage disposal condition of the area matched with the target forwarding node reporting the target garbage collection processing information.

203. And the convergence processing terminal screens all types of forwarding nodes with the predetermined target garbage types from all the target forwarding nodes according to related contents included in garbage processing conditions of each region matched with the target forwarding nodes.

204. And the convergence processing terminal screens the first areas with the target garbage types from each area matched with the type forwarding node, and determines the target garbage generation amount corresponding to the target garbage types in each first area.

In the embodiment of the invention, the target garbage type can comprise at least one of inflammable and explosive garbage types, corrosive garbage types, waste medicine types, garbage types emitting toxic gas and the like, and the embodiment of the invention is not limited.

Therefore, after the garbage disposal conditions of the areas matched with the classification nodes are analyzed, the forwarding nodes with the target garbage types are further screened according to all the garbage disposal conditions, and the garbage amount of garbage generated by the areas with the target garbage types is determined, so that the generation conditions of the garbage with the target garbage types in each area can be performed, and the execution of corresponding garbage recycling strategies according to the generation conditions is facilitated, for example: if more garbage of the target garbage type is generated in the region, a larger garbage storage space is allocated for the garbage of the target garbage type.

In an alternative embodiment, after the completion of step 204, the garbage collection supervision method based on the internet of things may further include the following operations:

the convergence processing terminal sorts the target garbage generation amount of each first area to obtain garbage sorting conditions corresponding to the target garbage types in all the first areas;

and the convergence processing terminal screens the target garbage generation amount from all the first areas according to the garbage sorting condition, arranges the target garbage generation amount in a plurality of preset second areas, and outputs the area information corresponding to each second area.

In this optional embodiment, optionally, the convergence processing terminal sets a special identifier for each first area, and stores a special identifier corresponding to each first area, where the special identifier may be a node identifier corresponding to the first area and/or a garbage identifier of a target garbage type, and the optional embodiment is not limited. Therefore, by setting the special mark for the region with the target garbage type, the special mark is beneficial to focusing on the garbage condition of the target garbage type of the region, thereby realizing the supervision of the garbage of the target garbage type.

Therefore, after determining the area where the target garbage type exists, the optional embodiment further sorts the garbage generation amount of the target garbage type generated by each area in all areas where the target garbage type exists, so as to obtain the area with larger garbage generation amount, and the area situation of garbage generating the target garbage type can be known, thereby realizing effective supervision on the area where the target garbage type is generated.

In another optional embodiment, the garbage collection supervision method based on the internet of things may further include the following operations:

the method comprises the steps that an aggregation processing terminal obtains information notices sent by an information terminal establishing communication with the aggregation processing terminal, and outputs the information notices;

in this optional embodiment, optionally, the aggregating processing terminal outputs an information advertisement, which may include:

the convergence processing terminal transmits the information bulletin to a grading node corresponding to the target forwarding node through each target forwarding node, so that the grading node transmits the information bulletin to a first intelligent recovery device of an area matched with the grading node through the target forwarding node, and the first intelligent recovery device outputs the information bulletin; and/or

The convergence processing terminal transmits the information bulletin to the hierarchical node corresponding to the target forwarding node through each target forwarding node, so that the hierarchical node transmits the information bulletin to the next hierarchical node corresponding to the hierarchical node through the target forwarding node, and the next hierarchical node transmits the information bulletin to the second intelligent recovery equipment of the area matched with the next hierarchical node through the forwarding node, so that the second intelligent recovery equipment outputs the information bulletin; and/or

The convergence processing terminal issues the information bulletin to a third intelligent recovery device of an area matched with each target forwarding node, so that the third intelligent recovery device outputs the information bulletin;

wherein the information terminals include terminals for managing government-related information and/or terminals for promoting advertising resources.

It should be noted that, this optional embodiment may occur after or before all the embodiments described above, or may occur simultaneously with all the embodiments described above, and the present solution is not limited.

It can be seen that the optional embodiment communicates with the information terminal through the convergence processing terminal, so that content to be announced by a government can be issued to an area of each hierarchical node through the high convergence processing terminal, and/or content to be promoted by the advertising terminal can be issued to an area of each hierarchical node, content to be announced by the government (for example, refuse classification advocacy content, dry weather fire prevention content and the like) can be announced, advertisement resources (for example, detergent advertisements and the like) can be promoted, intelligent garbage equipment resources can be fully utilized, and the intelligent function of the convergence processing terminal can be enriched.

In the embodiment of the present invention, for other detailed descriptions of the hierarchical nodes and the convergence processing terminal, please refer to the detailed description in the first embodiment, and the detailed description of the embodiment of the present invention is omitted.

Therefore, the implementation of the garbage collection supervision method based on the internet of things described in fig. 3 can realize the hierarchical forwarding of the related data of the garbage through each acquisition node and each forwarding node arranged in the garbage collection supervision system and report the related data to the convergence processing terminal for analysis, and can collect, analyze and supervise the related data of the garbage in each area, so that the intelligent supervision of the garbage in the recycling process is realized, and the recycling and cleaning efficiency of the garbage is improved; and through the hierarchical collection, forwarding and reporting of the relevant data of the garbage in each area, the analysis efficiency and accuracy of the relevant data can be improved, so that the supervision efficiency and accuracy of the garbage in each area can be improved, and an accurate and reliable garbage supervision and recovery strategy can be formulated for each area. In addition, forwarding nodes with target garbage types can be screened out according to all garbage disposal conditions, the garbage amount of garbage generated by the areas with the target garbage types is determined, and the generation conditions of the garbage with the target garbage types in each area can be carried out, so that the execution of corresponding garbage recycling strategies according to the generation conditions is facilitated.

Example III

Referring to fig. 4, fig. 4 is a flow chart of another garbage collection supervision method based on the internet of things according to an embodiment of the present invention. The garbage collection supervision method based on the internet of things described in fig. 4 may be used in a garbage collection supervision system, where the garbage collection supervision system may be a supervision system of a certain community, a supervision system of a certain county, a supervision system of a certain city, a supervision system of a certain province, or a supervision system of a certain country, and the embodiment of the present invention is not limited. The garbage collection supervision system comprises an aggregation processing terminal and grading nodes arranged on each grade, each grading node at least comprises an acquisition node and a forwarding node, the acquisition node of each grading node is used for acquiring garbage collection processing information forwarded by the forwarding node of the next grading node, and the forwarding node of each grading node is used for forwarding the garbage collection processing information acquired by the acquisition node of the grading node to the acquisition node or the aggregation processing terminal of the previous grading node. . As shown in fig. 4, the garbage collection supervision method based on the internet of things may include the following operations:

301. the classification node reports target garbage collection processing information to the convergence processing terminal through the forwarding node of the classification node, the target garbage collection processing information reported by the classification node comprises garbage collection processing information reported by the forwarding node of the next classification node corresponding to the classification node, and the classification node is a node capable of directly communicating with the convergence processing terminal.

In the embodiment of the invention, the aim of reporting the target garbage collection processing information to the convergence processing terminal by the grading node is to:

Therefore, the implementation of the garbage collection supervision method based on the internet of things described in fig. 4 can realize the hierarchical forwarding of the related data of the garbage through each acquisition node and each forwarding node arranged in the garbage collection supervision system and report the related data to the convergence processing terminal for analysis, and can collect, analyze and supervise the related data of the garbage in each area, so that the intelligent supervision of the garbage in the recycling process is realized, and the recycling and cleaning efficiency of the garbage is improved; and through the hierarchical collection, forwarding and reporting of the relevant data of the garbage in each area, the analysis efficiency and accuracy of the relevant data can be improved, so that the supervision efficiency and accuracy of the garbage in each area can be improved, and an accurate and reliable garbage supervision and recovery strategy can be formulated for each area.

Example IV

Referring to fig. 5, fig. 5 is a flow chart of another garbage collection supervision method based on the internet of things according to an embodiment of the present invention. The garbage collection supervision method based on the internet of things described in fig. 5 may be used in a garbage collection supervision system, where the garbage collection supervision system may be a supervision system of a certain community, a supervision system of a certain county, a supervision system of a certain city, a supervision system of a certain province, or a supervision system of a certain country, and the embodiment of the present invention is not limited. The garbage collection supervision system comprises an aggregation processing terminal and grading nodes arranged on each grade, each grading node at least comprises an acquisition node and a forwarding node, the acquisition node of each grading node is used for acquiring garbage collection processing information forwarded by the forwarding node of the next grading node, and the forwarding node of each grading node is used for forwarding the garbage collection processing information acquired by the acquisition node of the grading node to the acquisition node or the aggregation processing terminal of the previous grading node. . As shown in fig. 4, the garbage collection supervision method based on the internet of things may include the following operations:

401. the classification node reports target garbage collection processing information to the convergence processing terminal through the forwarding node of the classification node, the target garbage collection processing information reported by the classification node comprises garbage collection processing information reported by the forwarding node of the next classification node corresponding to the classification node, and the classification node is a node capable of directly communicating with the convergence processing terminal.

402. And the convergence processing terminal receives the target garbage collection processing information reported by the grading node, analyzes the received target garbage collection processing information, and obtains the garbage disposal condition of the area matched with the target forwarding node reporting the target garbage collection processing information.

Therefore, the implementation of the garbage collection supervision method based on the internet of things described in fig. 5 can realize the hierarchical forwarding of the related data of the garbage through each collection node and each forwarding node arranged in the garbage collection supervision system and report the related data to the convergence processing terminal for analysis, and can collect, analyze and supervise the related data of the garbage in each area, so that the intelligent supervision of the garbage in the recycling process is realized, and the recycling and cleaning efficiency of the garbage is improved; and through the hierarchical collection, forwarding and reporting of the relevant data of the garbage in each area, the analysis efficiency and accuracy of the relevant data can be improved, so that the supervision efficiency and accuracy of the garbage in each area can be improved, and an accurate and reliable garbage supervision and recovery strategy can be formulated for each area.

Example five

Referring to fig. 6, fig. 6 is a schematic structural diagram of a convergence processing terminal according to an embodiment of the present invention. The converging processing terminal is a processing terminal of the garbage collection monitoring system, and the garbage collection monitoring system further comprises grading nodes arranged on each grade, each grading node at least comprises an acquisition node and a forwarding node, the acquisition node of each grading node is used for acquiring garbage collection processing information forwarded by the forwarding node of the next grading node, and the forwarding node of each grading node is used for forwarding the garbage collection processing information acquired by the acquisition node of the grading node to the acquisition node of the previous grading node or the converging processing terminal. The garbage collection supervision system may be a supervision system of a certain district, a supervision system of a certain county, a supervision system of a certain city, a supervision system of a certain province, or a supervision system of a certain country, which is not limited in the embodiment of the present invention. As shown in fig. 6, the convergence processing terminal may include a communication module 501 and an analysis module 502, where:

the communication module 501 is configured to receive target garbage collection processing information reported by at least one target forwarding node, where the target garbage collection processing information reported by the target forwarding node includes garbage collection processing information reported by a forwarding node of a next hierarchical node corresponding to the hierarchical node where the target forwarding node is located, and the target forwarding node is a node capable of directly communicating with the convergence processing terminal.

The analysis module 502 is configured to analyze the received target garbage collection processing information, and obtain a garbage disposal situation of an area that matches with a target forwarding node that reports the target garbage collection processing information.

In the embodiment of the present invention, optionally, the garbage disposal condition of the area matched with the target forwarding node includes the garbage condition of the area and/or other conditions of the area, the garbage condition of the area matched with the target forwarding node includes at least one of the garbage classification condition of the area, the garbage collection condition of the area, the garbage cleaning condition of the area and the garbage generation condition of the area, the garbage generation condition of the area matched with the target forwarding node includes the garbage type of the garbage generated by the area and/or the garbage generation amount of each garbage type, and the other conditions of the area matched with the target forwarding node includes at least one of the operation state of the intelligent recovery device in the area, the garbage delivery violation data of the area and the operation condition of the garbage transport vehicle of the area.

In the embodiment of the invention, optionally, the nodes capable of directly communicating with the convergence processing terminal comprise nodes with the level greater than or equal to a predetermined level threshold in all grades, and the region types corresponding to the matched regions comprise at least one of the nodes of one region type in the predetermined region type set and the nodes of the region matched with the node in the predetermined time length, wherein the garbage generation condition of the region meets the predetermined garbage generation condition; the nodes meeting the garbage generation conditions comprise nodes with garbage generation amounts greater than or equal to a predetermined garbage generation amount threshold value in the areas matched with the nodes within a preset time period, and/or all garbage types of garbage generated in the areas matched with the nodes within the preset time period comprise nodes with predetermined garbage types.

Therefore, the convergence processing terminal described in fig. 6 can realize the hierarchical forwarding of the relevant data of the garbage through each acquisition node and each forwarding node arranged in the garbage collection monitoring system, report the relevant data of the garbage to the convergence processing terminal for analysis, and collect, analyze and monitor the relevant data of the garbage in each area, so that the intelligent monitoring of the garbage in the recycling process is realized, and the recycling and cleaning efficiency of the garbage is improved; and through the hierarchical collection, forwarding and reporting of the relevant data of the garbage in each area, the analysis efficiency and accuracy of the relevant data can be improved, so that the supervision efficiency and accuracy of the garbage in each area can be improved, and an accurate and reliable garbage supervision and recovery strategy can be formulated for each area.

In an alternative embodiment, on the basis of the schematic structural diagram of the convergence processing terminal described in fig. 6, the convergence processing terminal may further include a detection module 503, a first screening module 504, and a first determining module 505, where the convergence processing terminal may be shown in fig. 7, and fig. 7 is a schematic structural diagram of another convergence processing terminal, where:

the detecting module 503 is configured to detect whether the target garbage collection processing information reported by each target forwarding node meets a predetermined information analysis condition after the communication module 502 receives the target garbage collection processing information reported by at least one target forwarding node.

A first screening module 504, configured to screen all first garbage collection processing information that does not satisfy the information analysis condition from all target garbage collection processing information when the detection module 503 detects that there is target garbage collection processing information that does not satisfy the information analysis condition.

The first determining module 505 is configured to determine, from all the target forwarding nodes, a first forwarding node corresponding to each piece of first garbage collection processing information.

The communication module 502 is further configured to send an information processing prompt to each first forwarding node, where the information processing prompt is configured to prompt the first forwarding node corresponding to the information processing prompt to report the garbage collection processing information that meets the information analysis condition.

Therefore, after receiving the garbage collection processing information reported by the forwarding node, the convergence processing terminal described in fig. 7 can further determine whether all the received garbage collection processing information meets the information analysis condition, and if not, send an information processing prompt to the forwarding node corresponding to the information analysis condition, so that the forwarding node reports the information meeting the information analysis condition, thereby being beneficial to improving the analysis accuracy and efficiency of the garbage disposal condition of the area of the forwarding node, and further obtaining an accurate and reliable garbage disposal condition.

In another alternative embodiment, as shown in fig. 7, a manner of detecting whether the target garbage collection processing information reported by each target forwarding node meets the pre-selected determined information analysis condition by the detection module 503 may specifically be:

detecting whether target garbage collection processing information reported by each target forwarding node contains garbage collection processing information of a predetermined information type;

when detecting that the garbage collection processing information which does not contain the information type exists, determining that the target garbage collection processing information which does not meet the predetermined information analysis condition exists; or (b)

Judging whether target garbage recycling information which is not independently packaged exists in all target garbage recycling information;

when judging that all the target garbage collection processing information has target garbage collection processing information which is not independently packaged, determining that garbage collection processing information which does not meet the predetermined information analysis condition exists.

In this optional embodiment, optionally, when it is detected that there is garbage collection processing information that does not include an information type, the information processing prompt is configured to prompt a first forwarding node corresponding to the information processing prompt to report garbage collection processing information that meets an information analysis condition, and specifically: the information processing prompt is used for prompting the first forwarding node corresponding to the information processing prompt to report garbage collection processing information containing the information type;

when judging that all the target garbage collection processing information has target garbage collection processing information which is not independently packaged, the information processing prompt is used for prompting a first forwarding node corresponding to the information processing prompt to report the garbage collection processing information meeting the information analysis condition, and the method is specific: the information processing prompt is used for prompting the first forwarding node corresponding to the information processing prompt to package the target garbage collection processing information forwarded by the first forwarding node into data elements and re-report the data elements to the convergence processing terminal after the data elements are packaged.

It can be seen that implementing the convergence processing terminal described in fig. 7 can also implement the determination that the garbage collection processing information satisfies the information analysis condition by detecting whether the garbage collection processing information reported by the forwarding node includes the information of the required information type and/or by judging whether the garbage collection processing information reported by the forwarding node is independently packaged, and can also enrich the determination manner that the garbage collection processing information satisfies the information analysis condition, and can also improve the accuracy and reliability of the determination that the garbage collection processing information satisfies the information analysis condition, thereby enriching the intelligent function of the convergence processing terminal.

In yet another alternative embodiment, as shown in fig. 7, the analysis module 501 analyzes the received target garbage collection processing information to obtain the garbage disposal situation of the area matched with the target forwarding node reporting the target garbage collection processing information specifically includes:

when the condition that the information analysis conditions are met is detected, analyzing the received target garbage collection processing information reported by each target forwarding node to obtain garbage processing conditions of the areas matched with each target forwarding node;

when detecting that target garbage collection processing information which does not meet the information analysis conditions exists, screening all second garbage collection processing information which meets the information analysis conditions from all target garbage collection processing information, and analyzing each second garbage collection processing information to obtain garbage disposal conditions of an area matched with a target forwarding node which reports each second garbage collection processing information.

Therefore, the convergence processing terminal shown in fig. 7 can also analyze each piece of garbage collection processing information after detecting that all pieces of garbage collection processing information meet the information analysis condition, or analyze the garbage collection processing information meeting the information analysis condition after detecting that the garbage collection processing information which does not meet the information analysis condition exists, so that intelligent analysis of the garbage collection processing information can be realized, and analysis efficiency and accuracy of garbage disposal conditions of areas corresponding to the classification nodes can be improved.

In yet another alternative embodiment, as shown in fig. 7, the convergence processing terminal may further include a second screening module 506 and a second determining module 507, where:

and the second screening module 506 is configured to screen all types of forwarding nodes with predetermined target garbage types from all target forwarding nodes according to relevant content included in the garbage disposal situation of each area matched with the target forwarding node after the analysis module 501 analyzes the received target garbage collection processing information to obtain the garbage disposal situation of the area matched with the target forwarding node reporting the target garbage collection processing information.

The second screening module 506 is further configured to screen the first area in which the target garbage type exists from each area that matches the type forwarding node.

And the second determining module 507 is configured to determine a target garbage generation amount corresponding to the target garbage type in each first area.

It can be seen that, implementing the convergence processing terminal described in fig. 7 can further screen the forwarding node with the target garbage type according to all the garbage processing conditions after analyzing the garbage processing conditions of the region matched with the classification node, and determine the garbage amount of the garbage generated by the region with the target garbage type, so as to enable the garbage with the target garbage type to be generated in each region, thereby being beneficial to executing the corresponding garbage recycling policy according to the generated conditions, for example: if more garbage of the target garbage type is generated in the region, a larger garbage storage space is allocated for the garbage of the target garbage type.

In yet another alternative embodiment, as shown in fig. 7, the convergence processing terminal may further include a ranking module 508, wherein:

the sorting module 508 is configured to sort the target garbage generated amounts of each first area after the second determining module 507 determines the target garbage generated amounts corresponding to the target garbage types in each first area, so as to obtain garbage sorting conditions corresponding to the target garbage types in all the first areas.

The second screening module 506 is further configured to screen the second areas with the target garbage output arranged in the preset first several names from all the first areas according to the garbage sorting situation.

The communication module 502 is further configured to output area information corresponding to each second area.

Therefore, after determining the area where the target garbage type exists, the convergence processing terminal described in fig. 7 can further sort the garbage generation amount of the target garbage type generated by each area in all areas where the target garbage type exists, so as to obtain an area with larger garbage generation amount, and know the situation of the area where the garbage of the target garbage type is generated, thereby realizing effective supervision on the area where the target garbage type is generated.

In yet another alternative embodiment, as shown in fig. 7, the convergence processing terminal may further include a determining module 509, a third screening module 510, and a generating module 511, where:

the judging module 509 is further configured to, after the analyzing module 502 analyzes the received target garbage collection processing information to obtain garbage disposal conditions of an area that matches with a target forwarding node that reports the target garbage collection processing information, judge, according to all garbage disposal conditions, whether an area that meets a predetermined garbage disposal condition exists, where the area that meets the predetermined garbage disposal condition is an area that needs to be subjected to garbage classification and collection processing in time.

And a third screening module 510, configured to screen a third area satisfying the garbage disposal condition from the areas matched with each target forwarding node when the judging module 509 judges that there is an area satisfying the garbage disposal condition.

The generating module 511 is configured to generate a garbage disposal early warning for each third area.

The communication module 501 is further configured to output a garbage disposal early warning for each third area;

in this optional embodiment, optionally, the mode of outputting the pre-alarm of garbage disposal in each third area by the communication module 501 may specifically be:

the method comprises the steps that the garbage disposal early warning of each third area is issued to a first garbage disposal management terminal corresponding to the third area through a target forwarding node corresponding to the third area, and the garbage disposal early warning of each third area is used for informing the first garbage disposal management terminal corresponding to the third area to allocate garbage recycling transportation equipment matched with the garbage disposal early warning to recycle garbage of the third area; and/or

The method comprises the steps that the garbage treatment early warning of each third area is issued to a next grading node corresponding to the third area through a target forwarding node corresponding to the third area, so that the next grading node corresponding to each third area issues the garbage treatment early warning of the third area to a second garbage treatment management terminal corresponding to the third area through the forwarding node of the next grading node, and the garbage treatment early warning of each third area is used for informing the second garbage treatment management terminal corresponding to the third area to allocate garbage recycling transportation equipment matched with the garbage treatment early warning to recycle garbage of the third area; and/or

And sending the garbage disposal early warning of each third area to a third garbage disposal management terminal corresponding to the third area, wherein the garbage disposal early warning of each third area is used for informing the third garbage disposal management terminal corresponding to the third area to allocate garbage recycling transportation equipment matched with the garbage disposal early warning to recycle the garbage of the third area, and the third garbage disposal management terminal corresponding to each third area is a terminal capable of directly communicating with the convergence processing terminal.

As can be seen, after the convergence processing terminal described in fig. 7 is implemented, after the garbage disposal situation matched with the classification node is obtained, whether the area needing to timely perform garbage recycling is existed can be further analyzed according to all the garbage disposal situations, if yes, the garbage disposal early warning of the area is generated and output, so as to prompt the related personnel of the area to recycle the garbage of the area, which is beneficial to the emergency recycling of the garbage; the method has the advantages that the method can further send the garbage treatment early warning to the garbage treatment management terminal through the corresponding grading node of the region and/or the next grading node of the corresponding grading node of the region and/or directly send the garbage treatment early warning to the garbage treatment management terminal of the region, so that the early warning that relevant personnel know that the region needs to timely recycle garbage can be improved, the garbage recycling efficiency is improved, the environment pollution caused by the existence of harmful garbage and/or excessive garbage accumulation is reduced, and the physical and mental health of people is further affected.

In yet another alternative embodiment, as shown in fig. 7, the convergence processing terminal may further include an obtaining module 512, where:

and the acquisition module 512 is configured to acquire an information advertisement sent by an information terminal that establishes communication with the convergence processing terminal.

The communication module 501 is further configured to output an information advertisement.

In this alternative embodiment, optionally, the manner in which the communication module 501 outputs the information announcement is specifically:

the information bulletin is issued to a grading node corresponding to the target forwarding node through each target forwarding node, so that the grading node issues the information bulletin to a first intelligent recycling device of an area matched with the grading node through the target forwarding node, and the first intelligent recycling device outputs the information bulletin; and/or

The information bulletin is issued to a grading node corresponding to the target forwarding node through each target forwarding node, so that the grading node issues the information bulletin to a next grading node corresponding to the grading node through the target forwarding node, the next grading node issues the information bulletin to a second intelligent recovery device of an area matched with the next grading node through the forwarding node, and the second intelligent recovery device outputs the information bulletin; and/or

The information bulletin is issued to a third intelligent recycling device of the area matched with each target forwarding node, so that the third intelligent recycling device outputs the information bulletin;

wherein the information terminal includes a terminal for managing government-related information and/or a terminal for promoting advertising resources.

It can be seen that implementing the convergence processing terminal described in fig. 7 can also communicate with the information terminal through the convergence processing terminal, can issue content to be advertised by a government to an area of each hierarchical node through the high convergence processing terminal, and/or issue content to be promoted by an advertising terminal to an area of each hierarchical node, can issue content to be published by the government (for example, advocated content of garbage classification, content of dry weather prevention fire disaster, etc.), and promote advertising resources (for example, detergent advertisement, etc.), fully utilize intelligent garbage equipment resources, and also enrich the intelligent function of the convergence processing terminal.

Example six

Referring to fig. 8, fig. 8 is a schematic structural diagram of another convergence processing terminal according to an embodiment of the present invention. As shown in fig. 8, the convergence processing terminal is a processing terminal of the garbage collection supervision system, and the garbage collection supervision system further includes classification nodes disposed in each classification, each classification node at least includes an acquisition node and a forwarding node, the acquisition node of each classification node is configured to acquire garbage collection processing information forwarded by the forwarding node of the next classification node, and the forwarding node of each classification node is configured to forward the garbage collection processing information acquired by the acquisition node of the classification node to the acquisition node of the previous classification node or the convergence processing terminal. The garbage collection supervision system may be a supervision system of a certain district, a supervision system of a certain county, a supervision system of a certain city, a supervision system of a certain province, or a supervision system of a certain country, which is not limited in the embodiment of the present invention. The convergence processing terminal may include:

A memory 801 storing executable program code;

a processor 802 coupled to the memory 801;

further, an input interface 803 and an output interface 804 coupled to the processor 802 may also be included;

the processor 802 invokes executable program codes stored in the memory 801, for executing the steps executed by the convergence processing terminal in the garbage collection supervision method based on the internet of things described in any one of the first embodiment, the second embodiment, and the fourth embodiment.

Example seven

The embodiment of the invention discloses a computer readable storage medium which stores a computer program for electronic data exchange, wherein the computer program enables a computer to execute steps executed by a convergence processing terminal in a garbage collection supervision method based on the Internet of things, which is described in any one of the first embodiment, the second embodiment and the fourth embodiment.

Example eight

The embodiment of the invention discloses a computer program product, which comprises a non-transitory computer readable storage medium storing a computer program, wherein the computer program is operable to enable a computer to execute steps executed by a convergence processing terminal in the garbage collection supervision method based on the internet of things described in any one of the first embodiment, the second embodiment and the fourth embodiment.

Example nine

Referring to fig. 9, fig. 9 is a schematic structural diagram of a garbage collection supervision system according to an embodiment of the invention. As shown in fig. 9, the garbage collection supervision system includes an aggregation processing terminal and hierarchical nodes disposed in each hierarchy, where each hierarchical node includes at least an acquisition node and a forwarding node, the acquisition node of each hierarchical node is configured to acquire garbage collection processing information forwarded by the forwarding node of the next hierarchical node, and the forwarding node of each hierarchical node is configured to forward the garbage collection processing information acquired by the acquisition node of the hierarchical node to the acquisition node or the aggregation processing terminal of the previous hierarchical node. The garbage collection supervision system may be a supervision system of a certain district, a supervision system of a certain county, a supervision system of a certain city, a supervision system of a certain province, or a supervision system of a certain country, which is not limited in the embodiment of the present invention. The aggregation processing terminal may include the apparatus described in the fifth embodiment, and the aggregation processing terminal is configured to execute related steps in the garbage collection supervision method based on the internet of things described in any one of the first embodiment, the second embodiment, and the fourth embodiment; the classification node is used for executing relevant steps in the garbage collection supervision method based on the internet of things described in the third embodiment or the fourth embodiment.

The apparatus embodiments described above are merely illustrative, wherein the modules illustrated as separate components may or may not be physically separate, and the components shown as modules may or may not be physical, i.e., may be located in one place, or may be distributed over a plurality of network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

From the above detailed description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course by means of hardware. Based on such understanding, the foregoing technical solutions may be embodied essentially or in part in the form of a software product that may be stored in a computer-readable storage medium including Read-Only Memory (ROM), random-access Memory (Random Access Memory, RAM), programmable Read-Only Memory (Programmable Read-Only Memory, PROM), erasable programmable Read-Only Memory (Erasable Programmable Read Only Memory, EPROM), one-time programmable Read-Only Memory (OTPROM), electrically erasable programmable Read-Only Memory (EEPROM), compact disc Read-Only Memory (Compact Disc Read-Only Memory, CD-ROM) or other optical disc Memory, magnetic disc Memory, tape Memory, or any other medium that can be used for computer-readable carrying or storing data.

Finally, it should be noted that: the embodiment of the invention discloses a garbage collection supervision method, a converging processing terminal and a system based on the Internet of things, which are disclosed by the embodiment of the invention only as the preferred embodiment of the invention, and are only used for illustrating the technical scheme of the invention, but not limiting the technical scheme; although the invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art will understand that; the technical scheme recorded in the various embodiments can be modified or part of technical features in the technical scheme can be replaced equivalently; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims

1. The method is characterized in that the method is applied to a garbage collection supervision system, the garbage collection supervision system comprises an aggregation processing terminal and hierarchical nodes arranged on each hierarchy, each hierarchical node at least comprises an acquisition node and a forwarding node, the acquisition node of each hierarchical node is used for acquiring garbage collection processing information forwarded by the forwarding node of the next hierarchical node, and the forwarding node of each hierarchical node is used for forwarding the garbage collection processing information acquired by the acquisition node of the hierarchical node to the acquisition node of the previous hierarchical node or the aggregation processing terminal, and the method comprises the following steps:

the convergence processing terminal acquires a corresponding workload condition when receiving the target garbage collection processing information, and judges whether the current workload value of the convergence processing terminal is smaller than or equal to a predetermined load threshold according to the workload condition;

the convergence processing terminal analyzes the received target garbage collection processing information to obtain garbage disposal conditions of areas matched with target forwarding nodes for reporting the target garbage collection processing information;

the nodes capable of directly communicating with the convergence processing terminal comprise at least one of nodes with the level larger than or equal to a predetermined level threshold value in all hierarchical nodes, and the region types corresponding to the matched regions comprise one of the nodes of the predetermined region type set and the nodes with the garbage generation condition of the matched region meeting the predetermined garbage generation condition within a preset time length;

The convergence processing terminal analyzes the received target garbage collection processing information to obtain garbage processing conditions of an area matched with a target forwarding node reporting the target garbage collection processing information, and the method comprises the following steps:

when the current workload value of the convergence processing terminal is not less than or equal to the load threshold value, the convergence processing terminal sorts all the target forwarding nodes according to the order from high to low of the node level, so as to obtain sorted target forwarding nodes, and analyzes the received target garbage collection processing information one by one according to the order from high to low of the node level, so as to obtain garbage processing conditions of an area matched with the target forwarding nodes reporting the target garbage collection processing information.

2. The internet of things-based garbage collection supervision method according to claim 1, wherein the garbage disposal situation of the area matched with the target forwarding node includes the garbage situation of the area and/or other situations of the area, the garbage situation of the area matched with the target forwarding node includes at least one of the garbage classification situation of the area, the garbage collection situation of the area, the garbage cleaning situation of the area and the garbage generation situation of the area, the garbage generation situation of the area matched with the target forwarding node includes at least one of the garbage type of the garbage generated by the area and/or the garbage generation amount of each of the garbage types, and the other situations of the area matched with the target forwarding node includes at least one of the operation state of the intelligent recycling device in the area, the garbage placement violation data of the area and the operation situation of the garbage transport vehicle of the area.

3. The internet of things-based garbage collection supervision method according to claim 1, wherein the nodes satisfying the garbage generation condition include nodes whose garbage generation amount of garbage generated by the area matched with the nodes within the preset time period is greater than or equal to a predetermined garbage generation amount threshold value and/or all garbage types of garbage generated by the area matched with the nodes within the preset time period include nodes of predetermined garbage types.

4. The method for supervising recycling of garbage based on internet of things according to any one of claims 1-3, wherein after the convergence processing terminal receives the target garbage recycling information reported by the at least one target forwarding node, the method further comprises:

the convergence processing terminal detects whether the target garbage collection processing information reported by each target forwarding node meets a predetermined information analysis condition;

And the convergence processing terminal determines a first forwarding node corresponding to each piece of first garbage collection processing information from all the target forwarding nodes, and sends an information processing prompt to each first forwarding node, wherein the information processing prompt is used for prompting the first forwarding node corresponding to the information processing prompt to report the garbage collection processing information meeting the information analysis conditions.

5. The method for monitoring and controlling garbage collection based on the internet of things according to claim 4, wherein the step of detecting, by the convergence processing terminal, whether the target garbage collection processing information reported by each target forwarding node meets the information analysis condition determined by preselection includes:

the convergence processing terminal detects whether the target garbage collection processing information reported by each target forwarding node contains garbage collection processing information of a predetermined information type;

when detecting that the garbage collection processing information which does not contain the information type exists, the convergence processing terminal determines that the target garbage collection processing information which does not meet the predetermined information analysis condition exists; or (b)

The convergence processing terminal judges whether target garbage recycling information which is not independently packaged exists in all the target garbage recycling information;

6. The internet of things-based garbage collection supervision method according to claim 5, wherein when it is detected that there is garbage collection processing information that does not include the information type, the information processing prompt is configured to prompt a first forwarding node corresponding to the information processing prompt to report garbage collection processing information that meets the information analysis condition, and specifically: the information processing prompt is used for prompting a first forwarding node corresponding to the information processing prompt to report garbage collection processing information containing the information type;

when judging that all the target garbage collection processing information has target garbage collection processing information which is not independently packaged, the information processing prompt is used for prompting a first forwarding node corresponding to the information processing prompt to report the garbage collection processing information meeting the information analysis conditions, and specifically: the information processing prompt is used for prompting the first forwarding node corresponding to the information processing prompt to encapsulate the target garbage collection processing information forwarded by the information processing prompt into data elements and re-report the data elements to the convergence processing terminal after encapsulation.

7. The method for monitoring and controlling garbage collection based on the internet of things according to claim 4, wherein the collecting and processing terminal analyzes the received target garbage collection processing information to obtain a garbage disposal condition of an area matched with a target forwarding node reporting the target garbage collection processing information, and the method comprises the following steps:

when the information analysis conditions are detected to be met, the convergence processing terminal analyzes the received target garbage collection processing information reported by each target forwarding node to obtain garbage processing conditions of areas matched with each target forwarding node;

when detecting that target garbage collection processing information which does not meet the information analysis conditions exists, the convergence processing terminal screens all second garbage collection processing information which meets the information analysis conditions from all the target garbage collection processing information, analyzes each piece of second garbage collection processing information and obtains garbage processing conditions of an area matched with a target forwarding node for reporting each piece of second garbage collection processing information.

8. The method for supervising recycling of garbage based on internet of things according to any one of claims 1, 2, 3, 5, 6, and 7, wherein after the convergence processing terminal analyzes the received target garbage recycling information to obtain the garbage disposal condition of the area where the target forwarding node reporting the target garbage recycling information matches, the method further comprises:

The convergence processing terminal screens all types of forwarding nodes with predetermined target garbage types from all the target forwarding nodes according to related contents included in garbage processing conditions of each region matched with the target forwarding nodes;

and the convergence processing terminal screens first areas with the target garbage types from each area matched with the type forwarding node, and determines the target garbage generation amount corresponding to the target garbage types in each first area.

9. The method for supervising recycling of garbage based on the internet of things according to claim 8, wherein after the convergence processing terminal determines the target garbage generation amount corresponding to the target garbage type in each first area, the method further comprises:

the convergence processing terminal sorts the target garbage generation amount of each first region to obtain garbage sorting conditions corresponding to the target garbage types in all the first regions;

and the convergence processing terminal screens the second areas with the target garbage generation quantity arranged in a plurality of preset names from all the first areas according to the garbage sorting condition and outputs the area information corresponding to each second area.

10. The method for supervising recycling of garbage based on internet of things according to any one of claims 1, 2, 3, 5, 6, 7, and 9, wherein after the convergence processing terminal analyzes the received target garbage recycling information to obtain a garbage disposal situation of an area matching with a target forwarding node that reports the target garbage recycling information, the method further comprises:

the convergence processing terminal judges whether areas meeting the predetermined garbage processing conditions exist or not according to all the garbage processing conditions, wherein the areas meeting the predetermined garbage processing conditions are areas needing to be subjected to garbage classification recycling processing in time;

when judging that the areas meeting the garbage treatment conditions exist, the convergence processing terminal screens a third area meeting the garbage treatment conditions from the areas matched with each target forwarding node;

the convergence processing terminal generates a garbage disposal early warning of each third area and outputs the garbage disposal early warning of each third area;

the converging processing terminal outputs the garbage processing early warning of each third area, and the converging processing terminal comprises:

The convergence processing terminal issues the garbage disposal early warning of each third area to a first garbage disposal management terminal corresponding to the third area through a target forwarding node corresponding to the third area, and the garbage disposal early warning of each third area is used for notifying the first garbage disposal management terminal corresponding to the third area to allocate garbage recycling transportation equipment matched with the garbage disposal early warning to recycle garbage of the third area; and/or

The convergence processing terminal issues the garbage treatment early warning of each third area to a next grading node corresponding to the third area through a target forwarding node corresponding to the third area, so that the next grading node corresponding to each third area issues the garbage treatment early warning of the third area to a second garbage treatment management terminal corresponding to the third area through the forwarding node of the next grading node, and the garbage treatment early warning of each third area is used for informing the second garbage treatment management terminal corresponding to the third area to allocate garbage recycling transportation equipment matched with the garbage treatment early warning to recycle the garbage of the third area; and/or

11. The method for supervising recycling of garbage based on internet of things according to any one of claims 1, 2, 3, 5, 6, 7, and 9, wherein the area matched with the target forwarding node reporting the target garbage recycling information includes an area matched with all next hierarchical nodes corresponding to the hierarchical node where the target forwarding node is located.

12. The method is characterized in that the method is applied to a garbage collection supervision system, the garbage collection supervision system comprises an aggregation processing terminal and hierarchical nodes arranged on each hierarchy, each hierarchical node at least comprises an acquisition node and a forwarding node, the acquisition node of each hierarchical node is used for acquiring garbage collection processing information forwarded by the forwarding node of the next hierarchical node, and the forwarding node of each hierarchical node is used for forwarding the garbage collection processing information acquired by the acquisition node of the hierarchical node to the acquisition node of the previous hierarchical node or the aggregation processing terminal, and the method comprises the following steps:

The aggregation processing terminal is used for receiving the target garbage collection processing information reported by the grading node, acquiring a workload condition corresponding to the target garbage collection processing information, judging whether the current workload value of the aggregation processing terminal is smaller than or equal to a predetermined load threshold according to the workload condition, and analyzing the received target garbage collection processing information to obtain a garbage processing condition of an area matched with a target forwarding node reporting the target garbage collection processing information;

the specific way for the convergence processing terminal to analyze the received target garbage collection processing information to obtain the garbage disposal condition of the area matched with the target forwarding node reporting the target garbage collection processing information comprises the following steps:

13. The converging processing terminal is a processing terminal of a garbage collection supervision system, and the garbage collection supervision system further comprises grading nodes arranged on each grade, each grading node at least comprises an acquisition node and a forwarding node, the acquisition node of each grading node is used for acquiring garbage collection processing information forwarded by the forwarding node of the next grading node, the forwarding node of each grading node is used for forwarding the garbage collection processing information acquired by the acquisition node of the grading node to the acquisition node of the last grading node or the converging processing terminal, wherein the converging processing terminal comprises a communication module and an analysis module, and the converging processing terminal comprises:

the analysis module is used for analyzing the received target garbage collection processing information to obtain garbage disposal conditions of areas matched with target forwarding nodes for reporting the target garbage collection processing information;

the convergence processing terminal is further used for acquiring a workload condition corresponding to the target garbage collection processing information when the target garbage collection processing information is received after receiving the target garbage collection processing information reported by the grading node, and judging whether the current workload value of the convergence processing terminal is smaller than or equal to a predetermined load threshold value according to the workload condition;

And the specific way for the analysis module to analyze the received target garbage collection processing information to obtain the garbage disposal condition of the area matched with the target forwarding node reporting the target garbage collection processing information comprises the following steps:

14. The utility model provides a garbage collection supervisory systems, its characterized in that, garbage collection supervisory systems includes gathering processing terminal and sets up at each hierarchical node, every hierarchical node includes collection node and forwarding node at least, every hierarchical node's collection node is used for gathering the garbage collection processing information that forwarding node of next hierarchical node was forwarded, every hierarchical node's forwarding node is used for forwarding the garbage collection processing information that collection node of this hierarchical node gathered to the collection node of last hierarchical node or gathering processing terminal, wherein:

The classification node is used for reporting target garbage collection processing information to the convergence processing terminal through the forwarding node of the classification node, the target garbage collection processing information reported by the classification node comprises garbage collection processing information reported by the forwarding node of the next classification node corresponding to the classification node, and the classification node is a node capable of directly communicating with the convergence processing terminal;